Article

Satellite data track spatial and temporal declines in European beech forest canopy characteristics associated with intense drought events in the Rhön Biosphere Reserve, Central Germany

Details

Citation

West E, Morley PJ, Jump AS & Donoghue DNM (2022) Satellite data track spatial and temporal declines in European beech forest canopy characteristics associated with intense drought events in the Rhön Biosphere Reserve, Central Germany. Plant Biology. https://doi.org/10.1111/plb.13391

Abstract
•The increasing intensity and frequency of droughts under climate change demands effective ways to monitor drought impacts. We sought to determine how different satellite remote sensing sources influence our ability to identify temporal and spatial impacts on European beech forest canopy health during intense drought events. •Imagery from three satellite series (MODIS, Landsat and Sentinel-2) was used to observe changes in canopy health during the intense droughts of 2003 and 2018 in the Rhön Biosphere Reserve, central Germany. Monthly normalised difference vegetation index (NDVI) anomalies were calculated for each satellite between 2000-2020 and compared against temperature, precipitation and the standardised precipitation evapotranspiration index (SPEI). •Severe canopy impacts in 2003 and 2018 were associated with low NDVI in August and September. At the stand-scale, Sentinel-2 data allowed a spatially detailed understanding of canopy-level impacts whilst MODIS provided the clearest temporal progression of the drought’s impacts on the forest canopy. Low NDVI values were not exclusively associated with extremes of either temperature and precipitation individually; however, low canopy NDVI in August was associated with SPEI values below -1.5. •Although the intense drought of 2018, as defined by meteorological parameters, peaked in July, canopy NDVI did not decline until August, highlighting that our ability to detect canopy impact during drought events is sensitive to the timing of image acquisition. No single satellite sensor affords a full picture of the temporal or spatial progression of drought impacts. Consequently, using sensors in tandem provides the best possible representation of canopy health during intense drought events.

Keywords
Remote sensing; NDVI; anomaly; drought; forest health

Notes
Output Status: Forthcoming/Available Online

Journal
Plant Biology

StatusEarly Online
FundersNERC Natural Environment Research Council
Publication date online27/01/2022
Date accepted by journal19/12/2021
URLhttp://hdl.handle.net/1893/33811
ISSN1435-8603
eISSN1438-8677

People (2)

Professor Alistair Jump

Professor Alistair Jump

Dean of Natural Sciences, NS Management and Support

Dr Peter Morland

Dr Peter Morland

Research Development Officer, Biological and Environmental Sciences

Projects (1)

Files (2)