Satellite-based vegetation optical depth as an indicator of drought-driven tree mortality

Krishna Rao, William R.L. Anderegg, Anna Sala, Jordi Martínez-Vilalta, Alexandra G. Konings

Research output: Contribution to journalArticleResearch

13 Citations (Scopus)

Abstract

© 2019 Elsevier Inc. Drought-induced tree mortality events are expected to increase in frequency under climate change. However, monitoring and modeling of tree mortality is limited by the high spatial variability in vegetation response to climatic drought stress and lack of physiologically meaningful stress variables that can be monitored at large scales. In this study, we test the hypothesis that relative water content (RWC) estimated by passive microwave remote sensing through vegetation optical depth can be used as an empirical indicator of tree mortality that both integrates variations in plant drought stress and is accessible across large areas. The hypothesis was tested in a recent severe drought in California, USA. The RWC showed a stronger threshold relationship with mortality than climatic water deficit (CWD) – a commonly used mortality indicator – although both relationships were noisy due to the coarse spatial resolution of the data (0.25° or approximately 25 km). In addition, the threshold for RWC was more uniform than that for CWD when compared between Northern and Southern regions of California. A random forests regression (machine learning) with 32 variables describing topography, climate, and vegetation characteristics predicted forest mortality extent i.e. fractional area of mortality (FAM) with satisfactory accuracy-coefficient of determination Rtest2 = 0.66, root mean square error = 0.023. Importantly, RWC was more than twice as important as any other variable in the model in estimating mortality, confirming its strong link to mortality rates. Moreover, RWC showed a moderate ability to aid in forecasting mortality, with a relative importance of RWC measured one year in advance of mortality similar to that of other relevant explanatory variables measured in the mortality year. The results of this study present a promising new approach to estimate drought stress of forests linked to mortality risk.
Original languageEnglish
Pages (from-to)125-136
JournalRemote Sensing of Environment
Volume227
DOIs
Publication statusPublished - 15 Jun 2019

Keywords

  • AMSR
  • California drought
  • Climatic water deficit
  • Forest mortality
  • Random forests
  • Relative water content
  • Tree mortality
  • Vegetation optical depth
  • Vegetation water content

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