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Calcium availability affects the intrinsic water-use efficiency of temperate forest trees
- 1.0573163 - ÚVGZ 2024 RIV GB eng J - Journal Article
Oulehle, Filip - Urban, Otmar - Tahovská, K. - Kolář, Tomáš - Rybníček, Michal - Büntgen, Ulf - Hruška, Jakub - Čáslavský, Josef - Trnka, Miroslav
Calcium availability affects the intrinsic water-use efficiency of temperate forest trees.
Communications Earth & Enviroment. Roč. 4, č. 1 (2023), č. článku 199. E-ISSN 2662-4435
R&D Projects: GA MŠMT(CZ) EF16_019/0000797; GA ČR GA23-07583S
Research Infrastructure: CzeCOS IV - 90248
Institutional support: RVO:86652079
Keywords : carbon cycles * water cycles * Ca concentration * soil
OECD category: Meteorology and atmospheric sciences
Impact factor: 8.1, year: 2023
Method of publishing: Open access
https://www.nature.com/articles/s43247-023-00822-5
Intrinsic water-use efficiency (iWUE) of trees is an important component of the Earth's coupled carbon and water cycles. The causes and consequences of long-term changes in iWUE are, however, still poorly understood due to the complex interplay between biotic and abiotic factors. Inspired by the role calcium (Ca) plays in plant transpiration, we explore possible linkages between tree ring-derived iWUE and Ca availability in five central European forest sites that were affected by acidic air pollution. We show that increasing iWUE was directly modulated by acid air pollution in conjunction with soil Ca concentration. Responses of iWUE to rising atmospheric CO2 concentrations accelerated across sites where Ca availability decreased due to soil acidity constraints, regardless of nitrogen and phosphorus availability. The observed association between soil acidity, Ca uptake, and transpiration suggests that Ca biogeochemistry has important, yet unrecognized, implications for the plant physiological upregulation of carbon and water cycles.
Permanent Link: https://hdl.handle.net/11104/0343621
File Download Size Commentary Version Access Oulehle-2023-Calcium-availability-affects-the-in.pdf 8 1.1 MB Publisher’s postprint open-access
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