Ecosystem fluxes during drought and recovery in an experimental forest

Werner, Christiane; Meredith, Laura K.; Ladd, S. Nemiah; Ingrisch, Johannes; Kübert, Angelika; van Haren, Joost; Bahn, Michael; Bailey, Kinzie; Bamberger, Ines; Beyer, Matthias; Blomdahl, Daniel; Byron, Joseph; Daber, Erik; Deleeuw, Jason; Dippold, Michaela A.; Fudyma, Jane; Gil-Loaiza, Juliana; Honeker, Linnea K.; Hu, Jia; Huang, Jianbei; Klüpfel, Thomas; Krechmer, Jordan; Kreuzwieser, Jürgen; Kühnhammer, Kathrin; Lehmann, Marco M.; Meeran, Kathiravan; Misztal, Pawel K.; Ng, Wei-Ren; Pfannerstill, Eva; Pugliese, Giovanni; Purser, Gemma; Roscioli, Joseph; Shi, Lingling; Tfaily, Malak; Williams, Jonathan

doi:10.1126/science.abj6789

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Ecosystem fluxes during drought and recovery in an experimental forest

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Byron, Joseph
Atmospheric Chemistry, Max Planck Institute for Chemistry, Max Planck Society;

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Klüpfel, Thomas
Atmospheric Chemistry, Max Planck Institute for Chemistry, Max Planck Society;

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Pfannerstill, Eva
Atmospheric Chemistry, Max Planck Institute for Chemistry, Max Planck Society;

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Williams, Jonathan
Atmospheric Chemistry, Max Planck Institute for Chemistry, Max Planck Society;

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Citation

Werner, C., Meredith, L. K., Ladd, S. N., Ingrisch, J., Kübert, A., van Haren, J., et al. (2021). Ecosystem fluxes during drought and recovery in an experimental forest. Science, 374: 6574, pp. 1514-1518. doi:10.1126/science.abj6789.

Cite as: https://hdl.handle.net/21.11116/0000-0009-BAF9-D

Abstract

Severe droughts endanger ecosystem functioning worldwide. We investigated how drought affects carbon and water fluxes as well as soil-plant-atmosphere interactions by tracing 13CO2 and deep water 2H2O label pulses and volatile organic compounds (VOCs) in an enclosed experimental rainforest. Ecosystem dynamics were driven by different plant functional group responses to drought. Drought-sensitive canopy trees dominated total fluxes but also exhibited the strongest response to topsoil drying. Although all canopy-forming trees had access to deep water, these reserves were spared until late in the drought. Belowground carbon transport was slowed, yet allocation of fresh carbon to VOCs remained high. Atmospheric VOC composition reflected increasing stress responses and dynamic soil-plant-atmosphere interactions, potentially affecting atmospheric chemistry and climate feedbacks. These interactions and distinct functional group strategies thus modulate drought impacts and ecosystem susceptibility to climate change.