Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape

Jasmine E. Saros; Nicholas John Anderson; Stephen Juggins; Suzanne McGowan; Jacob C. Yde; Jon Telling; Joanna E. Bullard; Marian L. Yallop; Adam J. Heathcote; Benjamin T. Burpee; Rachel A. Fowler; Christopher D. Barry; Robert M. Northington; Christopher L. Osburn; Sergi Pla-Rabes; Sebastian H. Mernild; Erika J. Whiteford; M. Grace Andrews; Jeffrey T. Kerby; Eric Post

doi:10.1088/1748-9326/ab2928

Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape

Jasmine E. Saros, Nicholas John Anderson, Stephen Juggins, Suzanne McGowan, Jacob C. Yde, Jon Telling, Joanna E. Bullard, Marian L. Yallop, Adam J. Heathcote, Benjamin T. Burpee, Rachel A. Fowler, Christopher D. Barry, Robert M. Northington, Christopher L. Osburn, Sergi Pla-Rabes, Sebastian H. Mernild, Erika J. Whiteford, M. Grace Andrews, Jeffrey T. Kerby, Eric Post

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Prediction of high latitude response to climate change is hampered by poor understanding of the role of nonlinear changes in ecosystem forcing and response. While the effects of nonlinear climate change are often delayed or dampened by internal ecosystem dynamics, recent warming events in the Arctic have driven rapid environmental response, raising questions of how terrestrial and freshwater systems in this region may shift in response to abrupt climate change. We quantified environmental responses to recent abrupt climate change in West Greenland using long-term monitoring and paleoecological reconstructions. Using >40 years of weather data, we found that after 1994, mean June air temperatures shifted 2.2 °C higher and mean winter precipitation doubled from 21 to 40 mm; since 2006, mean July air temperatures shifted 1.1 °C higher. Nonlinear environmental responses occurred with or shortly after these abrupt climate shifts, including increasing ice sheet discharge, increasing dust, advancing plant phenology, and in lakes, earlier ice out and greater diversity of algal functional traits. Our analyses reveal rapid environmental responses to nonlinear climate shifts, underscoring the highly responsive nature of Arctic ecosystems to abrupt transitions.

Original language	English
Article number	074027
Journal	Environmental Research Letters
Volume	14
Issue number	7
ISSN	1748-9318
DOIs	https://doi.org/10.1088/1748-9326/ab2928
Publication status	Published - 16. Jul 2019
Externally published	Yes

Keywords

Abrupt climate change
Arctic
ecosystems
nonlinear

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10.1088/1748-9326/ab2928Licence: CC BY

Cite this

Saros, J. E., Anderson, N. J., Juggins, S., McGowan, S., Yde, J. C., Telling, J., Bullard, J. E., Yallop, M. L., Heathcote, A. J., Burpee, B. T., Fowler, R. A., Barry, C. D., Northington, R. M., Osburn, C. L., Pla-Rabes, S., Mernild, S. H., Whiteford, E. J., Grace Andrews, M., Kerby, J. T., & Post, E. (2019). Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape. Environmental Research Letters, 14(7), [074027]. https://doi.org/10.1088/1748-9326/ab2928

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title = "Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape",

abstract = "Prediction of high latitude response to climate change is hampered by poor understanding of the role of nonlinear changes in ecosystem forcing and response. While the effects of nonlinear climate change are often delayed or dampened by internal ecosystem dynamics, recent warming events in the Arctic have driven rapid environmental response, raising questions of how terrestrial and freshwater systems in this region may shift in response to abrupt climate change. We quantified environmental responses to recent abrupt climate change in West Greenland using long-term monitoring and paleoecological reconstructions. Using >40 years of weather data, we found that after 1994, mean June air temperatures shifted 2.2 °C higher and mean winter precipitation doubled from 21 to 40 mm; since 2006, mean July air temperatures shifted 1.1 °C higher. Nonlinear environmental responses occurred with or shortly after these abrupt climate shifts, including increasing ice sheet discharge, increasing dust, advancing plant phenology, and in lakes, earlier ice out and greater diversity of algal functional traits. Our analyses reveal rapid environmental responses to nonlinear climate shifts, underscoring the highly responsive nature of Arctic ecosystems to abrupt transitions.",

keywords = "Abrupt climate change, Arctic, ecosystems, nonlinear",

author = "Saros, {Jasmine E.} and Anderson, {Nicholas John} and Stephen Juggins and Suzanne McGowan and Yde, {Jacob C.} and Jon Telling and Bullard, {Joanna E.} and Yallop, {Marian L.} and Heathcote, {Adam J.} and Burpee, {Benjamin T.} and Fowler, {Rachel A.} and Barry, {Christopher D.} and Northington, {Robert M.} and Osburn, {Christopher L.} and Sergi Pla-Rabes and Mernild, {Sebastian H.} and Whiteford, {Erika J.} and {Grace Andrews}, M. and Kerby, {Jeffrey T.} and Eric Post",

year = "2019",

month = jul,

day = "16",

doi = "10.1088/1748-9326/ab2928",

language = "English",

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journal = "Environmental Research Letters",

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Saros, JE, Anderson, NJ, Juggins, S, McGowan, S, Yde, JC, Telling, J, Bullard, JE, Yallop, ML, Heathcote, AJ, Burpee, BT, Fowler, RA, Barry, CD, Northington, RM, Osburn, CL, Pla-Rabes, S, Mernild, SH, Whiteford, EJ, Grace Andrews, M, Kerby, JT & Post, E 2019, 'Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape', Environmental Research Letters, vol. 14, no. 7, 074027. https://doi.org/10.1088/1748-9326/ab2928

TY - JOUR

T1 - Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape

AU - Saros, Jasmine E.

AU - Anderson, Nicholas John

AU - Juggins, Stephen

AU - McGowan, Suzanne

AU - Yde, Jacob C.

AU - Telling, Jon

AU - Bullard, Joanna E.

AU - Yallop, Marian L.

AU - Heathcote, Adam J.

AU - Burpee, Benjamin T.

AU - Fowler, Rachel A.

AU - Barry, Christopher D.

AU - Northington, Robert M.

AU - Osburn, Christopher L.

AU - Pla-Rabes, Sergi

AU - Mernild, Sebastian H.

AU - Whiteford, Erika J.

AU - Grace Andrews, M.

AU - Kerby, Jeffrey T.

AU - Post, Eric

PY - 2019/7/16

Y1 - 2019/7/16

N2 - Prediction of high latitude response to climate change is hampered by poor understanding of the role of nonlinear changes in ecosystem forcing and response. While the effects of nonlinear climate change are often delayed or dampened by internal ecosystem dynamics, recent warming events in the Arctic have driven rapid environmental response, raising questions of how terrestrial and freshwater systems in this region may shift in response to abrupt climate change. We quantified environmental responses to recent abrupt climate change in West Greenland using long-term monitoring and paleoecological reconstructions. Using >40 years of weather data, we found that after 1994, mean June air temperatures shifted 2.2 °C higher and mean winter precipitation doubled from 21 to 40 mm; since 2006, mean July air temperatures shifted 1.1 °C higher. Nonlinear environmental responses occurred with or shortly after these abrupt climate shifts, including increasing ice sheet discharge, increasing dust, advancing plant phenology, and in lakes, earlier ice out and greater diversity of algal functional traits. Our analyses reveal rapid environmental responses to nonlinear climate shifts, underscoring the highly responsive nature of Arctic ecosystems to abrupt transitions.

AB - Prediction of high latitude response to climate change is hampered by poor understanding of the role of nonlinear changes in ecosystem forcing and response. While the effects of nonlinear climate change are often delayed or dampened by internal ecosystem dynamics, recent warming events in the Arctic have driven rapid environmental response, raising questions of how terrestrial and freshwater systems in this region may shift in response to abrupt climate change. We quantified environmental responses to recent abrupt climate change in West Greenland using long-term monitoring and paleoecological reconstructions. Using >40 years of weather data, we found that after 1994, mean June air temperatures shifted 2.2 °C higher and mean winter precipitation doubled from 21 to 40 mm; since 2006, mean July air temperatures shifted 1.1 °C higher. Nonlinear environmental responses occurred with or shortly after these abrupt climate shifts, including increasing ice sheet discharge, increasing dust, advancing plant phenology, and in lakes, earlier ice out and greater diversity of algal functional traits. Our analyses reveal rapid environmental responses to nonlinear climate shifts, underscoring the highly responsive nature of Arctic ecosystems to abrupt transitions.

KW - Abrupt climate change

KW - Arctic

KW - ecosystems

KW - nonlinear

UR - http://www.scopus.com/inward/record.url?scp=85072049275&partnerID=8YFLogxK

U2 - 10.1088/1748-9326/ab2928

DO - 10.1088/1748-9326/ab2928

M3 - Journal article

AN - SCOPUS:85072049275

SN - 1748-9326

VL - 14

JO - Environmental Research Letters

JF - Environmental Research Letters

IS - 7

M1 - 074027

ER -

Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape

Abstract

Keywords

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