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Advanced filters: Author: Junjiong Shao Clear advanced filters

Potential decoupling of CO₂ and Hg uptake process by global vegetation in the 21st century

The uptake of gaseous elementary mercury by terrestrial vegetation in 2100 is likely to decrease by more than half compared to present-day conditions. This decrease is caused by the reduced stomatal conductance associated with increasing CO₂ levels.

Tengfei Yuan
Shaojian Huang
Yanxu Zhang
ResearchOpen Access27 May 2024
Nature Communications

Volume: 15, P: 1-11
Phenological mismatches between above- and belowground plant responses to climate warming

The authors conduct a meta-analysis to reveal mismatches in above- and belowground plant phenological responses to warming that differ by plant type (herbaceous versus woody). The work highlights a need for further research and consideration of under-represented belowground phenological changes.

Huiying Liu
Hao Wang
Madhav P. Thakur
Research20 Dec 2021
Nature Climate Change

Volume: 12, P: 97-102

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Potential decoupling of CO2 and Hg uptake process by global vegetation in the 21st century

Phenological mismatches between above- and belowground plant responses to climate warming

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Potential decoupling of CO₂ and Hg uptake process by global vegetation in the 21st century