Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska

This study explores the environmental forces controlling lake ontogeny at Glacier Bay as a model for early Holocene lake evolution in north temperate lakes worldwide. Long-term chemical and biological changes in lakes are investigated with two complementary research strategies: (1) limnological cond...

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Main Authors:	Engstrom, Daniel R., Fritz, Sherilyn C.
Format:	Text
Language:	unknown
Published:	DigitalCommons@University of Nebraska - Lincoln 1988
Subjects:	Paleolimnology hydrology lake chronosequence succession diatom stratigraphy water chemistry dystrophication Earth Sciences Glacier Bay glacier Alaska
Online Access:	https://digitalcommons.unl.edu/geosciencefacpub/3 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1002/viewcontent/Early_Lake_Ontogeny___Sherilyn.pdf

id	ftunivnebraskali:oai:digitalcommons.unl.edu:geosciencefacpub-1002
record_format	openpolar
spelling	ftunivnebraskali:oai:digitalcommons.unl.edu:geosciencefacpub-1002 2023-11-12T04:17:24+01:00 Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska Engstrom, Daniel R. Fritz, Sherilyn C. 1988-09-19T07:00:00Z application/pdf https://digitalcommons.unl.edu/geosciencefacpub/3 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1002/viewcontent/Early_Lake_Ontogeny___Sherilyn.pdf unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/geosciencefacpub/3 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1002/viewcontent/Early_Lake_Ontogeny___Sherilyn.pdf Papers in the Earth and Atmospheric Sciences Paleolimnology hydrology lake chronosequence succession diatom stratigraphy water chemistry dystrophication Earth Sciences text 1988 ftunivnebraskali 2023-10-30T10:21:51Z This study explores the environmental forces controlling lake ontogeny at Glacier Bay as a model for early Holocene lake evolution in north temperate lakes worldwide. Long-term chemical and biological changes in lakes are investigated with two complementary research strategies: (1) limnological conditions are compared among 32 lakes of known age and in different stages of primary catchment succession and (2) sediment cores from these same lakes are analyzed stratigraphically for fossil diatoms to ascertain developmental trends in pH, alkalinity, algal composition, and trophic status at individual sites. Trends in water chemistry inferred from the chronosequence approach include a progressive loss of alkalinity and dilution of surface waters, an increase in apparent color from organic acids, and a decline in pH. Because of considerable scatter in the chronosequence data, these changes are not apparent until several hundred years after deglaciation. Preliminary observations of biotic trends include an apparent succession of higher aquatic plants mediated by alkalinity changes and a rapid diversification of the diatom flora associated with a proliferation of new growth substrates, particularly macrophytes. Several hypotheses concerning early postglacial landlwater interactions are supported by these results, including (a) the progressive leaching of catchment soils makes lakes more dilute and acidic over time, (b) peat growth and regional paludification impede internal soil drainage and groundwater recharge, causing dilution and eventual dystrophication of surface waters, and (c) hydrologic and geologic differences among sites act to control the rates and direction of limnological change. Text glacier Alaska University of Nebraska-Lincoln: DigitalCommons@UNL Glacier Bay
institution	Open Polar
collection	University of Nebraska-Lincoln: DigitalCommons@UNL
op_collection_id	ftunivnebraskali
language	unknown
topic	Paleolimnology hydrology lake chronosequence succession diatom stratigraphy water chemistry dystrophication Earth Sciences
spellingShingle	Paleolimnology hydrology lake chronosequence succession diatom stratigraphy water chemistry dystrophication Earth Sciences Engstrom, Daniel R. Fritz, Sherilyn C. Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
topic_facet	Paleolimnology hydrology lake chronosequence succession diatom stratigraphy water chemistry dystrophication Earth Sciences
description	This study explores the environmental forces controlling lake ontogeny at Glacier Bay as a model for early Holocene lake evolution in north temperate lakes worldwide. Long-term chemical and biological changes in lakes are investigated with two complementary research strategies: (1) limnological conditions are compared among 32 lakes of known age and in different stages of primary catchment succession and (2) sediment cores from these same lakes are analyzed stratigraphically for fossil diatoms to ascertain developmental trends in pH, alkalinity, algal composition, and trophic status at individual sites. Trends in water chemistry inferred from the chronosequence approach include a progressive loss of alkalinity and dilution of surface waters, an increase in apparent color from organic acids, and a decline in pH. Because of considerable scatter in the chronosequence data, these changes are not apparent until several hundred years after deglaciation. Preliminary observations of biotic trends include an apparent succession of higher aquatic plants mediated by alkalinity changes and a rapid diversification of the diatom flora associated with a proliferation of new growth substrates, particularly macrophytes. Several hypotheses concerning early postglacial landlwater interactions are supported by these results, including (a) the progressive leaching of catchment soils makes lakes more dilute and acidic over time, (b) peat growth and regional paludification impede internal soil drainage and groundwater recharge, causing dilution and eventual dystrophication of surface waters, and (c) hydrologic and geologic differences among sites act to control the rates and direction of limnological change.
format	Text
author	Engstrom, Daniel R. Fritz, Sherilyn C.
author_facet	Engstrom, Daniel R. Fritz, Sherilyn C.
author_sort	Engstrom, Daniel R.
title	Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
title_short	Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
title_full	Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
title_fullStr	Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
title_full_unstemmed	Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska
title_sort	early lake ontogeny following neoglacial ice recession at glacier bay, alaska
publisher	DigitalCommons@University of Nebraska - Lincoln
publishDate	1988
url	https://digitalcommons.unl.edu/geosciencefacpub/3 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1002/viewcontent/Early_Lake_Ontogeny___Sherilyn.pdf
geographic	Glacier Bay
geographic_facet	Glacier Bay
genre	glacier Alaska
genre_facet	glacier Alaska
op_source	Papers in the Earth and Atmospheric Sciences
op_relation	https://digitalcommons.unl.edu/geosciencefacpub/3 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1002/viewcontent/Early_Lake_Ontogeny___Sherilyn.pdf
_version_	1782334314149576704

Early Lake Ontogeny following Neoglacial Ice Recession at Glacier Bay, Alaska

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