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Disentangling the effects of vapor pressure deficit on northern terrestrial vegetation productivity.

Ziqian ZhongBin HeYing-Ping WangHans W ChenDeliang ChenYongshuo H FuYaning ChenLanlan GuoYing DengLing HuangWenping YuanXingming HaoRui TangHuiming LiuLiying SunXiaoming XieYafeng Zhang
Published in: Science advances (2023)
The impact of atmospheric vapor pressure deficit (VPD) on plant photosynthesis has long been acknowledged, but large interactions with air temperature (T) and soil moisture (SM) still hinder a complete understanding of the influence of VPD on vegetation production across various climate zones. Here, we found a diverging response of productivity to VPD in the Northern Hemisphere by excluding interactive effects of VPD with T and SM. The interactions between VPD and T/SM not only offset the potential positive impact of warming on vegetation productivity but also amplifies the negative effect of soil drying. Notably, for high-latitude ecosystems, there occurs a pronounced shift in vegetation productivity's response to VPD during the growing season when VPD surpasses a threshold of 3.5 to 4.0 hectopascals. These results yield previously unknown insights into the role of VPD in terrestrial ecosystems and enhance our comprehension of the terrestrial carbon cycle's response to global warming.
Keyphrases
  • climate change
  • human health
  • particulate matter
  • risk assessment
  • plant growth