Identifying compound weather drivers of forest biomass loss with generative deep learning

Anand, Mohit; Bohn, Friedrich J.; Camps-Valls, Gustau; Fischer, Rico; Huth, Andreas; Sweet, Lily-belle; Zscheischler, Jakob

doi:10.1017/eds.2024.2

Environ. Data Science

2024

DOI: 10.1017/eds.2024.2

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Identifying compound weather drivers of forest biomass loss with generative deep learning

Mohit Anand,

Friedrich J. Bohn,

Gustau Camps-Valls

et al.

Abstract: Globally, forests are net carbon sinks that partly mitigates anthropogenic climate change. However, there is evidence of increasing weather-induced tree mortality, which needs to be better understood to improve forest management under future climate conditions. Disentangling drivers of tree mortality is challenging because of their interacting behavior over multiple temporal scales. In this study, we take a data-driven approach to the problem. We generate hourly temperate weather data using a stochastic weathe… Show more

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Cited by 1 publication

References 103 publications

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Winter climate preconditioning of summer vegetation extremes in the Northern Hemisphere

Anand,

Hamed,

Linscheid

et al. 2024

Environ. Res. Lett.

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The impact of spring climate on the Northern Hemisphere's summer vegetation activity and extremes has been extensively researched, but less attention has been devoted to whether and how winter climate may additionally influence vegetation extremes in summer. Here, we provide insights into the influence of winter temperature and precipitation on summer vegetation extremes in the Northern Hemisphere. To do this, we identify positive and negative extremes in the summer Leaf Area Index (LAI, a proxy for vegetation activity) and assess winter effects on those extremes using logistic regression at the regional scale. Over a quarter of the regions in the Northern Hemisphere show strong winter climate preconditioning on summer LAI extremes, which is typically stronger for croplands than forests. In the regions with strong winter preconditioning, spring LAI mediates the link between winter climate and summer LAI extremes through the ecological memory in seasonal legacy effects. Our findings suggest that extremely low summer LAI in both croplands and forests is preconditioned by colder and drier winters, while extremely high summer LAI in forests is associated with warmer and wetter winters. For low summer LAI in croplands, warmer winters are associated with an increased likelihood of extremes in mid-latitude regions and a reduced likelihood in high latitude regions. Consideration of winter preconditioning effects may improve understanding of inter-annual variability of vegetation activity and support agricultural and land management practitioners in anticipating detrimental effects of winter on crop yields and forest conditions.

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Winter climate preconditioning of summer vegetation extremes in the Northern Hemisphere

Anand,

Hamed,

Linscheid

et al. 2024

Environ. Res. Lett.

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Identifying compound weather drivers of forest biomass loss with generative deep learning

Cited by 1 publication

References 103 publications

Winter climate preconditioning of summer vegetation extremes in the Northern Hemisphere

Winter climate preconditioning of summer vegetation extremes in the Northern Hemisphere

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