1
20
26
-
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(SE) Southeastern Igneous Suite -- Southeastern United States
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
2
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
SE-40
Title
A name given to the resource
Dunite
Spatial Coverage
Spatial characteristics of the resource.
Clay County, North Carolina
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Accrual Periodicity
The frequency with which items are added to a collection.
7/21/1971
Contributor
An entity responsible for making contributions to the resource
Geoscience Service & Supplies
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/files/original/4ee10b43b24c8c4757ea46f6ecefea71.pdf">SE Rock Suite</a>
Description
An account of the resource
Contains secondary products of alteration including serpentine, talc, chlorite, carbonates, and iron oxides
Accrual Method
The method by which items are added to a collection.
Purchased from Geoscience Service & Supplies
-
https://geosciencecollections.milne-library.org/files/original/567255282ce128b0d75ee383bb98671f.JPG
05e822a74002ecd65cb3a463555d214a
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Wollastonite-garnet-diopside
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
Thin section not available.
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Wollastonite-garnet-diopside
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Identifier
An unambiguous reference to the resource within a given context
AD-24
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-this specimen was obtained from the NYCO MIne in Willsboro, NY.
Description
An account of the resource
This unique rock contains white crystalline wollastonite, brown grains of andradite garnet, and green diopside. Specimens courtesy of R.R. Bauer, plant manager of NYCO MInes (1980). McLelland reports some grossularite in addition to andradite.
The following information is from the original OCR document: This interesting rock is discussed by Buddington, 1939, p. 41-43. See also Buddington and Whitcomb, 1941, Geology of the Willsboro Quandrant, New York State Museum Bulletin 325 and Buddington, 1950, "Composition and Genesis of Pyroxene and Garnet Related to the Adirondack Anorthosite and Anorthosite-Marble Contacts," American Mineralogist, v.35, p.659-670.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
-
https://geosciencecollections.milne-library.org/files/original/0b40766f1b6c75232ea7110c64c6482e.JPG
56adae428338fdc271d29e6d864b9b6e
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Woolen Mill gabbro
https://geosciencecollections.milne-library.org/files/original/7cd9bf37fb7b3d52920e54740631485f.jpg
e0bfefdf8a7d4d934366e2eac529e3cb
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Woolen Mill gabbro-thin section cross polarized light
Description
An account of the resource
Thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/06ac8935442148c483c61c643468d5b9.jpg
2f155b1e673a77004b12aad5006fd08b
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Woolen Mill gabbro-thin section plane polarized light
Alternative Title
An alternative name for the resource. The distinction between titles and alternative titles is application-specific.
Thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-23
Title
A name given to the resource
Woolen Mill gabbro
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a road cut on NY Route 9N, i mile west of Elizabethtown.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is representative of the pyroxene-plagioclase granulites that form from gabbros in the Adirondacks. This famous locality has been discussed, with analyses, by Buddington, 1939, Analysis 64L Table 15, and also in deWaard's 1965 type locality for the almandine-clinopyroxene subfacies of the granulite facies. The mineralogy is garnet-oligoclase-clinopyroxene-opaques. The texture is granoblastic. The original igneous texture and mineralogy have been totally replaced, at least locally, by two pyroxenes and plagioclase.
Thin section shows garnet, plagioclase and clinopyroxene.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/37cd1236d82cf5009bcba502f6cee0c4.JPG
0b1086ee48b7b9c537d515cfb6dd02ca
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite
https://geosciencecollections.milne-library.org/files/original/9e91a0120c9d2fee043cdd5a1fd64e7e.jpg
d253cfc7268494637669003a65ad3d0b
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite-Thin section cross polarized light
Description
An account of the resource
Thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/84946276817705de1d1a6c5653829810.jpg
5c8242ef5e5716134b11ceb572813ed2
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite-Thin section plane polarized light
Description
An account of the resource
Thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Snowy Mountain Dome
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-22
Title
A name given to the resource
Charnockite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from road cuts on NY Route 30 approximately 1 mile south of Beaver Creek or 6 miles south of Indian Lake.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a title="Anothosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York" href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Description
An account of the resource
This particular charnockite has been described, with analyses by deWaard and Romey, "Petrogenetic Relationships in the Anorthosite-Charnockite Series of the Snowy Mountain Dome," in Anorthosite Volume, New York State Museum Memoir 18, p.307-315. In this article, the authors show that a gradational contact exists between the anorthosite and surrounding charnockitic rocks. This is interpreted as the result of a comagmatic history for the rocks in question. The charnockites contain occasional xenocrysts of andesine which are believed to have been plucked off of the already solidified anorthosite by the still molten charnockite. Hills and Isachsen (1975) have dated these rocks at 1173±14 Ma.
Thin section shows K-feldspar, quartz and clinopyroxene.
-
https://geosciencecollections.milne-library.org/files/original/4fc9868fe9af3a63893e4eb2a829eed5.JPG
d4a28491e1b4ecbc1ff60482371c8d06
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Fayalite-ferrohedenbergite-mesoperthite granite
https://geosciencecollections.milne-library.org/files/original/c6b04b659b71989adf350477999ec7aa.jpg
ce39803db4522ccf4dab63b44cb6d1dd
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Fayalite-ferrohedenbergite-mesoperthite granite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/e23c2fec93a70a3859d57a7138b25eae.jpg
96db555319c401a40256486cbbd64a5d
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Fayalite-ferrohedenbergite-mesoperthite granite-thin section cross polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-21
Title
A name given to the resource
Fayalite-ferrohedenbergite-mesoperthite granite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from road cuts 4.1 miles west of Cranberry Lake.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This granite post-dates deformation and metamorphism. Silver got a U/Pb zircon age of 1125 Ma. This is a most unusual rock type. This rock has small quantities of fayalitic olivine and ferrohedenbergite that occur with mesoperthite and quartz. It also contains iron-rich orthopyroxene (Fe~90%).
Thin section shows feldspar with perthitic texture, quartz and olivine.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/632fb646bbdbc5ae2294862f6365237c.JPG
ff0fc7ba39b204d499e426aedf29a14d
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Mangerite-charnockite
https://geosciencecollections.milne-library.org/files/original/ac88a0184446400286715e949eb24f72.jpg
c5004c58ebc2a22798cf4a1aecba72a0
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Mangerite-charnockite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/82d3c15432643468633bc8fdb7726c5b.jpg
dbc258482303fdc47377c53b48c35a16
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Mangerite-charnockite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Mangerite-charnockite
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountians, New York</a>
Identifier
An unambiguous reference to the resource within a given context
AD-20
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a road cut on NY Route 30 approximately 3 miles southwest of Tupper Lake.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is typical of the metaigneous charnockitic rocks associated with the massif anorthosites in the Adirondacks. With variation in the quantity of modal quartz, the rock qualifies as either a charnockite or a mangerite. Quartz content is sufficiently variable to result in both rock types in a single outcrop. These rocks are part of the Mt. Arab complex (earlier referred to as the Tupper Lake Complex (Buddington 1939 p. 116)). The average modes of the mangerite (pyroxene syenite gneiss) and the associated charnockites are:<br /><table style="height:240px;"><tbody><tr><td>
<p>Â </p>
</td>
<td>
<p>Pyroxene syenite gneiss (1)</p>
</td>
<td>
<p>Charnockite (2)</p>
</td>
</tr><tr><td>
<p>Microperthite</p>
</td>
<td>
<p>46</p>
</td>
<td>
<p>46</p>
</td>
</tr><tr><td>
<p>Oligoclase</p>
</td>
<td>
<p>42</p>
</td>
<td>
<p>24</p>
</td>
</tr><tr><td>
<p>Quartz</p>
</td>
<td>
<p>3.3</p>
</td>
<td>
<p>16</p>
</td>
</tr><tr><td>
<p>Ferrohypersthene</p>
</td>
<td>
<p>2.0</p>
</td>
<td>
<p>6</p>
</td>
</tr><tr><td>
<p>Ferroaugite</p>
</td>
<td>
<p>3.6</p>
</td>
<td>
<p>1.4</p>
</td>
</tr><tr><td>
<p>Hornblende</p>
</td>
<td>
<p>1.8</p>
</td>
<td>
<p>2.8</p>
</td>
</tr><tr><td>
<p>Garnet</p>
</td>
<td>
<p>-</p>
</td>
<td>
<p>0.5</p>
</td>
</tr><tr><td>
<p>Â </p>
</td>
<td>
<p>Â </p>
</td>
<td>
<p>Â </p>
</td>
</tr><tr><td>
<p>(1)Â Â Â McLelland average of 5</p>
<p>(2)Â Â Â Analysis 112, Table 32, Buddington, 1939<br /><br /></p>
</td>
</tr></tbody></table>
Thin section shows K-feldspar, plagioclase and hypersthene.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/03cda701b66f2dfc367ec01c10943bea.JPG
98a731a14fbc3aafbe3400040394b1b3
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two Pyroxene-spinel metagabbro
https://geosciencecollections.milne-library.org/files/original/5ff49686be73c1eaf1376b8661c8ea5b.JPG
b670fee5ae90a7a09686159f3564f842
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two Pyroxene-spinel metagabbro
https://geosciencecollections.milne-library.org/files/original/f370ffb98aac7ae376307f2ba32359d0.jpg
aaf77c16cc14ef30e3e7ca47556cfea3
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two Pyroxene-spinel metagabbro-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/f8441ffc2737cb8d6edb6226d4acd033.jpg
d0df95a566b822bedc5958e34b060914
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two Pyroxene-spinel metagabbro-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-19
Title
A name given to the resource
Two Pyroxene-spinel metagabbro
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from the first high hill just southwest of the intersection of NY Route 30 and Benson Rd., approximately 2 miles northwest of Northville, NY.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountns, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Description
An account of the resource
The locality near Northville, NY represents the only example of this assemblage that has been encountered to date (1980) in the Adirondacks. The original lithology is that of a typical olivine metagabbro. During granulite facies metamorphism, reactions produced coronas consisting of orthopyroxene rims on olivine and spinel-clinopyroxene symplectites. Amphibole-spinel coronas also occur. These assemblages appear to represent lower pressure conditions than prevailed during the formation of the garnet-bearing assemblages represented by AD-16.
The following information is from the original OCR document: The mineralogy and textural features of these metagabbros are discussed in McLelland and Whitney, 1980, Contributions to Mineralogy and Petrology, v.72, p.111, specimen 17 and Whitney and McLelland, "Origin of Coronas in Olivine Metagabbros of the Adirondack Mountains, NY," 1973, Contributions to Mineralogy and Petrology, v. 39, p.81-98. The specimen you receive may be somewhat smaller than the regular specimens. Dr. James McLelland collected this material especially for this suite-and in 100° temperature. Thank you, Jim.
Thin section shows augite, spinel and plagioclase.
-
https://geosciencecollections.milne-library.org/files/original/a746f5171b47d4307394a1322744582d.JPG
f3d98194aa1177666b240412cea810ac
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Anorthosite
https://geosciencecollections.milne-library.org/files/original/2da066291265231b666ea1f90623223c.jpg
d58ec77ed16d1d8600730744a89640b1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Anorthosite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/15f2015abf31d098b4dcd803b0a051ad.jpg
97c32e8f4bbc10919d3085368675ab03
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Anorthosite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Oregon Dome Massif
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-17
Title
A name given to the resource
Anorthosite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a road cut on NY Route 30, 1/2 mile south of junction old route 30 and about 2 miles north of junction NY Route 8.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
The specimen was collected from the Oregon Dome Massif. The Oregon Dome is similar in all respects to the anorthosites described and analyzed by Buddington (1939) for the Adirondack High Peaks region (Marcy Massif). Texturally, the present specimens are partly granulated and are fairly typical of Adirondack anorthosites situated near the margins of the massifs. Of particular interest in this specimen is the occurrence of garnet. In general, this rims both oxides, usually ilmenite and clinopyroxene (and sometimes cored by orthopyroxene). The assemblage is typical of garnet-clinopyroxene subfacies of the granulite (deWaard, 1965).
The following information is from the original OCR document: The reactions producing this assemblage have been discussed by McLelland and Whitney, "Origin of Garnet in the Anorthosite-Charnockite Suite of the Adirondacks" 1977, Contributions to Mineralogy and Petrology, v. 60, p.161-181.
Thin section shows plagioclase and orthopyroxene.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/699794817e56ab3f3c933b9877efe45a.JPG
14a78a13570d6c0227f565a751073ce3
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Tennantville gabbroic anorthosite
https://geosciencecollections.milne-library.org/files/original/bfe40e12d218f4651d820d3acd9b1410.jpg
ded5cc862150ac50772d4b356e657da5
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Tennantville gabbroic anorthosite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/42bcc080d1c9372d77c2a45ce75fd398.jpg
2f74f27a69ccf7b94b2c1a9f3bc79e3f
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Tennantville gabbroic anorthosite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-14
Title
A name given to the resource
Tennantville gabbroic anorthosite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a low road cut on Military Road at the north edge of the Edinburg Quadrant.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This medium grained facies is one of a number of anorthositic sheets that intrude throughout the stratigraphic section of the southern Adirondacks. A chemical analyses of specimens from this outcrop yield results that are almost identical with Buddington's (1939) average gabbroic anorthosite.<br /><table><tbody><tr><td>
<p>Â </p>
</td>
<td>
<p><br />Tennantville locality (McFarland)</p>
</td>
<td>
<p>Average Gabbroic<br />Anorthosite (Buddington)</p>
</td>
</tr><tr><td>
<p>SiOâ‚‚</p>
</td>
<td>
<p>52.36</p>
</td>
<td>
<p>52.37</p>
</td>
</tr><tr><td>
<p>TiOâ‚‚</p>
</td>
<td>
<p>1.14</p>
</td>
<td>
<p>-</p>
</td>
</tr><tr><td>
<p>Al₂O₃</p>
</td>
<td>
<p>23.75</p>
</td>
<td>
<p>24.68</p>
</td>
</tr><tr><td>
<p>Fe₂O₃</p>
</td>
<td>
<p>1.11</p>
</td>
<td>
<p>1.24</p>
</td>
</tr><tr><td>
<p>FeO</p>
</td>
<td>
<p>3.96</p>
</td>
<td>
<p>3.49</p>
</td>
</tr><tr><td>
<p>MnO</p>
</td>
<td>
<p>.07</p>
</td>
<td>
<p>-</p>
</td>
</tr><tr><td>
<p>MgO</p>
</td>
<td>
<p>1.53</p>
</td>
<td>
<p>2.0</p>
</td>
</tr><tr><td>
<p>CaO</p>
</td>
<td>
<p>10.63</p>
</td>
<td>
<p>10.57</p>
</td>
</tr><tr><td>
<p>Naâ‚‚O</p>
</td>
<td>
<p>3.69</p>
</td>
<td>
<p>4.02</p>
</td>
</tr><tr><td>
<p>Kâ‚‚O</p>
</td>
<td>
<p>.90</p>
</td>
<td>
<p>.86</p>
</td>
</tr><tr><td>
<p>Pâ‚‚Oâ‚…</p>
</td>
<td>
<p>.16</p>
</td>
<td>
<p>-</p>
</td>
</tr><tr><td>
<p>Hâ‚‚O+</p>
</td>
<td>
<p>.69</p>
</td>
<td>
<p>.90</p>
</td>
</tr><tr><td>
<p>Total</p>
</td>
<td>
<p>99.99%</p>
</td>
<td>
<p>100.13%</p>
</td>
</tr></tbody></table>
The existence of these instrusive sheets of gabbroic anorthosite argues strongly against the proposition that the anorthositic rocks constitute part of an older, pre-Grenvillian basement complex. Rocks similar to the Tennantville gabbroic anorthosite commonly occur as border facies surrounding larger, coarser bodies of anorthosite. Spongy, brick-red garnets are common in these rocks.<br />Thin section shows plagioclase and clinopyroxene.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/606d3ee95d54b6d9400d23acbc554df9.JPG
ee895595b6266a270c4fa3fe00f6da17
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous leucogneiss
https://geosciencecollections.milne-library.org/files/original/13b5d867e8476724c5869fd965d53707.jpg
10bc39ba047c032918a8f4453e99c863
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous leucogneiss-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/c6c013820d0a9deb83d80153a0118bcf.jpg
af61f0611c6348d8ef963629b0f3f566
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous leucogneiss-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Sacandaga Formation
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-13
Title
A name given to the resource
Garnetiferous leucogneiss
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 30 from the west side of a road cut just north of Pumpkin Hollow, 100 yards south of sample AD-12.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Description
An account of the resource
This rock type is characteristic of the light colored layers in the Sacandaga Formation. The mineralogy consists of garnet, feldspar, and quartz. Occasionally, sillimanite and skeletal oxides occur. Both plagioclase and microcline are present. Quartz modes occur as high as 40-50%.
Thin section shows quartz, plagioclase and garnet.
-
https://geosciencecollections.milne-library.org/files/original/a30dcc469cdcc020252c7aa2b9df65c9.JPG
3c1dc09223fd7a101f240889b111c4a2
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-quartz-feldspar gneiss
https://geosciencecollections.milne-library.org/files/original/5283f807017d0289165f0865f8d94c2e.jpg
071248a12c27844c91f3e4663c918f69
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-quartz-feldspar gneiss-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/492f9d61fa2d16952a2c234b8f381f8c.jpg
142493eb88b035ef39ea4fa6d9987677
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-quartz-feldspar gneiss-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-11
Title
A name given to the resource
Sillimanite-garnet-quartz-feldspar gneiss
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 8 from a small road cut at the hilltop east of Graphite, NY and approximately 3 miles west of Hague, NY.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is extremely rich in sillimanite. European geologists refer to such lithologies as "khondolites." This locality is very near some of the old graphite production sites west of Hague.
Thin section shows sillimanite, garnet, k-feldspar.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/b8e4138e6db0ca0f338f42bb2f91f94c.JPG
8b7f40dc0f1f976ed85da5a8729da31f
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Calcsilicate rock
https://geosciencecollections.milne-library.org/files/original/8898d31bd9ef5490042db875c1138ec9.jpg
02f38a193466a7ae99f3b02a27b5c01c
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Calcsilicate rock-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/defb40c994d37c081c446a5cd9b7bbcb.jpg
1bbe8ef3d45143f9a5eed15104371787
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Calcsilicate rock-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Blue Mountain Lake Formation
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Calcsilicate rock
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metmorphic Suite-Adirondack Mountains, New York</a>
Identifier
An unambiguous reference to the resource within a given context
AD-8
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 30 from a large road cut 3.1 miles east of Speculator, NY.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
Minerals found in the calcsilicate facies contain quartz, diopside, enstatitic pyroxene, tremolite, calcite, and phlogopite. However, only a few thin sections have been found to contain all phases. In some specimens, the pyroxene is close to 100% enstatite. The assemblage may be due to the reaction tremolite=diopside+ enstatite + quartz +fluid. This reaction discussed by Boyd, "Hydrothermal Investigations of Amphiboles," in Abelson, p.377-396.
Thin section shows calcite, diopside and phlogopite.
-
https://geosciencecollections.milne-library.org/files/original/975e3474b7fcc69629b48494a3942c66.JPG
e256f75e8bc2574d71742a52b907bfb1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-biotite-quartz-plagioclase gneiss
https://geosciencecollections.milne-library.org/files/original/92462fb0b10d95d4224f32d3ebf511ce.jpg
f59cec60a3f59e0a51bb61009e91851b
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-biotite-quartz-plagioclase gneiss-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/8ff277adfa9d3e81f8c81ee1ff9bbf93.jpg
0bdf12838fbc16b6aa91bc4db62a903c
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Sillimanite-garnet-biotite-quartz-plagioclase gneiss-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Peck Lake Formation
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-4
Title
A name given to the resource
Sillimanite-garnet-biotite-quartz-plagioclase gneiss
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands--collected form a road cut on Route 29A approximately 5 miles north of Canada Lake Store, directly across from the Canada Lake Rod and Gun Club entrance.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<div style="text-align:left;"><a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a></div>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
The predominant lithology of the Peck Lake Formation is a sillimanite-garnet-biotite-quartz-oligoclase gneiss with pods and lenses consisting of two feldspars and quartz (anatectic?). The lithology is widespread throughout the Adirondacks and may represent a metapelite or metagraywacke. European geologists have referred to similiar lithologies as "kinzigites" (deWaard, 1962).
Thin section shows sillimanite, quartz, biotite and plagioclase.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/55e24ebab872a9e09283742a53d8c03f.JPG
8c151af8bcc5f2c03412639fe766076f
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite
https://geosciencecollections.milne-library.org/files/original/e23a0f2ee6cbd5f8107dc8611fe27fb8.jpg
93776188d4b2a3f7e3bfecaa0ed51ffe
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/a68a9a4111f881e7a490c24e89eba9bb.jpg
cd53ef059867d23cd408b3cd14c4e681
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Charnockite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-2
Title
A name given to the resource
Charnockite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands- collected on Routes 10 & 29A , 0.7 miles south of the Canada Lake Store and 0.8 miles north of the Nick Stoners Inn. Collected from the west side of a large roadcut at crest of hill (where McLelland found evidence of some orthopyroxene).
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This charnockite is similiar to most of the Adirondack charnockites that occur interlayered with other metastratified units. Like its analogues, the Canada Lake charnockite shows conformable realationships with enveloping units. Mineralogically, these charnockites consist of 50-60% gray-green mesoperthite, 20-30% quartz, 5-10% sodic plagioclase, and minor amounts of biotite, hornblende and orthopyroxene. The latter mineral is only sporadically in any outcrop. It is not known whether these rocks represent metasediments, metaplutonics, or metavolcanics. The latter possibility is favored by field relationships and homogeneity.
Thin section shows K-feldspar, quartz and plagioclase.
-
https://geosciencecollections.milne-library.org/files/original/182aaf714d4454c8b825a2d627f36670.JPG
5fe5fe345302c85818440bd4b27c372e
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartzite
https://geosciencecollections.milne-library.org/files/original/26d2717ac8902747f023cda5878f3450.jpg
153c82ea41ba2026f1589ec123f80da1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartzite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/95cc536e821ed6b1c0128320c0cb69a7.jpg
6dd4dd22771e9d7ecd68b2c1e24123dc
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartzite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Irving Pond Formation
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-1
Title
A name given to the resource
Quartzite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a road cut on NY Routes 10 & 29A, ½ mile north of the Nick Stoner Inn and 1¼ miles south of the Canada Lake Store.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is typical of the 5-10 foot thick coarse grained layers of glassy quartzites that comprise this formation. In most instances the quartzites are about 90% quartz. Feldspar and garnet are encountered locally. This is presumed to be the uppermost stratigraphic unit in the Adirondacks and typical of Adirondack quartzite generally.
Thin section shows primarily quartz with a minor amount of feldspar.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/b66c829d80ead6b66e239c3a316c2926.JPG
450b1b31931b23de5f700a9f21a29816
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Coarse anorthosite
https://geosciencecollections.milne-library.org/files/original/d5030aeecf15ad495fbb69a15d86971f.jpg
268eebb1c3e658f797dd95ad167f4aa6
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Coarse anorthosite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/15e33953ad30a1987f8f7847d1853f19.jpg
cd8b09a0730af338bc2a09c1c479ea10
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Coarse anorthosite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-18
Title
A name given to the resource
Coarse anorthosite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected from a massive outcrop on NY Route 3, about 5 miles south of Saranac Lake.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This coarse-grained specimen is typical of the massive, homogeneous anorthosite that occurs within the Marcy Massif and underlies the High Peaks region of the Adirondacks. The anorthosite from Route 3 is best represented by analyses 5-L and 8, Table 3, Buddington (1939). Also by analyses A, 16, and 17, Table 4, p. 3 , and by Table 5, p. 32, Buddington (1939).
Thin section shows plagioclase, clinopyroxene and ilmenite.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/fa24a2fe2f70172919a373084ac3aad9.JPG
c7865728396a17d1b36ea110ba174924
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous olivine metagabbro
https://geosciencecollections.milne-library.org/files/original/1656345627e043ab70eb3416d938d095.jpg
ac749bd71491acb5353ef7cab1cd89c0
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous olivine metagabbro-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/451dc72c83d549fd303d4fdca20465f2.jpg
2baba133eb37182f0eed41ba9bd52453
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous olivine metagabbro-thin section plane polarized light
https://geosciencecollections.milne-library.org/files/original/b740885228d58c48c4b88d4a3d8a6698.jpg
1f5221cb51cb8740580ef6617d77c0bf
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous olivine metagabbro-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/39c304157f9da14d8901aa082555790c.jpg
6361cd1f65598cd34c8e9fe23b55daf0
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous olivine metagabbro-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-16
Title
A name given to the resource
Garnetiferous olivine metagabbro
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 418 from a large road cut (south side), 3 miles west of the junction with highway 7 in Warrensburg, NY.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is typical of the olivine metagabbros that occur throughout the Adirondacks. These rocks are of great petrologic interest for they contain classic examples of garnet coronas and spinel-clouded plagioclase. Note the preservation of ophitic and sub-ophitic igneous textures even though these rocks have experienced granulite facies conditions. A magnificent example of transition to eclogite facies.
The following information is from the original OCR document: Detailed reactions accounting for both metamorphic assemblages and textures are developed in McLelland and Whitney, "A Generalized Garnet-Forming Reaction for Metamorphic Rocks in the Adirondacks," 1980, Contributions to Mineralogy and Petrology, v.72, p. 111-122. Explanations for a number of metamorphic textures in these rocks can be found in McLelland and Whitney, "Compositional Controls On Spinel and Garnet Formation in Plagioclase of Olivine Metagabbros," 1980, Contributions to Mineralogy and Petrology.
The first 2 thin sections show a plagioclase lath and a garnet with plagioclase and olivine surrounding it. The second 2 thin sections show a garnet with plagioclase corona and olivine crystals surrounding the garnet.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/f3cd5ef6b33efe5d28b3abfda3a9a0e6.JPG
7c83e4888b0e8f2c477071b8934fb365
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartz-microcline-diopsite gneiss
https://geosciencecollections.milne-library.org/files/original/b4b6f8f6169e40f388c92cebe541cd52.jpg
ac3ba9a46bedb0a6fcecada0d79ca8b6
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartz-microcline-diopsite gneiss-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/9c32374032a177b6785525de72afc37c.jpg
6cdccbb01b41d1cd8b1b6cd38594c9b4
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Quartz-microcline-diopsite gneiss-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-15
Title
A name given to the resource
Quartz-microcline-diopsite gneiss
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 30 from a road cut approximately just west of the parking area along the north shore of Mason Lake (Indian Lake Quadrant).
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Description
An account of the resource
This specimen displays an unusual and distinctive lithology that occurs primarily in lower, marble-rich units (for example, the Cedar River Formation).
Thin section shows quartz, K-feldspar and clinopyroxene.
-
https://geosciencecollections.milne-library.org/files/original/2ec6b07ab95c75d72406e9d07cb086d7.JPG
679414b2bb44a18076d2a675c1622f09
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two-pyroxene-plagioclase granulite
https://geosciencecollections.milne-library.org/files/original/7eac3df37bf17d1b88f772b92cf911d6.jpg
6ac7ba0d7c37f54462ad12c115eeea78
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two-pyroxene-plagioclase granulite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/f7f7e25e41116cec953a4a8c5257f5f4.jpg
aedd48504dfa16eeb8cc1c92a5fd8210
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Two-pyroxene-plagioclase granulite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Unit
Formation or other descriptive rock category
Sacandaga Formation
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-12
Title
A name given to the resource
Two-pyroxene-plagioclase granulite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 30 from the west side of a road cut just north of Pumpkin Hollow.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New York</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
The Sacandaga Formation consists of a well layered series of dark granulites (AD-12) and leucogneisses (AD-13). Orthopyroxene is generally present in greater quantity than clinopyroxene. It is not known whether these rocks are metasedimentary or metaigneous. They are strongly foliated.
Thin section shows plagioclase (one with perthitic texture), orthopyroxene and quartz.
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
-
https://geosciencecollections.milne-library.org/files/original/ea78859d9629f376eb6b63aa83c1bc08.JPG
2095bccd33c278c4f7c246c5d81ffd14
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous amphibolite
https://geosciencecollections.milne-library.org/files/original/a32c1b860e768faf6d320ef063a1f45d.jpg
113acd646dcdd4f22828b1184a515f9f
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous amphibolite-thin section cross polarized light
https://geosciencecollections.milne-library.org/files/original/1330ba6e5fce92814e53bd8285d606b8.jpg
3b67524961bc592cec53832ce7276239
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
Garnetiferous amphibolite-thin section plane polarized light
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
A name given to the resource
(ADK) Anorthosite-Charnockite and Metamorphic Suite --
Adirondack Mountains, New York
Description
An account of the resource
The Adirondack Mountains of northern New York State are underlain by approximately 20,000 square miles of complexly deformed, high grade metamorphic rocks which are believed to represent a southern outlier of the much larger Grenville Province.The Adirondacks can be divided into the "Lowlands" and the "Highlands" . The Lowlands comprise the northwestern quarter of the belt and are characterized by amphibolite facies metamorphism. The Highlands appear to consist entirely of granulite facies rocks. All rocks in this suite have been collected from the Highlands and predominantly from the southern quarter of the Adirondacks.
This suite of rocks is designed to be representative of the Highlands in general. Therefore it includes both metasedimentary and metaigneous rocks. The latter are very common throughout the Adirondacks and contain the often-discussed anorthosite-charnockite suite of rocks. Almost all rocks in the Adirondack Highlands are strongly foliated. This is the result of intense polyphase deformation that has affected this area.
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
References
A related resource that is referenced, cited, or otherwise pointed to by the described resource.
<strong>Start here: <br /></strong>McLelland, J., and Selleck, B.W.,2011, Megacrystic Gore Mountain-type garnets in the Adirondack Highlands; age, origin, and tectonic implications:Geosphere, v.7, no. 5, p.1194-1208, doi: <a href="http://dx.doi.org/10.1130/GES00683.1" target="_blank">10.1130/GES00683.1</a>.<br /><ul><li>This article describes the formation of the megacrystic garnet amphibolites in the Gore Mountain section of the Adirondack Mountains. The authors conclude that three main factors influenced the garnet development: collapse of the Ottawan orogeny, intrusion of Lyon Mountain Granite, and fluid-related alteration at high temperature.</li>
</ul><p><strong>Additional resources:<br /></strong>McLelland, J.M., Bickford, M.E., Hill, B.M., Clechenko, C.C., Valley, J.W., and Hamilton, M.A., 2004, Direct dating of Adirondack Massif anorthosite by U-Pb SHRIMP analysis of igneous zircon; implications for AMCG complexes: Geological Society of America Bulletin, v.116, no. 11-12, p.1299-1317, doi: <a href="http://dx.doi.org/10.1130/B25482.1" target="_blank">10.1130/B25482.1</a>.</p>
<ul><li>This article describes techniques used to more accurately date the Adirondack Massif anorthosite.The authors concluded that the massifs <span>constitute a single, composite anorthosite-mangerite-charnockite-granite (AMCG) suite intruded at ca. 1155 Ma. Although the rock suite is considered to be coeval, the authors conclude the rocks are not comagmatic.</span></li>
</ul><p>McLelland, J., Bickford, M.E., Spear, F., and Storm, L., 2002, Geology and geochronolgy of the eastern Adirondacks in <span>New England Intercollegiate Geological Conference, 94th, New York State Geological Association 74th: guidebook for field trips in New York and Vermont : Lake George, New York<br /></span></p>
<ul><li>This field trip guide provides for nine stops in the eastern Adirondacks. It also include some thin sections images and zircon images from sample rocks of the field trip stops.</li>
</ul><p>McLelland, J., Daly, J.S., and McLelland, J.M., 1996, The Grenville orogenic cycle (ca. 1350-1000 Ma); an Adirondack perspective: Tectonophysics, v.265, issue 1-2, p.1-28, doi: <a href="http://dx.doi.org/10.1016/S0040-1951(96)00144-8" target="_blank">10.1016/S0040-1951(96)00144-8</a>.</p>
<ul><li>This article provides a detailed geochronological account of the Grenville orogeny (ca. 1350-1000 Ma) with emphasis on the impact it had on the formation of the Adirondack Mountains.</li>
</ul><p>McLelland, J., Lewis, A., and Moore, L., 1994, Composition and petrogenesis of oxide-, apatite-rich gabbronorites associated with Proterozoic anorthosite massifs: examples from the Adirondack Mountains, New York: Contributions to Mineralogy and Petrology, v.116, p.225-238, doi: <a href="http://dx.doi.org/10.1007/BF00310702" target="_blank">10.1007/BF00310702</a>.</p>
<ul><li>This article investigates the occurence of oxide-, apatite-rich gabbronorites with anorthosite massifs of the Adirondacks. The authors describe a multilple-step process of plagioclase crystal fractionation that ultimately leads to high concentrations of P, Fe, and Ti.</li>
</ul><p>New York State Geological Survey<br /><a href="http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html">http://www.nysm.nysed.gov/nysgs/nygeology/mineralogy/adirondacks/index.html<br /></a></p>
<ul><li>The NYS Geological Survey is a division of the New York State Museum system. This web page provides some details about the Adirondack Highlands and pictures of various minerals found in this region.</li>
</ul><p>Regan, S.P., Chiarenzelli, J.R., McLelland, J.M., and Cousens, B. L., 2011, Evidence for an enriched asthenospheric source for coronitic metagabbros in the Adirondack Highlands: Geosphere, v.7, issue 3, p.<span> 694-709, doi: <a href="http://dx.doi.org/10.1130/GES00629.1" target="_blank">10.1130/GES00629.1</a>.<br /></span></p>
<ul><li>This article describes the formation of coronitc metagabbros through tectonic processes involving the asthenosphere. Through geochemical and isotopic analyses, the authors provide a timeline of tectonic and petrologic events that supports an asthenospheric source for coronitic metagabbros.</li>
</ul>
Date
A point or period of time associated with an event in the lifecycle of the resource
1980
Temporal Coverage
Temporal characteristics of the resource.
The Adirondack Mountains were formed approximately 1.1- 1.3 billion years ago during the Grenville Orogeny (Precambrian eon, Proterozic era).
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Spatial Coverage
Spatial characteristics of the resource.
This rock suite was collected from the Adirondack Mountains located in the northeastern part of New York State.
Rock
A physical material with a mineral composition.
Number of Thin Sections
Number of thin sections associated with this sample
1
Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Identifier
An unambiguous reference to the resource within a given context
AD-10
Title
A name given to the resource
Garnetiferous amphibolite
Spatial Coverage
Spatial characteristics of the resource.
Adirondack Highlands-collected on NY Route 30 from a road cut 0.9 miles north of Speculator, NY.
Temporal Coverage
Temporal characteristics of the resource.
Precambrian
Contributor
An entity responsible for making contributions to the resource
Western Minerals Inc.
Is Part Of
A related resource in which the described resource is physically or logically included.
<a href="http://geosciencecollections.milne-library.org/collections/show/7">Anorthosite-Charnockite and Metamorphic Suite-Adirondack Mountains, New Yorks</a>
Accrual Method
The method by which items are added to a collection.
Purchased from Western Minerals Inc.
Description
An account of the resource
This specimen is similar to the famous garnet deposits at Barton Mines at Gore Mountain. The garnets at Gore Mountain can attain diameters of 3 feet. At the Speculator road cut, garnet of 8-10 inches in diameter have been found, but smaller examples were considered to be best suited for the purposes of this suite. Both at Gore Mountain and Speculator, the original rock can be shown to have been an olivine metagabbro. The present mineralogy consists of garnet, hornblende, and plagioclase with the development of narrow rims of very anorthitic plagioclase (An₈₀) surrounding many of the garnets. In addition, orthopyroxene locally replaces hornblende near the plagioclase rims.<br /><br />The following information is from the original OCR document: The origin of the garnetiferous amphibolites has been discussed by Bartholome, "Genesis of the Gore Mountain Garnet Deposit", 1960, Economic Geology, v. 55, p. 255-277. The rims of calcic plagioclase and associated orthopyroxene has been discussed by deWaard, "The Occurrence of Garnet in the Granulite Facies of the Adirondack Highlands, " 1965, Journal of Petrology, v.6, p. 165-191. DeWaard shows convincingly that these rims are formed during the reaction hornblende + garnet + quartz = orthopyroxene + plagioclase + H₂O.<br /><br />Thin section shows plagioclase, hornblende and garnet.<br /><br /><br /><br />
Date
A point or period of time associated with an event in the lifecycle of the resource
1980