New insights into the covariation of stomatal, mesophyll and hydraulic conductances from optimization models incorporating nonstomatal limitations to photosynthesis

Dewar Roderick; Mauranen Aleksanteri; M盲kel盲 Annikki; H枚ltt盲 Teemu; Medlyn Belinda; Vesala Timo

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New insights into the covariation of stomatal, mesophyll and hydraulic conductances from optimization models incorporating nonstomatal limitations to photosynthesis

机译：从优化模型对光合作用局限性局限性的优化模型对气孔，叶片和水力导电的协变的新见解

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来源
《The New Phytologist》 |2018年第2期|共10页
作者
Dewar Roderick; Mauranen Aleksanteri; M盲kel盲 Annikki; H枚ltt盲 Teemu; Medlyn Belinda; Vesala Timo;
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作者单位

Plant Sciences DivisionThe Australian National UniversityCanberra ACT 2601 Australia;

Department of PhysicsUniversity of HelsinkiPO Box聽68 Helsinki FI鈥?0014 Finland;

Department of Forest SciencesUniversity of HelsinkiPO Box聽27 Helsinki FI鈥?0014 Finland;

Department of Forest SciencesUniversity of HelsinkiPO Box聽27 Helsinki FI鈥?0014 Finland;

Hawkesbury Institute for the EnvironmentWestern Sydney UniversityLocked Bag 1797 Penrith NSW 2751 Australia;

Department of PhysicsUniversity of HelsinkiPO Box聽68 Helsinki FI鈥?0014 Finland;

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原文格式 PDF
正文语种 eng
中图分类植物学;
关键词
hydraulic conductance; mesophyll conductance; model; nonstomatal limitation; optimization; photosynthesis; stomatal conductance; trait covariation;

机译：液压传导;叶蝉电导;模型;非间断限制;优化;光合作用;气孔导电;特质协会;

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专利

1. New insights into the covariation of stomatal, mesophyll and hydraulic conductances from optimization models incorporating nonstomatal limitations to photosynthesis [J] . Dewar Roderick, Mauranen Aleksanteri, M盲kel盲 Annikki, The New Phytologist . 2018,第2期

机译：从优化模型对光合作用局限性局限性的优化模型对气孔，叶片和水力导电的协变的新见解
2. LEAFC3-N photosynthesis, stomatal conductance, transpiration and energy balance model: Finite mesophyll conductance, drought stress, stomata ratio, optimized solution algorithms, and code [J] . Johannes Müller, André Eschenr?der, Olaf Christen Ecological Modelling . 2014,第Null期

机译：LEAFC3-N光合作用，气孔电导，蒸腾和能量平衡模型：有限的叶肉电导，干旱胁迫，气孔比，优化的求解算法和代码
3. LEAFC3-N photosynthesis, stomatal conductance, transpiration and energy balance model: Finite mesophyll conductance, drought stress, stomata ratio, optimized solution algorithms, and code [J] . Johannes Müller, André Eschenr?der, Olaf Christen Ecological Modelling . 2014,第Null期

机译：LEAFC3-N光合作用，气孔电导，蒸腾和能量平衡模型：有限的叶肉电导，干旱胁迫，气孔比，优化的求解算法和代码
4. PHOTOSYNTHESIS LIMITATION IN QUERCUS ILEX UNDER DROUGHT: STOMATAL AND MESOPHYLL CONDUCTANCE, AND LEAF MORPHOLOGY CONTRIBUTION [C] . Karen Pena-Rojas, Xavier Aranda, Isabel Fleck International Congress of Photosynthesis . 2005

机译：干旱下栎（栎藻虫）的光合作用限制：气孔和叶片电导，以及叶形态贡献
5. Stomatal and nonstomatal responses of photosynthesis to water deficits and chilling. [D] . Ortiz-Lopez, Adriana. 1990

机译：光合作用的气孔和非气孔对缺水和寒冷的反应。
6. Stomatal and Nonstomatal Limitations to Net Photosynthesis in Seedlings of Woody Angiosperms [O] . Bing-Rui Ni, Stephen G. Pallardy 1992

机译：木本被子植物幼苗净光合作用的气孔和非气孔限制
7. Stomatal and mesophyll conductances to CO2 are the main limitations to photosynthesis in sugar beet (Beta vulgaris) plants grown with excess zinc [O] . Sagardoy Calderón, Ruth, Vázquez-Reina, Saúl, Flórez Sarasa, I. D., 2014

机译：气孔和叶肉对CO2的电导率是过量锌生长的甜菜（Beta vulgaris）植物光合作用的主要限制

New insights into the covariation of stomatal, mesophyll and hydraulic conductances from optimization models incorporating nonstomatal limitations to photosynthesis

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