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在“凉爽”气候条件下,田间环境中C4植物反枝苋叶片气体交换的日变化过程:与C3植物大豆和藜的比较。

The diurnal course of leaf gas exchange of the C species Amaranthus retroflexus under field conditions in a 'cool' climate: Comparison with the C species Glycine max and Chenopodium album.

作者信息

Tenhunen J D

机构信息

Lehrstuhl für Botanik II, Universität Würzburg, Mittlerer Dallenbergweg 64, D-8700, Würzburg, Federal Republic of Germany.

出版信息

Oecologia. 1982 Jun;53(3):310-316. doi: 10.1007/BF00389006.

DOI:10.1007/BF00389006
PMID:28311733
Abstract

The gas exchange of leaves of Amaranthus retroflexus (C) measured under fluctuating environmental conditions in an experimental garden in Würzburg was compared with that of Glycine max and Chenopodium album (C). Consistent with previous observations, Amaranthus had higher leaf diffusion resistance than the C species and low internal air space carbon dioxide concentration. Due to high photosynthetic capacity, Amaranthus fixed as much carbon during the light as the C species, even at low temperatures and low light intensities. Low rates of dark respiration of leaves potentially enhances the ability of Amaranthus to grow rapidly after establishment in a disturbed habitat. The data suggest that some populations of Amaranthus retroflexus are adapted to cool climate conditions but are also able to exploit high temperature situations.

摘要

在维尔茨堡一个实验园波动的环境条件下,对反枝苋(C)叶片的气体交换与大豆和藜(C)进行了比较。与之前的观察结果一致,反枝苋的叶片扩散阻力高于C类植物,且内部气腔二氧化碳浓度较低。由于光合能力强,即使在低温和低光照强度下,反枝苋在光照期间固定的碳量与C类植物一样多。叶片较低的暗呼吸速率可能增强了反枝苋在干扰生境中定植后快速生长的能力。数据表明,一些反枝苋种群适应凉爽气候条件,但也能够利用高温环境。

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本文引用的文献

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Ecophysiological investigations on wild and cultivated plants in the Negev Desert : I. Methods: A mobile laboratory for measuring carbon dioxide and water vapour exchange.内盖夫沙漠野生和栽培植物的生态生理学研究:I. 方法:用于测量二氧化碳和水汽交换的移动实验室。
Oecologia. 1971 Sep;8(3):296-309. doi: 10.1007/BF00346476.
2
Biomass production of C- and C-plant species in pure and mixed culture with different water supply.不同供水条件下C4和C3植物物种在纯培养和混合培养中的生物量生产。
Oecologia. 1981 Aug;50(1):73-81. doi: 10.1007/BF00378796.
3
The diurnal time course of net photosynthesis of soybean leaves: Analysis with a physiologically based steady-state photosynthesis model.
大豆叶片净光合作用的昼夜时间进程:基于生理的稳态光合作用模型分析
Oecologia. 1980 Sep;46(3):314-321. doi: 10.1007/BF00346258.
4
Relationships between growth, photosynthesis and competitive interactions for a C and C plant.一种C₃和C₄植物的生长、光合作用与竞争相互作用之间的关系。
Oecologia. 1981 Mar;48(3):371-376. doi: 10.1007/BF00346497.
5
Implications of quantum yield differences on the distributions of C and C grasses.量子产率差异对C₃和C₄禾本科植物分布的影响
Oecologia. 1978 Jan;31(3):255-267. doi: 10.1007/BF00346246.
6
Distribution of biomass of species differing in photosynthetic pathway along an altitudinal transect in southeastern wyoming grassland.怀俄明州东南部草原沿海拔梯度不同光合途径物种的生物量分布
Oecologia. 1980 Jan;45(3):287-298. doi: 10.1007/BF00540195.
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Carbon balance, productivity, and water use of cold-winter desert shrub communities dominated by C and C species.以C3和C4植物为主的寒冷冬季沙漠灌木群落的碳平衡、生产力和水分利用
Oecologia. 1977 Dec;29(4):275-300. doi: 10.1007/BF00345803.
8
A digital registration system for net photosynthesis and transpiration measurements in the field and an associated analysis of errors.一种用于田间净光合作用和蒸腾作用测量的数字记录系统及相关误差分析。
Oecologia. 1972 Jun;10(2):151-166. doi: 10.1007/BF00347987.
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Plant Physiol. 1977 Jan;59(1):86-90. doi: 10.1104/pp.59.1.86.