Global lake responses to climate change
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In: Nature Reviews Earth and Environment, Vol. 1, 01.08.2020, p. 388-403.
Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Global lake responses to climate change
AU - Woolway, R. Iestyn
AU - Kraemer, Benjamin M.
AU - Lenters, John D.
AU - Merchant, Christopher J.
AU - O'Reilly, Catherine M.
AU - Sharma, Sapna
PY - 2020/8/1
Y1 - 2020/8/1
N2 - Climate change is one of the most severe threats to global lake ecosystems. Lake surface conditions, such as ice cover, surface temperature, evaporation and water level, respond dramatically to this threat, as observed in recent decades. In this Review, we discuss physical lake variables and their responses to climate change. Decreases in winter ice cover and increases in lake surface temperature modify lake mixing regimes and accelerate lake evaporation. Where not balanced by increased mean precipitation or inflow, higher evaporation rates will favour a decrease in lake level and surface water extent. Together with increases in extreme-precipitation events, these lake responses will impact lake ecosystems, changing water quantity and quality, food provisioning, recreational opportunities and transportation. Future research opportunities, including enhanced observation of lake variables from space (particularly for small water bodies), improved in situ lake monitoring and the development of advanced modelling techniques to predict lake processes, will improve our global understanding of lake responses to a changing climate.
AB - Climate change is one of the most severe threats to global lake ecosystems. Lake surface conditions, such as ice cover, surface temperature, evaporation and water level, respond dramatically to this threat, as observed in recent decades. In this Review, we discuss physical lake variables and their responses to climate change. Decreases in winter ice cover and increases in lake surface temperature modify lake mixing regimes and accelerate lake evaporation. Where not balanced by increased mean precipitation or inflow, higher evaporation rates will favour a decrease in lake level and surface water extent. Together with increases in extreme-precipitation events, these lake responses will impact lake ecosystems, changing water quantity and quality, food provisioning, recreational opportunities and transportation. Future research opportunities, including enhanced observation of lake variables from space (particularly for small water bodies), improved in situ lake monitoring and the development of advanced modelling techniques to predict lake processes, will improve our global understanding of lake responses to a changing climate.
U2 - 10.1038/s43017-020-0067-5
DO - 10.1038/s43017-020-0067-5
M3 - Article
VL - 1
SP - 388
EP - 403
JO - Nature Reviews Earth and Environment
JF - Nature Reviews Earth and Environment
ER -