Human land-use practices lead to global long-term increases in photosynthetic capacity

Abstract

Long-term trends in photosynthetic capacity measured with the satellite-derived Normalized Difference Vegetation Index (NDVI) are usually associated with climate change. Human impacts on the global land surface are typically not accounted for. Here, we provide the first global analysis quantifying the effect of the earth's human footprint on NDVI trends. Globally, more than 20% of the variability in NDVI trends was explained by anthropogenic factors such as land use, nitrogen fertilization, and irrigation. Intensely used land classes, such as villages, showed the greatest rates of increase in NDVI, more than twice than those of forests. These findings reveal that factors beyond climate influence global long-term trends in NDVI and suggest that global climate change models and analyses of primary productivity should incorporate land use effects.

Publication Type
Journal Article
Authors
Thomas Mueller
Gunnar Dressler, Helmholtz Centre for Environmental Research - UFZ
Compton Tucker
Jorge Pinzon
Peter Leimgruber
Ralph Dubayah
George Hurtt, University of Maryland
Katrin Böhning-Gaese
Date
Journal
Remote Sensing
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