Identification of land surface temperature and albedo trends in AVHRR pathfinder data from 1982 to 2005 for northern Siberia

Greening of the Arctic: Comparison of trends in measured soil-surface and air temperature data to satellite-based trends of vegetation change on the Alaskan North Slope (1995-2016)

Rick, Brianna

April 2017

This study compares 20 years’ worth of in-situ soil-surface and air temperature data to trends in ve...

Coupling of Vegetation Growing Season Anomalies with Hemispheric and Regional Scale Climate Patterns in Central and East Siberia

BALZTER Heiko
GERARD France
WEEDON Graham
GREY Will
COMBAL BRUNO
BARTHOLOME' ETIENNE
BARTALEV Sergej
LOS Sietse

February 2006

A time-series of 18 years of fAPAR (fraction of photosynthetically active radiation absorbed by the ...

A Land Surface Phenology Assessment of the Northern Polar Regions Using MODIS Reflectance Time Series

de Beurs, K. M.
Henebry, G. M,

July 2010

The study of changes in phenology and, in particular, land surface phenology (LSP) provides an impor...

Identification of land surface temperature and albedo trends in AVHRR pathfinder data from 1982 to 2005 for northern Siberia

Urban, M.
Forkel, M.
Schmullius, C.
Hese, S.
Hüttich, C.
Herold, M.

January 2014

The arctic regions are highly vulnerable to climate change. Climate models predict an increase in gl...

Identification of land surface temperature and albedo trends in AVHRR Pathfinder data from 1982 to 2005 for northern Siberia

Urban, M.
Forkel, M.
Schmullius, C.
Hese, S.
Hüttich, C.
Herold, M.

January 2013

The arctic regions are highly vulnerable to climate change. Climate models predict an increase in gl...

Pan-arctic climate and land cover trends derived from multi-variate and multi-scale analyses (1981–2012)

Urban, M.
Forkel, M.
Eberle, J.
Hüttich, C.
Schmullius, C.
Herold, M.

January 2014

Arctic ecosystems have been afflicted by vast changes in recent decades. Changes in temperature, as ...

Pan-arctic climate and land cover trends derived from multi-variate and multi-scale analyses (1981-2012)

Urban, M.
Forkel, M.
Eberle, J.
Huttich, C.
Schmullius, C.
Herold, M.

January 2014

Arctic ecosystems have been afflicted by vast changes in recent decades. Changes in temperature, as ...

Spatial and temporal patterns of greenness on the Yamal Peninsula, Russia: interactions of ecological and social factors affecting the Arctic normalized difference vegetation index

Walker, D. A.
Leibman, M. O.
Epstein, H. E.
Forbes, B. C.
Bhatt, U. S.
Raynolds, M. K.
Comiso, J. C.
Gubarkov, A. A.
Khomutov, A. V.
Jia, G. J.
Kaarlejarvi, E.
Kaplan, Jed
Kumpula, T.
Kuss, Patrick
Matyshak, G.
Moskalenko, N. G.
Orekhov, P.
Romanovsky, V. E.
Ukraientseva, N. G.
Yu, Q.

November 2009

The causes of a greening trend detected in the Arctic using the normalized difference vegetation ind...

Evaluation of Arctic Land Snow Cover Characteristics, Surface Albedo, and Temperature during the Transition Seasons from Regional Climate Model Simulations and Satellite Data

X. Zhou
H. Matthes
A. Rinke
K. Klehmet
B. Heim
W. Dorn
D. Klaus
K. Dethloff
B. Rockel

January 2014

This paper evaluates the simulated Arctic land snow cover duration, snow water equivalent, snow cove...

Recent Declines in Warming and Vegetation Greening Trends over Pan-Arctic Tundra

Igor V. Polyakov
Compton J. Tucker
Jorge E. Pinzon
Howard E. Epstein
Josefino C. Comiso
Peter A. Bieniek
Donald A. Walker
Martha K. Raynolds
Uma S. Bhatt

August 2013

Vegetation productivity trends for the Arctic tundra are updated for the 1982–2011 period and examin...

Climate-driven phenological changes in the Russian Arctic derived from MODIS LAI time series 2000–2019

Shabanov, N V
Marshall, G J
Rees, W G
Bartalev, S A
Tutubalina, O V
Golubeva, E I

July 2021

Abstract: Arctic surface temperature has increased at approximately twice the global rate over the p...

Comparison of Arctic Tundra Bioclimate Subzones and AVHRR Surface Temperature, and Relationship to NDVI

Martha K. Raynolds

December 2014

In order to understand the effect of climate change on arctic vegetation, we need to understand how ...

The response of Arctic vegetation to the summer climate: relation between shrub cover, NDVI, surface albedo and temperature

Blok, D.
Schaepman-Strub, G.
Bartholomeus, H.
Heijmans, M.M.P.D.
Maximov, T.C.
Berendse, F.

January 2011

Recently observed Arctic greening trends from normalized difference vegetation index (NDVI) data sug...

Relationships between declining summer sea ice, increasing temperatures and changing vegetation in the Siberian Arctic tundra from MODIS time series (2000–11)

Dutrieux, L.P.
Bartholomeus, H.
Herold, M.
Verbesselt, J.

January 2012

The concern about Arctic greening has grown recently as the phenomenon is thought to have significan...

Changes of the Arctic Oscillation, Vegetation Phenology and Forest Fires in Siberia

BALZTER Heiko
GERARD France
WEEDON Graham
GREY Will
COMBAL BRUNO
BARTHOLOME' ETIENNE
BARTALEV Sergej
LOS Sietse
CHARLES George

May 2008

A time-series of 18 years of fAPAR (fraction of photosynthetically active radiation absorbed by the ...

Greening of the Arctic: Comparison of trends in measured soil-surface and air temperature data to satellite-based trends of vegetation change on the Alaskan North Slope (1995-2016)

Rick, Brianna

April 2017

This study compares 20 years’ worth of in-situ soil-surface and air temperature data to trends in ve...

Coupling of Vegetation Growing Season Anomalies with Hemispheric and Regional Scale Climate Patterns in Central and East Siberia

BALZTER Heiko
GERARD France
WEEDON Graham
GREY Will
COMBAL BRUNO
BARTHOLOME' ETIENNE
BARTALEV Sergej
LOS Sietse

February 2006

A time-series of 18 years of fAPAR (fraction of photosynthetically active radiation absorbed by the ...

A Land Surface Phenology Assessment of the Northern Polar Regions Using MODIS Reflectance Time Series

de Beurs, K. M.
Henebry, G. M,

July 2010

The study of changes in phenology and, in particular, land surface phenology (LSP) provides an impor...

Identification of land surface temperature and albedo trends in AVHRR pathfinder data from 1982 to 2005 for northern Siberia

Urban, M.
Forkel, M.
Schmullius, C.
Hese, S.
Hüttich, C.
Herold, M.

January 2014

The arctic regions are highly vulnerable to climate change. Climate models predict an increase in gl...

Identification of land surface temperature and albedo trends in AVHRR Pathfinder data from 1982 to 2005 for northern Siberia

Urban, M.
Forkel, M.
Schmullius, C.
Hese, S.
Hüttich, C.
Herold, M.

January 2013

The arctic regions are highly vulnerable to climate change. Climate models predict an increase in gl...

Pan-arctic climate and land cover trends derived from multi-variate and multi-scale analyses (1981–2012)

Urban, M.
Forkel, M.
Eberle, J.
Hüttich, C.
Schmullius, C.
Herold, M.

January 2014

Arctic ecosystems have been afflicted by vast changes in recent decades. Changes in temperature, as ...

Pan-arctic climate and land cover trends derived from multi-variate and multi-scale analyses (1981-2012)

Urban, M.
Forkel, M.
Eberle, J.
Huttich, C.
Schmullius, C.
Herold, M.

January 2014

Arctic ecosystems have been afflicted by vast changes in recent decades. Changes in temperature, as ...

Spatial and temporal patterns of greenness on the Yamal Peninsula, Russia: interactions of ecological and social factors affecting the Arctic normalized difference vegetation index

Walker, D. A.
Leibman, M. O.
Epstein, H. E.
Forbes, B. C.
Bhatt, U. S.
Raynolds, M. K.
Comiso, J. C.
Gubarkov, A. A.
Khomutov, A. V.
Jia, G. J.
Kaarlejarvi, E.
Kaplan, Jed
Kumpula, T.
Kuss, Patrick
Matyshak, G.
Moskalenko, N. G.
Orekhov, P.
Romanovsky, V. E.
Ukraientseva, N. G.
Yu, Q.

November 2009

The causes of a greening trend detected in the Arctic using the normalized difference vegetation ind...

Evaluation of Arctic Land Snow Cover Characteristics, Surface Albedo, and Temperature during the Transition Seasons from Regional Climate Model Simulations and Satellite Data

X. Zhou
H. Matthes
A. Rinke
K. Klehmet
B. Heim
W. Dorn
D. Klaus
K. Dethloff
B. Rockel

January 2014

This paper evaluates the simulated Arctic land snow cover duration, snow water equivalent, snow cove...

Recent Declines in Warming and Vegetation Greening Trends over Pan-Arctic Tundra

Igor V. Polyakov
Compton J. Tucker
Jorge E. Pinzon
Howard E. Epstein
Josefino C. Comiso
Peter A. Bieniek
Donald A. Walker
Martha K. Raynolds
Uma S. Bhatt

August 2013

Vegetation productivity trends for the Arctic tundra are updated for the 1982–2011 period and examin...

Climate-driven phenological changes in the Russian Arctic derived from MODIS LAI time series 2000–2019

Shabanov, N V
Marshall, G J
Rees, W G
Bartalev, S A
Tutubalina, O V
Golubeva, E I

July 2021

Abstract: Arctic surface temperature has increased at approximately twice the global rate over the p...

Comparison of Arctic Tundra Bioclimate Subzones and AVHRR Surface Temperature, and Relationship to NDVI

Martha K. Raynolds

December 2014

In order to understand the effect of climate change on arctic vegetation, we need to understand how ...

The response of Arctic vegetation to the summer climate: relation between shrub cover, NDVI, surface albedo and temperature

Blok, D.
Schaepman-Strub, G.
Bartholomeus, H.
Heijmans, M.M.P.D.
Maximov, T.C.
Berendse, F.

January 2011

Recently observed Arctic greening trends from normalized difference vegetation index (NDVI) data sug...

Relationships between declining summer sea ice, increasing temperatures and changing vegetation in the Siberian Arctic tundra from MODIS time series (2000–11)

Dutrieux, L.P.
Bartholomeus, H.
Herold, M.
Verbesselt, J.

January 2012

The concern about Arctic greening has grown recently as the phenomenon is thought to have significan...

Changes of the Arctic Oscillation, Vegetation Phenology and Forest Fires in Siberia

BALZTER Heiko
GERARD France
WEEDON Graham
GREY Will
COMBAL BRUNO
BARTHOLOME' ETIENNE
BARTALEV Sergej
LOS Sietse
CHARLES George

May 2008

A time-series of 18 years of fAPAR (fraction of photosynthetically active radiation absorbed by the ...

Greening of the Arctic: Comparison of trends in measured soil-surface and air temperature data to satellite-based trends of vegetation change on the Alaskan North Slope (1995-2016)

Rick, Brianna

April 2017

This study compares 20 years’ worth of in-situ soil-surface and air temperature data to trends in ve...

Coupling of Vegetation Growing Season Anomalies with Hemispheric and Regional Scale Climate Patterns in Central and East Siberia

BALZTER Heiko
GERARD France
WEEDON Graham
GREY Will
COMBAL BRUNO
BARTHOLOME' ETIENNE
BARTALEV Sergej
LOS Sietse

February 2006

A time-series of 18 years of fAPAR (fraction of photosynthetically active radiation absorbed by the ...

A Land Surface Phenology Assessment of the Northern Polar Regions Using MODIS Reflectance Time Series

de Beurs, K. M.
Henebry, G. M,

July 2010

The study of changes in phenology and, in particular, land surface phenology (LSP) provides an impor...

Identification of land surface temperature and albedo trends in AVHRR pathfinder data from 1982 to 2005 for northern Siberia

Abstract

Extracted data

Identification of land surface temperature and albedo trends in AVHRR pathfinder data from 1982 to 2005 for northern Siberia

Abstract

Extracted data

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