Recent studies have used satellite-derived normalized difference vegetation index (NDVI) time series to explore geographic patterns in boreal forest greening and browning. A number of these studies indicate that boreal forests are experiencing widespread browning, and have suggested that these patterns reflect decreases in forest productivity induced by climate change. Here we use NDVI time series from Landsat, which has much higher quality and spatial resolution than imagery used in most previous studies, to characterize biogeographic patterns in greening and browning across Canada's boreal forest and to explore the drivers behind observed trends. Our results show that the majority of NDVI changes in Canada's boreal forest reflect disturba...
Studies of the normalized difference vegetation index (NDVI) have found broad changes in vegetation ...
Considerable evidence exists that current global temperatures are higher than at any time during the...
Although the boreal region is warming twice as fast as the global average, the way in which the vast...
Intact Forest Landscape (IFL) is of great value in protecting biodiversity and supporting core ecolo...
International audienceArctic vegetation cover has been increasing over the last 40 years, which has ...
Verified studies show a trend in warming of global mean temperatures. This warming trend affects the...
Over the last century Canadian boreal forests have warmed by 2-3° C, causing growing seasons to leng...
Using time series of moderate-resolution imaging spectroradiometer (MODIS) normalized difference veg...
We used twelve Landsat scenes from the 1980s–2009 and regional 2000–2009 MODIS data to examine the l...
Climate change is expected to alter temperature, precipitation, and seasonality with potentially acu...
To examine the effect that the use of different datasets might be having on estimated trends, two da...
The changes in boreal forest hydrology, biogeochemistry, and biophysics during succession have criti...
Global forests are experiencing a variety of stresses in response to climate change and human activi...
The boreal forest circles the high northern latitudes but it is far from a continuous carpet of ever...
Studies of the normalized difference vegetation index (NDVI) have found broad changes in vegetation ...
Considerable evidence exists that current global temperatures are higher than at any time during the...
Although the boreal region is warming twice as fast as the global average, the way in which the vast...
Intact Forest Landscape (IFL) is of great value in protecting biodiversity and supporting core ecolo...
International audienceArctic vegetation cover has been increasing over the last 40 years, which has ...
Verified studies show a trend in warming of global mean temperatures. This warming trend affects the...
Over the last century Canadian boreal forests have warmed by 2-3° C, causing growing seasons to leng...
Using time series of moderate-resolution imaging spectroradiometer (MODIS) normalized difference veg...
We used twelve Landsat scenes from the 1980s–2009 and regional 2000–2009 MODIS data to examine the l...
Climate change is expected to alter temperature, precipitation, and seasonality with potentially acu...
To examine the effect that the use of different datasets might be having on estimated trends, two da...
The changes in boreal forest hydrology, biogeochemistry, and biophysics during succession have criti...
Global forests are experiencing a variety of stresses in response to climate change and human activi...
The boreal forest circles the high northern latitudes but it is far from a continuous carpet of ever...
Studies of the normalized difference vegetation index (NDVI) have found broad changes in vegetation ...
Considerable evidence exists that current global temperatures are higher than at any time during the...
Although the boreal region is warming twice as fast as the global average, the way in which the vast...