Natural abundance of 13C in CO2</sub> respired from forest soils reveals speed of link between tree photosynthesis and root respiration

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Natural abundance of 13C in CO2 respired from forest soils reveals speed of link between tree photosynthesis and root respiration

机译：从森林土壤中呼吸的二氧化碳中13 C的自然丰度揭示了树木光合作用与根部呼吸之间的联系速度

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Soil respiration from a boreal mixed coniferous forest showed large seasonal variation in natural abundance of 13C, ranging from –21.6‰ to –26.5‰. We tested if weather conditions could explain this variation in δ13C of respired CO2, and found that the air relative humidity 1–4 days before the days of CO2 sampling best explained the variation. This suggested that high δ13C values were caused by effects of air humidity on isotope fractionation during photosynthesis and that it took 1–4 days for the C from canopy photosynthesis of 20–25 m trees to become available for root/rhizosphere respiration. We calculated that these new photoassimilates could account for at least 65% of total soil respiration.

机译：北方针叶混交林的土壤呼吸显示13 C的自然丰度有较大的季节性变化，范围从–21.6‰至–26.5‰。我们测试了天气条件是否可以解释呼吸的CO2 的δ13C变化，并发现在CO2 采样前1-4天的空气相对湿度可以最好地解释这种变化。这表明δ13 C值高是由于空气湿度对光合作用中同位素分馏的影响所致，而20–25 m的树冠光合作用需要1–4天才能使C用于根/根际。呼吸。我们计算出这些新的光同化物至少可占土壤呼吸总量的65％。

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《Oecologia》 |2001年第3期|305-308|共4页
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Department of Forest Ecology Section of Soil Science SLU 901 83 Umeå Sweden;

Department of Forest Ecology Section of Soil Science SLU 901 83 Umeå Sweden;

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正文语种 eng
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Boreal forests Carbon flux 13C Soil respiration;

机译：北方森林碳通量13C土壤呼吸;

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专利

1. Natural abundance of C-13 in CO2 respired from forest soils reveals speedof link between tree photosynthesis and root respiration [J] . Ekblad A, Hogberg P Oecologia . 2001,第3期

机译：从森林土壤中呼吸的CO2中自然丰富的C-13揭示了树木光合作用与根部呼吸之间的联系速度
2. Separation of soil respiration into CO2 emission sources using 13C natural abundance in a deciduous broad-leaved forest in Japan. [J] . Sakata T, Ishizuka S, Takahashi M Soil Science and Plant Nutrition . 2007,第3期

机译：在日本落叶阔叶林中，利用13C自然丰度将土壤呼吸分解为CO2排放源。
3. Quantifying the contribution of soil organic matter turnover to forest soil respiration, using natural abundance t13C [J] . Millard Peter, Midwood Andrew J., Hunt John E, Soil Biology & Biochemistry . 2010,第6期

机译：利用自然丰度t13C量化土壤有机质转化对森林土壤呼吸的贡献
4. Seasonal changes in the contribution of root respiration to total soil respiration in a cool-temperate deciduous forest [C] . Mi-sun Lee, Kaneyuki Nakane, Takayuki Nakatsubo, Symposium of the International Society of Root Research . 2003

机译：冷温带落叶林根根呼吸对整个土壤呼吸贡献的季节变化
5. Linking Tree Community Functional Change with Soil Carbon Dynamics During Secondary Succession in a Naturally Regenerating Tropical Forest in Panama [D] . Wallwork, Abby. 2021

机译：巴拿马自然再生热带森林中的次级继承中与土壤碳动力学的联系树社区功能变化
6. Soil Respiration in Relation to Photosynthesis of Quercus mongolica Trees at Elevated CO2 [O] . Yumei Zhou, Mai-He Li, Xu-Bing Cheng, 2010

机译：CO2浓度升高时土壤呼吸与蒙古栎光合作用的关系
7. Combining a Quantum Cascade Laser Spectrometer with an Automated Closed-Chamber System for δ13C Measurements of Forest Soil, Tree Stem and Tree Root CO2 Fluxes [O] . Andreas Brændholt, Andreas Ibrom, Per Ambus, 2019

机译：将量子级联激光光谱仪与自动闭合室系统相结合，用于林土，树干和树根CO2通量δ13C测量

Natural abundance of 13C in CO2 respired from forest soils reveals speed of link between tree photosynthesis and root respiration

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