2020
DOI: 10.3390/rs12193249
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Capturing the Impact of the 2018 European Drought and Heat across Different Vegetation Types Using OCO-2 Solar-Induced Fluorescence

Abstract: The European heatwave of 2018 led to record-breaking temperatures and extremely dry conditions in many parts of the continent, resulting in widespread decrease in agricultural yield, early tree-leaf senescence, and increase in forest fires in Northern Europe. Our study aims to capture the impact of the 2018 European heatwave on the terrestrial ecosystem through the lens of a high-resolution solar-induced fluorescence (SIF) data acquired from the Orbiting Carbon Observatory-2 (OCO-2) satellite. SIF is proposed … Show more

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Cited by 34 publications
(28 citation statements)
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“…The overall development over the monitoring period of 2001–2020 (section Q and PDM From 2001 to 2020) and more specific case studies (sections Land Surface Phenology, Drought, Late-Frost, Water Stress, Ice Storm, and Windthrow) support the use of NDVI quantiles Q and proportional deviations from the median PDM for monitoring forest condition. Across Europe, the temporal development of Q and PDM indicates an increasing forest decline over the last two decades which is in line with the general observation that forests are becoming increasingly stressed in course of climate change (Allen et al, 2010 , 2015 ; Zang et al, 2014 ; Cailleret et al, 2017 ; Buras et al, 2018 , 2020 ; Bose et al, 2020 ; Senf et al, 2020 ; Shekhar et al, 2020 ). In comparing clusters of low Q and PDM ( Figure 1 , Supplementary Figure 1 ) with water availability indices, such as the standardized climatic water balance ( Supplementary Figure 2 ), clear similarities of spatial patterns were observed.…”
Section: Discussionsupporting
confidence: 79%
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“…The overall development over the monitoring period of 2001–2020 (section Q and PDM From 2001 to 2020) and more specific case studies (sections Land Surface Phenology, Drought, Late-Frost, Water Stress, Ice Storm, and Windthrow) support the use of NDVI quantiles Q and proportional deviations from the median PDM for monitoring forest condition. Across Europe, the temporal development of Q and PDM indicates an increasing forest decline over the last two decades which is in line with the general observation that forests are becoming increasingly stressed in course of climate change (Allen et al, 2010 , 2015 ; Zang et al, 2014 ; Cailleret et al, 2017 ; Buras et al, 2018 , 2020 ; Bose et al, 2020 ; Senf et al, 2020 ; Shekhar et al, 2020 ). In comparing clusters of low Q and PDM ( Figure 1 , Supplementary Figure 1 ) with water availability indices, such as the standardized climatic water balance ( Supplementary Figure 2 ), clear similarities of spatial patterns were observed.…”
Section: Discussionsupporting
confidence: 79%
“…For the future, we intend to extend the product portfolio of the EFCM by additional vegetation indices such as EVI and SIF to provide a more complete picture of European forest condition. In this context, the next step forward would be to implement early-warning indicators which require integrating information over several time-steps based on statistical properties of NDVI time-series (Liu et al, 2019) is in line with the general observation that forests are becoming increasingly stressed in course of climate change (Allen et al, 2010(Allen et al, , 2015Zang et al, 2014;Cailleret et al, 2017;Buras et al, 2018Buras et al, , 2020Bose et al, 2020;Senf et al, 2020;Shekhar et al, 2020). In comparing clusters of low Q and PDM (Figure 1, Supplementary Figure 1) with water availability indices, such as the standardized climatic water balance (Supplementary Figure 2), clear similarities of spatial patterns were observed.…”
Section: Using Modis Ndvi To Monitor European Forestsmentioning
confidence: 73%
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