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Main Authors: He, Lei, Wang, Jian, Peltier, Drew M P, Ritter, François, Ciais, Philippe, Peñuelas, Josep, Xiao, Jingfeng, Crowther, Thomas W, Li, Xing, Ye, Jian-Sheng, Sasaki, Takehiro, Zhou, Chenghu, Li, Zhao-Liang
Format: Artículo científico
Language:en
Published: Nature ecology & evolution 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40721540/
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author He, Lei
Wang, Jian
Peltier, Drew M P
Ritter, François
Ciais, Philippe
Peñuelas, Josep
Xiao, Jingfeng
Crowther, Thomas W
Li, Xing
Ye, Jian-Sheng
Sasaki, Takehiro
Zhou, Chenghu
Li, Zhao-Liang
author_facet He, Lei
Wang, Jian
Peltier, Drew M P
Ritter, François
Ciais, Philippe
Peñuelas, Josep
Xiao, Jingfeng
Crowther, Thomas W
Li, Xing
Ye, Jian-Sheng
Sasaki, Takehiro
Zhou, Chenghu
Li, Zhao-Liang
He, Lei
Wang, Jian
Peltier, Drew M P
Ritter, François
Ciais, Philippe
Peñuelas, Josep
Xiao, Jingfeng
Crowther, Thomas W
Li, Xing
Ye, Jian-Sheng
Sasaki, Takehiro
Zhou, Chenghu
Li, Zhao-Liang
collection PubMed - marine biology
contents Lagged precipitation effects on plant production across terrestrial biomes. He, Lei Wang, Jian Peltier, Drew M P Ritter, François Ciais, Philippe Peñuelas, Josep Xiao, Jingfeng Crowther, Thomas W Li, Xing Ye, Jian-Sheng Sasaki, Takehiro Zhou, Chenghu Li, Zhao-Liang Rain Ecosystem Plant Development Plants Soil Precipitation effects on plant carbon uptake extend beyond immediate timeframes, reflecting temporal lags between rainfall and plant growth. Mechanisms and relative importance of such lagged effects are expected to vary across ecosystems. Here we draw on an extensive collections of productivity proxies from long-term ground measurements, satellite observations and model simulations to show that preceding-year precipitation exerts a comparable influence on plant productivity to current-year precipitation. Statistically supported lagged precipitation effects are detected in 13.4%-19.7% of the grids depending on the data source. In these sites, preceding-year precipitation positively controls current-year plant productivity in water-limited areas, while negative effects occur in some wet regions, such as tropical forests. While aridity emerges as the main driver of this spatial variability, machine learning-based spatial attribution also indicates interactions among plant traits, climatic conditions and soil properties. We also show that soil water dynamics, plant phenology and foliar structure might mediate lagged precipitation effects across time. Our findings highlight the role of preceding-year precipitation in global plant productivity.
format Artículo científico
id pubmed_40721540
institution PubMed
language en
publishDate 2025
publisher Nature ecology & evolution
record_format pubmed
spellingShingle Lagged precipitation effects on plant production across terrestrial biomes.
He, Lei
Wang, Jian
Peltier, Drew M P
Ritter, François
Ciais, Philippe
Peñuelas, Josep
Xiao, Jingfeng
Crowther, Thomas W
Li, Xing
Ye, Jian-Sheng
Sasaki, Takehiro
Zhou, Chenghu
Li, Zhao-Liang
Rain
Ecosystem
Plant Development
Plants
Soil
Lagged precipitation effects on plant production across terrestrial biomes. He, Lei Wang, Jian Peltier, Drew M P Ritter, François Ciais, Philippe Peñuelas, Josep Xiao, Jingfeng Crowther, Thomas W Li, Xing Ye, Jian-Sheng Sasaki, Takehiro Zhou, Chenghu Li, Zhao-Liang Rain Ecosystem Plant Development Plants Soil Precipitation effects on plant carbon uptake extend beyond immediate timeframes, reflecting temporal lags between rainfall and plant growth. Mechanisms and relative importance of such lagged effects are expected to vary across ecosystems. Here we draw on an extensive collections of productivity proxies from long-term ground measurements, satellite observations and model simulations to show that preceding-year precipitation exerts a comparable influence on plant productivity to current-year precipitation. Statistically supported lagged precipitation effects are detected in 13.4%-19.7% of the grids depending on the data source. In these sites, preceding-year precipitation positively controls current-year plant productivity in water-limited areas, while negative effects occur in some wet regions, such as tropical forests. While aridity emerges as the main driver of this spatial variability, machine learning-based spatial attribution also indicates interactions among plant traits, climatic conditions and soil properties. We also show that soil water dynamics, plant phenology and foliar structure might mediate lagged precipitation effects across time. Our findings highlight the role of preceding-year precipitation in global plant productivity.
title Lagged precipitation effects on plant production across terrestrial biomes.
topic Rain
Ecosystem
Plant Development
Plants
Soil
url https://pubmed.ncbi.nlm.nih.gov/40721540/