Macromolecular rate theory ( MMRTMMRT ) provides a thermodynamics rationale to underpin the convergent temperature response in plant leaf respiration

Liang Liyin L.; Arcus Vickery L.; Heskel Mary A.; OSullivan Odhran S.; Weerasinghe Lasantha K.; Creek Danielle; Egerton John J. G.; Tjoelker Mark G.; Atkin Owen K.; Schipper Louis A.

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Macromolecular rate theory ( MMRTMMRT ) provides a thermodynamics rationale to underpin the convergent temperature response in plant leaf respiration

机译：大分子率理论（MMRTMMRT）提供了一种热力学理由，以支撑植物叶呼吸中的收敛温度响应

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来源
《Global change biology》 |2018年第4期|共10页
作者
Liang Liyin L.; Arcus Vickery L.; Heskel Mary A.; OSullivan Odhran S.; Weerasinghe Lasantha K.; Creek Danielle; Egerton John J. G.; Tjoelker Mark G.; Atkin Owen K.; Schipper Louis A.;
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作者单位

School of ScienceThe University of WaikatoHamilton New Zealand;

School of ScienceThe University of WaikatoHamilton New Zealand;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

Hawkesbury Institute for the EnvironmentPenrith NSW Australia;

Division of Plant SciencesThe Australian National UniversityCanberra ACT Australia;

School of ScienceThe University of WaikatoHamilton New Zealand;

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原文格式 PDF
正文语种 eng
中图分类物候学;
关键词
Arrhenius; climate change; heat capacity; leaf respiration; macromolecular rate theory; temperature response; thermodynamics;

机译：arrhenius;气候变化;热容量;叶呼吸;大分子率理论;温度响应;热力学;

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专利

1. Macromolecular rate theory ( MMRTMMRT ) provides a thermodynamics rationale to underpin the convergent temperature response in plant leaf respiration [J] . Liang Liyin L., Arcus Vickery L., Heskel Mary A., Global change biology . 2018,第4期

机译：大分子率理论（MMRTMMRT）提供了一种热力学理由，以支撑植物叶呼吸中的收敛温度响应
2. Temperature sensitivity of soil microbial communities: An application of macromolecular rate theory to microbial respiration [J] . Charlotte J. Alster, Akihiro Koyama, Nels G. Johnson, Journal of Geophysical Research. Biogeosciences . 2016,第6期

机译：土壤微生物群落对温度的敏感性：大分子速率理论在微生物呼吸中的应用
3. Testing for temperature acclimation of plant carbon exchange: a comment on 'Global patterns of the responses of leaf-level photosynthesis and respiration in terrestrial plants to experimental warming' by Liang et al. [J] . Smith Nicholas G. Journal of Plant Ecology . 2015,第3期

机译：钢水综合施工碳交换温度适应的测试 - 梁等人对叶级光合作用与呼吸反应的全局模式。
4. Response of leaf, non-leaf yield characters and plant fraction interrelationship of indigenous wild cucumber Cucumis myriocarpus to varying rrigation intervals and NPK fertilizer rates [C] . R. J. Nkgapele, M. S. Mphosi, K. G. Shadung International conference on sustainable irrigation and drainage: Management, technologies and policies . 2013

机译：叶片，非叶产量特征和植物分数与土着野生黄瓜的植物分数相互关联，对不同的预测间隔和NPK肥料率的影响
5. NET PHOTOSYNTHESIS AND PHOTOSYNTHATE PARTITIONING OF DAY-NEUTRAL AND JUNEBEARING STRAWBERRY PLANTS AS INFLUENCED BY FRUITING (CARBOHYDRATES, DARK RESPIRATION, DRY-MATTER, SPECIFIC LEAF WEIGHT, STOMATAL CONDUCTANCE) [D] . SCHAFFER, BRUCE. 1985

机译：日粮和六月草莓草莓净光合作用和光合产物分配的影响（碳水化合物，暗呼吸，干物质，特定叶重量，气孔导度）
6. Convergence in the temperature response of leaf respiration across biomes and plant functional types [O] . Mary A. Heskel, Odhran S. O’Sullivan, Peter B. Reich, 2016

机译：跨生物群落和植物功能类型的叶片呼吸温度响应的收敛
7. Macromolecular Rate Theory (MMRT) Provides a Thermodynamics Rationale to Underpin the Convergent Temperature Response in Plant Leaf Respiration [O] . Liang Liying L., Arcus Vickery L., Heskel Mary A., 2017

机译：大分子速率理论（MMRT）提供了热力学原理以支持植物叶片呼吸中的收敛温度响应

Macromolecular rate theory ( MMRTMMRT ) provides a thermodynamics rationale to underpin the convergent temperature response in plant leaf respiration

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