自引率: 15%
被引量: 13149
通过率: 暂无数据
审稿周期: 暂无数据
版面费用: 暂无数据
国人发稿量: 31
投稿须知/期刊简介:
Tree Physiology is a refereed journal distributed internationally. Articles published may deal with any aspect of tree physiology, including growth, morphogenesis, photosynthesis, nutrition, pathology, reproduction, evolution, environmental adaptation, symbioses, heredity, metabolism, molecular biology, and the relation between structure and function. Also published are articles dealing with physiological aspects of biotechnology, environmental management and the economic use of trees.
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Contrasting regulation of leaf gas exchange of semi-arid tree species under repeated drought.
被引量:- 发表:2024
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Methane concentration in the heartwood of living trees in a cold temperate mountain forest: variation, transport and emission.
被引量:- 发表:2024
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How is tree growth rate linked to root functional traits in phylogenetically related poplar hybrids?
被引量:- 发表:2024
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Extreme precipitation reduces the recent photosynthetic carbon isotope signal detected in ecosystem respiration in an old-growth temperate forest.
The successful utilization of stable carbon isotope approaches in investigating forest carbon dynamics has relied on the assumption that the carbon isotope compositions (δ13C) therein have detectable temporal variations. However, interpreting the δ13C signal transfer can be challenging, given the complexities involved in disentangling the effect of a single environmental factor, the isotopic dilution effect from background CO2 and the lack of high-resolution δ13C measurements. In this study, we conducted continuous in situ monitoring of atmospheric CO2 (δ13Ca) across a canopy profile in an old-growth temperate forest in northeast China during the normal year 2020 and the wet year 2021. Both years exhibited similar temperature conditions in terms of both seasonal variations and annual averages. We tracked the natural carbon isotope composition from δ13Ca to photosynthate (δ13Cp) and to ecosystem respiration (δ13CReco). We observed significant differences in δ13Ca between the two years. Contrary to in 2020, in 2021 there was a δ13Ca valley in the middle of the growing season, attributed to surges in soil CO2 efflux induced by precipitation, while in 2020 values peaked during that period. Despite substantial and similar seasonal variations in canopy photosynthetic discrimination (Δ13Ccanopy) in the two years, the variability of δ13Cp in 2021 was significantly lower than in 2020, due to corresponding differences in δ13Ca. Furthermore, unlike in 2020, we found almost no changes in δ13CReco in 2021, which we ascribed to the imprint of the δ13Cp signal on above-ground respiration and, more importantly, to the contribution of stable δ13C signals from soil heterotrophic respired CO2. Our findings suggest that extreme precipitation can impede the detectability of recent photosynthetic δ13C signals in ecosystem respiration in forests, thus complicating the interpretation of above- and below-ground carbon linkage using δ13CReco. This study provides new insights for unravelling precipitation-related variations in forest carbon dynamics using stable isotope techniques.
被引量:- 发表:2024
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Seeing the forest for the trees: upscaling approaches in Tree Physiology.
被引量:- 发表:2024
