The changing face of the Arctic: four decades of greening and implications for tundra ecosystems

Gerald V. Frost; Uma S. Bhatt; Matthew J. Macander; Logan T. Berner; Donald A. Walker; Martha K. Raynolds; Rúna Magnússon; Annett Bartsch; Jarle W. Bjerke; Howard E. Epstein; Bruce C. Forbes; Scott J. Goetz; Elizabeth E. Hoy; Stein R. Karlsen; Timo Kumpula; Trevor C. Lantz; Mark J. Lara; Efrén López-Blanco; Paul M. Montesano; Christopher S.R. Neigh; Ingmar Nitze; Kathleen M. Orndahl; Taejin Park; Gareth K. Phoenix; Adrian V. Rocha; Brendan M. Rogers; Gabriela Schaepman-Strub; Hans Tømmervik; Mariana Verdonen; Alexandra Veremeeva; Anna Maria Virkkala; Christine F. Waigl

doi:10.3389/fenvs.2025.1525574

The changing face of the Arctic: four decades of greening and implications for tundra ecosystems

Gerald V. Frost, Uma S. Bhatt, Matthew J. Macander, Logan T. Berner, Donald A. Walker, Martha K. Raynolds, Rúna Magnússon, Annett Bartsch, Jarle W. Bjerke, Howard E. Epstein, Bruce C. Forbes, Scott J. Goetz, Elizabeth E. Hoy, Stein R. Karlsen, Timo Kumpula, Trevor C. Lantz, Mark J. Lara, Efrén López-Blanco, Paul M. Montesano, Christopher S.R. NeighIngmar Nitze, Kathleen M. Orndahl, Taejin Park, Gareth K. Phoenix, Adrian V. Rocha, Brendan M. Rogers, Gabriela Schaepman-Strub, Hans Tømmervik, Mariana Verdonen, Alexandra Veremeeva, Anna Maria Virkkala, Christine F. Waigl

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

1 Scopus citations

Abstract

Arctic landscapes occupy a nexus of environmental change processes, globally significant soil carbon stores, wildlife populations, and subsistence-based human societies. In response to rapid climate warming, tundra ecosystems are experiencing widespread changes to vegetation and underlying permafrost, coupled with an array of ecological disturbances that are expected to intensify in the future. Declines in the extent of the cryosphere on land (permafrost and seasonal snow) and offshore (sea-ice) raise the question of whether and for how long warmer portions of the Low Arctic will fit established concepts of “what is Arctic,” given the influence the cryosphere has historically had on tundra ecosystem structure and function. The era of spaceborne observation of circumpolar tundra greenness, in the form of the Normalized Difference Vegetation Index (NDVI), has entered its fifth decade and provides foundational information concerning ecosystem conditions and responses to climatic trends, variability, ecological disturbance, and successional processes. Here we review the evolving story of Arctic greening, and synthesize long-term spaceborne records of NDVI, climatic data, field observations, and the knowledge base of Arctic residents to place the last four decades of Arctic environmental change in context, and establish expectations and research priorities for the coming decade. Greenness dynamics display high spatio-temporal variability, reflecting complex interactions of climatic warming and variability, landscape history, ecological disturbance, and other factors. Nonetheless, long-term increases in NDVI—commonly known as “the greening of the Arctic”—remain prominent across large areas in all available long-term spaceborne datasets and align with long-term shifts in vegetation structure documented in disparate Arctic regions. Common shifts reported from the Low Arctic, such as shrubification, generally portend declines in floristic diversity, and shifts in fauna that favor boreal forest species. Despite lingering uncertainties regarding trend attribution and sources of interannual variability, the sequence of record-high circumpolar tundra greenness values observed since 2020 provides strong evidence that Arctic tundra ecosystems have entered a state without historic precedent on timescales approaching a millennium.

Original language	English (US)
Article number	1525574
Journal	Frontiers in Environmental Science
Volume	13
DOIs	https://doi.org/10.3389/fenvs.2025.1525574
State	Published - 2025
Externally published	Yes

Keywords

Arctic
climate change
greening
normalized difference vegetation index
remote sensing
tundra

ASJC Scopus subject areas

General Environmental Science

Access to Document

10.3389/fenvs.2025.1525574

Cite this

Frost, G. V., Bhatt, U. S., Macander, M. J., Berner, L. T., Walker, D. A., Raynolds, M. K., Magnússon, R., Bartsch, A., Bjerke, J. W., Epstein, H. E., Forbes, B. C., Goetz, S. J., Hoy, E. E., Karlsen, S. R., Kumpula, T., Lantz, T. C., Lara, M. J., López-Blanco, E., Montesano, P. M., ... Waigl, C. F. (2025). The changing face of the Arctic: four decades of greening and implications for tundra ecosystems. Frontiers in Environmental Science, 13, Article 1525574. https://doi.org/10.3389/fenvs.2025.1525574

Frost, GV, Bhatt, US, Macander, MJ, Berner, LT, Walker, DA, Raynolds, MK, Magnússon, R, Bartsch, A, Bjerke, JW, Epstein, HE, Forbes, BC, Goetz, SJ, Hoy, EE, Karlsen, SR, Kumpula, T, Lantz, TC, Lara, MJ, López-Blanco, E, Montesano, PM, Neigh, CSR, Nitze, I, Orndahl, KM, Park, T, Phoenix, GK, Rocha, AV, Rogers, BM, Schaepman-Strub, G, Tømmervik, H, Verdonen, M, Veremeeva, A, Virkkala, AM & Waigl, CF 2025, 'The changing face of the Arctic: four decades of greening and implications for tundra ecosystems', Frontiers in Environmental Science, vol. 13, 1525574. https://doi.org/10.3389/fenvs.2025.1525574

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title = "The changing face of the Arctic: four decades of greening and implications for tundra ecosystems",

abstract = "Arctic landscapes occupy a nexus of environmental change processes, globally significant soil carbon stores, wildlife populations, and subsistence-based human societies. In response to rapid climate warming, tundra ecosystems are experiencing widespread changes to vegetation and underlying permafrost, coupled with an array of ecological disturbances that are expected to intensify in the future. Declines in the extent of the cryosphere on land (permafrost and seasonal snow) and offshore (sea-ice) raise the question of whether and for how long warmer portions of the Low Arctic will fit established concepts of “what is Arctic,” given the influence the cryosphere has historically had on tundra ecosystem structure and function. The era of spaceborne observation of circumpolar tundra greenness, in the form of the Normalized Difference Vegetation Index (NDVI), has entered its fifth decade and provides foundational information concerning ecosystem conditions and responses to climatic trends, variability, ecological disturbance, and successional processes. Here we review the evolving story of Arctic greening, and synthesize long-term spaceborne records of NDVI, climatic data, field observations, and the knowledge base of Arctic residents to place the last four decades of Arctic environmental change in context, and establish expectations and research priorities for the coming decade. Greenness dynamics display high spatio-temporal variability, reflecting complex interactions of climatic warming and variability, landscape history, ecological disturbance, and other factors. Nonetheless, long-term increases in NDVI—commonly known as “the greening of the Arctic”—remain prominent across large areas in all available long-term spaceborne datasets and align with long-term shifts in vegetation structure documented in disparate Arctic regions. Common shifts reported from the Low Arctic, such as shrubification, generally portend declines in floristic diversity, and shifts in fauna that favor boreal forest species. Despite lingering uncertainties regarding trend attribution and sources of interannual variability, the sequence of record-high circumpolar tundra greenness values observed since 2020 provides strong evidence that Arctic tundra ecosystems have entered a state without historic precedent on timescales approaching a millennium.",

keywords = "Arctic, climate change, greening, normalized difference vegetation index, remote sensing, tundra",

author = "Frost, {Gerald V.} and Bhatt, {Uma S.} and Macander, {Matthew J.} and Berner, {Logan T.} and Walker, {Donald A.} and Raynolds, {Martha K.} and R{\'u}na Magn{\'u}sson and Annett Bartsch and Bjerke, {Jarle W.} and Epstein, {Howard E.} and Forbes, {Bruce C.} and Goetz, {Scott J.} and Hoy, {Elizabeth E.} and Karlsen, {Stein R.} and Timo Kumpula and Lantz, {Trevor C.} and Lara, {Mark J.} and Efr{\'e}n L{\'o}pez-Blanco and Montesano, {Paul M.} and Neigh, {Christopher S.R.} and Ingmar Nitze and Orndahl, {Kathleen M.} and Taejin Park and Phoenix, {Gareth K.} and Rocha, {Adrian V.} and Rogers, {Brendan M.} and Gabriela Schaepman-Strub and Hans T{\o}mmervik and Mariana Verdonen and Alexandra Veremeeva and Virkkala, {Anna Maria} and Waigl, {Christine F.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Frost, Bhatt, Macander, Berner, Walker, Raynolds, Magn{\'u}sson, Bartsch, Bjerke, Epstein, Forbes, Goetz, Hoy, Karlsen, Kumpula, Lantz, Lara, L{\'o}pez-Blanco, Montesano, Neigh, Nitze, Orndahl, Park, Phoenix, Rocha, Rogers, Schaepman-Strub, T{\o}mmervik, Verdonen, Veremeeva, Virkkala and Waigl.",

year = "2025",

doi = "10.3389/fenvs.2025.1525574",

language = "English (US)",

volume = "13",

journal = "Frontiers in Environmental Science",

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TY - JOUR

T1 - The changing face of the Arctic

T2 - four decades of greening and implications for tundra ecosystems

AU - Frost, Gerald V.

AU - Bhatt, Uma S.

AU - Macander, Matthew J.

AU - Berner, Logan T.

AU - Walker, Donald A.

AU - Raynolds, Martha K.

AU - Magnússon, Rúna

AU - Bartsch, Annett

AU - Bjerke, Jarle W.

AU - Epstein, Howard E.

AU - Forbes, Bruce C.

AU - Goetz, Scott J.

AU - Hoy, Elizabeth E.

AU - Karlsen, Stein R.

AU - Kumpula, Timo

AU - Lantz, Trevor C.

AU - Lara, Mark J.

AU - López-Blanco, Efrén

AU - Montesano, Paul M.

AU - Neigh, Christopher S.R.

AU - Nitze, Ingmar

AU - Orndahl, Kathleen M.

AU - Park, Taejin

AU - Phoenix, Gareth K.

AU - Rocha, Adrian V.

AU - Rogers, Brendan M.

AU - Schaepman-Strub, Gabriela

AU - Tømmervik, Hans

AU - Verdonen, Mariana

AU - Veremeeva, Alexandra

AU - Virkkala, Anna Maria

AU - Waigl, Christine F.

N1 - Publisher Copyright: Copyright © 2025 Frost, Bhatt, Macander, Berner, Walker, Raynolds, Magnússon, Bartsch, Bjerke, Epstein, Forbes, Goetz, Hoy, Karlsen, Kumpula, Lantz, Lara, López-Blanco, Montesano, Neigh, Nitze, Orndahl, Park, Phoenix, Rocha, Rogers, Schaepman-Strub, Tømmervik, Verdonen, Veremeeva, Virkkala and Waigl.

PY - 2025

Y1 - 2025

N2 - Arctic landscapes occupy a nexus of environmental change processes, globally significant soil carbon stores, wildlife populations, and subsistence-based human societies. In response to rapid climate warming, tundra ecosystems are experiencing widespread changes to vegetation and underlying permafrost, coupled with an array of ecological disturbances that are expected to intensify in the future. Declines in the extent of the cryosphere on land (permafrost and seasonal snow) and offshore (sea-ice) raise the question of whether and for how long warmer portions of the Low Arctic will fit established concepts of “what is Arctic,” given the influence the cryosphere has historically had on tundra ecosystem structure and function. The era of spaceborne observation of circumpolar tundra greenness, in the form of the Normalized Difference Vegetation Index (NDVI), has entered its fifth decade and provides foundational information concerning ecosystem conditions and responses to climatic trends, variability, ecological disturbance, and successional processes. Here we review the evolving story of Arctic greening, and synthesize long-term spaceborne records of NDVI, climatic data, field observations, and the knowledge base of Arctic residents to place the last four decades of Arctic environmental change in context, and establish expectations and research priorities for the coming decade. Greenness dynamics display high spatio-temporal variability, reflecting complex interactions of climatic warming and variability, landscape history, ecological disturbance, and other factors. Nonetheless, long-term increases in NDVI—commonly known as “the greening of the Arctic”—remain prominent across large areas in all available long-term spaceborne datasets and align with long-term shifts in vegetation structure documented in disparate Arctic regions. Common shifts reported from the Low Arctic, such as shrubification, generally portend declines in floristic diversity, and shifts in fauna that favor boreal forest species. Despite lingering uncertainties regarding trend attribution and sources of interannual variability, the sequence of record-high circumpolar tundra greenness values observed since 2020 provides strong evidence that Arctic tundra ecosystems have entered a state without historic precedent on timescales approaching a millennium.

AB - Arctic landscapes occupy a nexus of environmental change processes, globally significant soil carbon stores, wildlife populations, and subsistence-based human societies. In response to rapid climate warming, tundra ecosystems are experiencing widespread changes to vegetation and underlying permafrost, coupled with an array of ecological disturbances that are expected to intensify in the future. Declines in the extent of the cryosphere on land (permafrost and seasonal snow) and offshore (sea-ice) raise the question of whether and for how long warmer portions of the Low Arctic will fit established concepts of “what is Arctic,” given the influence the cryosphere has historically had on tundra ecosystem structure and function. The era of spaceborne observation of circumpolar tundra greenness, in the form of the Normalized Difference Vegetation Index (NDVI), has entered its fifth decade and provides foundational information concerning ecosystem conditions and responses to climatic trends, variability, ecological disturbance, and successional processes. Here we review the evolving story of Arctic greening, and synthesize long-term spaceborne records of NDVI, climatic data, field observations, and the knowledge base of Arctic residents to place the last four decades of Arctic environmental change in context, and establish expectations and research priorities for the coming decade. Greenness dynamics display high spatio-temporal variability, reflecting complex interactions of climatic warming and variability, landscape history, ecological disturbance, and other factors. Nonetheless, long-term increases in NDVI—commonly known as “the greening of the Arctic”—remain prominent across large areas in all available long-term spaceborne datasets and align with long-term shifts in vegetation structure documented in disparate Arctic regions. Common shifts reported from the Low Arctic, such as shrubification, generally portend declines in floristic diversity, and shifts in fauna that favor boreal forest species. Despite lingering uncertainties regarding trend attribution and sources of interannual variability, the sequence of record-high circumpolar tundra greenness values observed since 2020 provides strong evidence that Arctic tundra ecosystems have entered a state without historic precedent on timescales approaching a millennium.

KW - Arctic

KW - climate change

KW - greening

KW - normalized difference vegetation index

KW - remote sensing

KW - tundra

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DO - 10.3389/fenvs.2025.1525574

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The changing face of the Arctic: four decades of greening and implications for tundra ecosystems

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