Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes

Sapna Sharma; David C. Richardson; R. Iestyn Woolway; M. Arshad Imrit; Damien Bouffard; Kevin Blagrave; Julia Daly; Alessandro Filazzola; Nikolay Granin; Johanna Korhonen; John Magnuson; Wlodzimierz Marszelewski; Shin-Ichiro S. Matsuzaki; William Perry; Dale M. Robertson; Lars G. Rudstam; Gesa A. Weyhenmeyer; Huaxia Yao

doi:10.1029/2021JG006348

Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes

Sapna Sharma
, David C. Richardson
, R. Iestyn Woolway
, M. Arshad Imrit
, Damien Bouffard
, Kevin Blagrave
, Julia Daly
, Alessandro Filazzola
, Nikolay Granin
, Johanna Korhonen
, John Magnuson
, Wlodzimierz Marszelewski
, Shin-Ichiro S. Matsuzaki
, William Perry
, Dale M. Robertson
, Lars G. Rudstam
, Gesa A. Weyhenmeyer
, Huaxia Yao

York University
European Space Agency Climate Office, ECSAT
Swiss Federal Institute of Aquatic Science and Technology
University of Maine
Russian Academy of Sciences
Finnish Environment Institute (SYKE), Helsinki
University of Wisconsin-Madison
Nicolaus Copernicus University
National Institute for Environmental Studies, Tsukuba, Japan
U.S. Geological Survey, Upper Midwest Water Science Center, Middleton
Cornell University
Uppsala University
Dorset Environmental Science Centre, Ontario

Research output: Contribution to journal › Article › peer-review

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Abstract

Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive indicators of climatic variations, even prior to the existence of physical meteorological measurement stations. Here, we updated ice phenology records for 60 lakes with time-series ranging from 107–204 years to provide the first re-assessment of Northern Hemispheric ice trends since 2004 by adding 15 additional years of ice phenology records and 40 lakes to our study. We found that, on average, ice-on was 11.0 days later, ice-off was 6.8 days earlier, and ice duration was 17.0 days shorter per century over the entire record for each lake. Trends in ice-on and ice duration were six times faster in the last 25-year period (1992–2016) than previous quarter centuries. More extreme events in recent decades, including late ice-on, early ice-off, shorter periods of ice cover, or no ice cover at all, contribute to the increasing rate of lake ice loss. Reductions in greenhouse gas emissions could limit increases in air temperature and abate losses in lake ice cover that would subsequently limit ecological, cultural, and socioeconomic consequences, such as increased evaporation rates, warmer water temperatures, degraded water quality, and the formation of toxic algal blooms.

Original language	English
Article number	e2021JG006348
Journal	Journal of Geophysical Research: Biogeosciences
Volume	126
Issue number	10
Early online date	20 Sept 2021
DOIs	https://doi.org/10.1029/2021JG006348
Publication status	Published - 1 Oct 2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

lake ice
climate change
ice phenology
extreme events
winter limnology

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10.1029/2021JG006348Licence: CC BY

JGR Biogeosciences - 2021 - Sharma - Loss of Ice Cover Shifting Phenology and More Extreme Events in Northern HemisphereFinal published version, 1.67 MBLicence: CC BY

Cite this

Sharma, S., Richardson, D. C., Woolway, R. I., Imrit, M. A., Bouffard, D., Blagrave, K., Daly, J., Filazzola, A., Granin, N., Korhonen, J., Magnuson, J., Marszelewski, W., Matsuzaki, S.-I. S., Perry, W., Robertson, D. M., Rudstam, L. G., Weyhenmeyer, G. A., & Yao, H. (2021). Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes. Journal of Geophysical Research: Biogeosciences, 126(10), Article e2021JG006348. https://doi.org/10.1029/2021JG006348

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title = "Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes",

abstract = "Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive indicators of climatic variations, even prior to the existence of physical meteorological measurement stations. Here, we updated ice phenology records for 60 lakes with time-series ranging from 107–204 years to provide the first re-assessment of Northern Hemispheric ice trends since 2004 by adding 15 additional years of ice phenology records and 40 lakes to our study. We found that, on average, ice-on was 11.0 days later, ice-off was 6.8 days earlier, and ice duration was 17.0 days shorter per century over the entire record for each lake. Trends in ice-on and ice duration were six times faster in the last 25-year period (1992–2016) than previous quarter centuries. More extreme events in recent decades, including late ice-on, early ice-off, shorter periods of ice cover, or no ice cover at all, contribute to the increasing rate of lake ice loss. Reductions in greenhouse gas emissions could limit increases in air temperature and abate losses in lake ice cover that would subsequently limit ecological, cultural, and socioeconomic consequences, such as increased evaporation rates, warmer water temperatures, degraded water quality, and the formation of toxic algal blooms.",

keywords = "lake ice, climate change, ice phenology, extreme events, winter limnology",

author = "Sapna Sharma and Richardson, \{David C.\} and Woolway, \{R. Iestyn\} and Imrit, \{M. Arshad\} and Damien Bouffard and Kevin Blagrave and Julia Daly and Alessandro Filazzola and Nikolay Granin and Johanna Korhonen and John Magnuson and Wlodzimierz Marszelewski and Matsuzaki, \{Shin-Ichiro S.\} and William Perry and Robertson, \{Dale M.\} and Rudstam, \{Lars G.\} and Weyhenmeyer, \{Gesa A.\} and Huaxia Yao",

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Sharma, S, Richardson, DC, Woolway, RI, Imrit, MA, Bouffard, D, Blagrave, K, Daly, J, Filazzola, A, Granin, N, Korhonen, J, Magnuson, J, Marszelewski, W, Matsuzaki, S-IS, Perry, W, Robertson, DM, Rudstam, LG, Weyhenmeyer, GA & Yao, H 2021, 'Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes', Journal of Geophysical Research: Biogeosciences, vol. 126, no. 10, e2021JG006348. https://doi.org/10.1029/2021JG006348

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T1 - Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes

AU - Sharma, Sapna

AU - Richardson, David C.

AU - Woolway, R. Iestyn

AU - Imrit, M. Arshad

AU - Bouffard, Damien

AU - Blagrave, Kevin

AU - Daly, Julia

AU - Filazzola, Alessandro

AU - Granin, Nikolay

AU - Korhonen, Johanna

AU - Magnuson, John

AU - Marszelewski, Wlodzimierz

AU - Matsuzaki, Shin-Ichiro S.

AU - Perry, William

AU - Robertson, Dale M.

AU - Rudstam, Lars G.

AU - Weyhenmeyer, Gesa A.

AU - Yao, Huaxia

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive indicators of climatic variations, even prior to the existence of physical meteorological measurement stations. Here, we updated ice phenology records for 60 lakes with time-series ranging from 107–204 years to provide the first re-assessment of Northern Hemispheric ice trends since 2004 by adding 15 additional years of ice phenology records and 40 lakes to our study. We found that, on average, ice-on was 11.0 days later, ice-off was 6.8 days earlier, and ice duration was 17.0 days shorter per century over the entire record for each lake. Trends in ice-on and ice duration were six times faster in the last 25-year period (1992–2016) than previous quarter centuries. More extreme events in recent decades, including late ice-on, early ice-off, shorter periods of ice cover, or no ice cover at all, contribute to the increasing rate of lake ice loss. Reductions in greenhouse gas emissions could limit increases in air temperature and abate losses in lake ice cover that would subsequently limit ecological, cultural, and socioeconomic consequences, such as increased evaporation rates, warmer water temperatures, degraded water quality, and the formation of toxic algal blooms.

AB - Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive indicators of climatic variations, even prior to the existence of physical meteorological measurement stations. Here, we updated ice phenology records for 60 lakes with time-series ranging from 107–204 years to provide the first re-assessment of Northern Hemispheric ice trends since 2004 by adding 15 additional years of ice phenology records and 40 lakes to our study. We found that, on average, ice-on was 11.0 days later, ice-off was 6.8 days earlier, and ice duration was 17.0 days shorter per century over the entire record for each lake. Trends in ice-on and ice duration were six times faster in the last 25-year period (1992–2016) than previous quarter centuries. More extreme events in recent decades, including late ice-on, early ice-off, shorter periods of ice cover, or no ice cover at all, contribute to the increasing rate of lake ice loss. Reductions in greenhouse gas emissions could limit increases in air temperature and abate losses in lake ice cover that would subsequently limit ecological, cultural, and socioeconomic consequences, such as increased evaporation rates, warmer water temperatures, degraded water quality, and the formation of toxic algal blooms.

KW - lake ice

KW - climate change

KW - ice phenology

KW - extreme events

KW - winter limnology

U2 - 10.1029/2021JG006348

DO - 10.1029/2021JG006348

M3 - Article

SN - 2169-8961

VL - 126

JO - Journal of Geophysical Research: Biogeosciences

JF - Journal of Geophysical Research: Biogeosciences

IS - 10

M1 - e2021JG006348

ER -

Loss of Ice Cover, Shifting Phenology, and More Extreme Events in Northern Hemisphere Lakes

Abstract

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Keywords

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