The relationships between photosynthesis and stomatal traits on the Loess Plateau
Global Ecology and Conservation, 2020 Stomata control the water loss for transpiration and the CO2 uptake for photosynthesis. However, the relationships between photosynthesis and stomatal traits across a wide range of species are largely been unknown. Here, we tested the relationships among
Qiulong Yin +6 more
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Spatial variation of stomatal morphological traits in grassland plants of the Loess Plateau
Ecological Indicators, 2021 The stomata control carbon and water vapor exchange between the leaves and atmosphere and may reflect plant adaptation to climate change to some extent.
Jingguo Sun +3 more
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Deep learning-based high-throughput phenotyping accelerates gene discovery for stomatal traits. [PDF]
Plant Physiol, 2021 Zhang W, Calla B, Thiruppathi D.
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Climate and hybridization shape stomatal trait evolution in Populus. [PDF]
New PhytolAbstract Stomata play a critical role in regulating plant responses to climate. Where sister species differ in stomatal traits, interspecific gene flow can influence the evolutionary trajectory of trait variation, with consequences to adaptation.
Zavala-Paez M +4 more
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Spatial stability of photosynthetic and optical traits in common bean leaves under moderate drought revealed by imaging-based phenotyping. [PDF]
BMC Plant BiolBackground Leaves are structurally and functionally heterogeneous organs, and their photosynthetic performance often varies across the lamina. Environmental stress, particularly drought, is often assumed to increase this heterogeneity by disrupting ...
Lazarević B +3 more
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Differences between dumbbell and kidney-bean stomatal types may influence relationships between stomatal traits and the environment. [PDF]
Nat CommunXing K, Zhou N, Li H.
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Reply to: Differences between dumbbell and kidney-bean stomatal types may influence relationships between stomatal traits and the environment. [PDF]
Nat CommunLiu C +7 more
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Stomatal Ratio Showing No Response to Light Intensity in Oryza
Plants, 2022 Stomata control carbon and water exchange between the leaves and the ambient. However, the plasticity responses of stomatal traits to growth conditions are still unclear, especially for monocot leaves.
Tiange Wang +9 more
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Relating Stomatal Conductance to Leaf Functional Traits [PDF]
Journal of Visualized Experiments, 2015 Leaf functional traits are important because they reflect physiological functions, such as transpiration and carbon assimilation. In particular, morphological leaf traits have the potential to summarize plants strategies in terms of water use efficiency, growth pattern and nutrient use.
Kröber, Wenzel +3 more
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Contrasting adaptation and optimization of stomatal traits across communities at continental-scale [PDF]
Journal of Experimental Botany, 2021 AbstractThe maximum stomatal conductance (g), a major anatomical constraint on plant productivity, is a function of the stomatal area fraction (f) and stomatal space-use efficiency (e). However,fandghave been considered as equivalents, witherarely considered, and their adaptation to the environment and their regulation of ecosystem productivity are ...
Congcong Liu +3 more
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