PrestonClimateRegulatesAlpineSupportingInfo.pdf

High-elevation aquatic ecosystems are highly vulnerable to climate change, yet relatively few records are available to characterize shifts in ecosystem structure or their underlying mechanisms. Using a long-term data set on seven alpine lakes (3126 to 3620 m) in Colorado, USA, we show that ice-off d...

Full description

Bibliographic Details
Main Authors: Preston, Daniel L., Caine, Nel, McKnight, Diane M., Williams, Mark W., Hell, Katherina, Miller, Matthew P., Hart, Sarah J., Johnson, Pieter T. J.
Language:unknown
Subjects:
Ice
permafrost
Online Access:https://ir.library.oregonstate.edu/concern/articles/gm80hx185
id ftoregonstate:ir.library.oregonstate.edu:gm80hx185
record_format openpolar
spelling ftoregonstate:ir.library.oregonstate.edu:gm80hx185 2024-09-15T18:11:31+00:00 PrestonClimateRegulatesAlpineSupportingInfo.pdf Preston, Daniel L. Caine, Nel McKnight, Diane M. Williams, Mark W. Hell, Katherina Miller, Matthew P. Hart, Sarah J. Johnson, Pieter T. J. https://ir.library.oregonstate.edu/concern/articles/gm80hx185 unknown https://ir.library.oregonstate.edu/concern/articles/gm80hx185 Copyright Not Evaluated ftoregonstate 2024-07-22T18:06:04Z High-elevation aquatic ecosystems are highly vulnerable to climate change, yet relatively few records are available to characterize shifts in ecosystem structure or their underlying mechanisms. Using a long-term data set on seven alpine lakes (3126 to 3620 m) in Colorado, USA, we show that ice-off dates have shifted 7 days earlier over the past 33 years and that spring weather conditions—especially snowfall—drive yearly variation in ice-off timing. In the most well studied lake, earlier ice-off associated with increases in water residence times, thermal stratification, ion concentrations, dissolved nitrogen, pH, and chlorophyll a. Mechanistically, low spring snowfall and warm temperatures reduce summer stream flow (increasing lake residence times) but enhance melting of glacial and permafrost ice (increasing lake solute inputs). The observed links among hydrological, chemical, and biological responses to climate factors highlight the potential for major shifts in the functioning of alpine lakes due to forecasted climate change. Other/Unknown Material Ice permafrost ScholarsArchive@OSU (Oregon State University)
institution Open Polar
collection ScholarsArchive@OSU (Oregon State University)
op_collection_id ftoregonstate
language unknown
description High-elevation aquatic ecosystems are highly vulnerable to climate change, yet relatively few records are available to characterize shifts in ecosystem structure or their underlying mechanisms. Using a long-term data set on seven alpine lakes (3126 to 3620 m) in Colorado, USA, we show that ice-off dates have shifted 7 days earlier over the past 33 years and that spring weather conditions—especially snowfall—drive yearly variation in ice-off timing. In the most well studied lake, earlier ice-off associated with increases in water residence times, thermal stratification, ion concentrations, dissolved nitrogen, pH, and chlorophyll a. Mechanistically, low spring snowfall and warm temperatures reduce summer stream flow (increasing lake residence times) but enhance melting of glacial and permafrost ice (increasing lake solute inputs). The observed links among hydrological, chemical, and biological responses to climate factors highlight the potential for major shifts in the functioning of alpine lakes due to forecasted climate change.
author Preston, Daniel L.
Caine, Nel
McKnight, Diane M.
Williams, Mark W.
Hell, Katherina
Miller, Matthew P.
Hart, Sarah J.
Johnson, Pieter T. J.
spellingShingle Preston, Daniel L.
Caine, Nel
McKnight, Diane M.
Williams, Mark W.
Hell, Katherina
Miller, Matthew P.
Hart, Sarah J.
Johnson, Pieter T. J.
PrestonClimateRegulatesAlpineSupportingInfo.pdf
author_facet Preston, Daniel L.
Caine, Nel
McKnight, Diane M.
Williams, Mark W.
Hell, Katherina
Miller, Matthew P.
Hart, Sarah J.
Johnson, Pieter T. J.
author_sort Preston, Daniel L.
title PrestonClimateRegulatesAlpineSupportingInfo.pdf
title_short PrestonClimateRegulatesAlpineSupportingInfo.pdf
title_full PrestonClimateRegulatesAlpineSupportingInfo.pdf
title_fullStr PrestonClimateRegulatesAlpineSupportingInfo.pdf
title_full_unstemmed PrestonClimateRegulatesAlpineSupportingInfo.pdf
title_sort prestonclimateregulatesalpinesupportinginfo.pdf
url https://ir.library.oregonstate.edu/concern/articles/gm80hx185
genre Ice
permafrost
genre_facet Ice
permafrost
op_relation https://ir.library.oregonstate.edu/concern/articles/gm80hx185
op_rights Copyright Not Evaluated
_version_ 1810449118917558272

Similar Items