Determinant of photosynthetic capacity in rice leaves under ambient air conditions

Zhang, D. Y.; Wang, X. H.; Chen, Y.; Xu, Dongxin

doi:10.1007/s11099-005-0044-8

Cited by 23 publications

(16 citation statements)

References 9 publications

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“…Photosynthetic characterization of three dominant plant species 1251 but negatively correlated with C i , implying that g s is one of the determinants of P N difference (Zhang et al 2005). Our results indicated that the determinant of leaf photosynthetic capacity is g s , because high P N is always accompanied by high g s and they are always positively correlated with each other, as noted in earlier reports (Sonobe et al 2009).…”

supporting

confidence: 81%

“…Approximately 40% of a plant's dry mass consists of carbon, fixed in photosynthesis. Net photosynthetic rate (P N ) in plant leaves is often influenced by environment factors such as irradiance, temperature, and water supply, and also by leaf age, leaf position, and developmental stage (Zhang et al 2005;Ephrath et al 2012;Lideman et al 2013). Plant photosynthetic rate can be calculated using single leaf net photosynthetic rate (P N ), responses to photosynthetic active radiation (PAR) and air temperature (T a ), leaf area index, radiation interception, and transmission and distribution through the canopy depending on crop architecture Yan et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Photosynthetic characterization of three dominant plant species in the saline–alkaline soil of the Yellow River Delta, China

Zhang

Shao

2014

Plant Biosystems - An International Journal Dealing with all As

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The diurnal variations of photosynthesis of three dominant species, including Glycine soja, Phragmites australis, and Cynanchum chinensis, in the Yellow River Delta in China have been studied under the same natural conditions using a Li-6400 portable photosynthesis system. The results showed that the curves of diurnal variations of net photosynthetic rate (P N ) of the three plants were different. The diurnal variation of P N on C. chinensis was a midday depression pattern and had two peaks. However, P N of G. soja and P. australis showed single-peak curves. The transpiration rate (E) of G. soja was significantly higher than that of P. australis and C. chinensis, both showed single-peak curves. In general, the diurnal course of stomatal conductance (g s ) followed the same pattern of P N . A similar diurnal pattern of intercellular CO 2 concentration (C i ), vapor pressure deficit (VPD), and water use efficiency (WUE) was observed among different species. VPD showed single-peak curves, while WUE was characterized by double-peak curves, which was contrary to C i . Linear correlations among photosynthetic variables and key environmental factors indicate high positive correlations between P N and E, P N and photosynthetic active radiation, P N and leaf temperature (T leaf ), P N and VPD, and between P N and g s except C. chinensis. Negative correlations among P N and relative humidity, P N and C i were found. The irradiance response curves derived from the leaves were substantially affected by different species. C. chinensis showed highest apparent quantum efficiency, followed by P. australis and G. soja, while apparent dark respiration (R d ), convexity (k), light saturation point, and maximum gross CO 2 assimilation rate (P max ) of G. soja were higher than those of P. australis and C. chinensis. The irradiance response curve of P N and WUE of different plant species followed the same order: G. soja . C. chinensis . P. australis. They were both higher than most of other species. It was concluded that plant species adapting to the saline -alkaline habitat showed higher photosynthesis. In addition, G. soja is also effective to improve saline -alkaline soil quality.

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supporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Photosynthetic characterization of three dominant plant species in the saline–alkaline soil of the Yellow River Delta, China

Zhang

Shao

2014

Plant Biosystems - An International Journal Dealing with all As

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“…Ci value does not decrease with Pn, which is similar to the relay-cropping system of rice (Zhang et al, 2005), in which Pn is inversely proportional to Ci. Moreover, Tr and Gs in the relay-cropping system show the same trends, which are all lower than those in the single cropping.…”

Section: Photosynthesis and Chlorophyll Fluorescence Parametersmentioning

confidence: 53%

Effect of Maize (Zea mays L.) Plant-Type on Yield and Photosynthetic Characters of Sweet Potato (Ipomoea balatas L.) in Intercropping System

Luo

Tang

et al. 2017

Not Bot Horti Agrobo

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Sweet potato/maize relay-cropping mode is considered as the main farming practices of dry land in Southwest China. Although relay-cropping would cause the reduction of fresh tuber yield, it still remained unclear that the reason was shade resulted from maize or genotype of sweet potato. The present work aims at exploring the effects of maize (Zea mays L.) planttype on photosynthetic physiology and yield of sweet potato (Ipomoea balatas L.) in relay-cropping system. Besides, three plant-types maize cultivars including compact, semi-compact and expanded type were used for relay-cropping with different sweet potato cultivars ('Yushu-2', 'Yushu-6' and 'Nanshu-88') in field. The results showed that the photosynthetically active radiation (PAR) was declined with the increase of expansion of maize plant-type, which decreased by 77.5%, 80.1% and 82.1% respectively. When relay-cropped with extended maize, the yield reduction rate of sweet potato was the highest (67%). The shade-resistance of different genotype of sweet potatoes was different, and the yield reduction rate of 'Yushu-2' was the lowest (37.01%). Through conducting correlations analysis, it showed that fresh tuber yield had significant positive correlation with Effective Quantum Yield (Y(II)) and significant negative correlation with Non Photochemical Quenching Coefficient (NPQ). In terms of 'Yushu-2', the proportion of heat dissipation was the lowest, and its light quantum efficiency was higher than others. As a result, its reduction rate of yield was lower than the other two. We suggested that compact maize cultivar relay-cropping with strong shade-resistance sweet potato cultivar should be mainly applied in practice of sweet potato.

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“…Leaf position, leaf age, and different leaf orientations or growth angles (horizontal and vertical) also in uence the photosynthetic rate of the leaves [48]. Alpine meadow plants have obvious strati ed structures.…”

Section: Community Photosynthetic Carbon Assimilation and Its Relatiomentioning

confidence: 99%

Leaf and community photosynthetic carbon assimilation of alpine plants under in-situ warming

Zhou

Xiukun

et al. 2020

Preprint

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Background: The Tibetan Plateau is highly sensitive to elevated temperatures and has experienced significant climate warming in the last decades. While climate warming is known to greatly impact alpine ecosystems, the gas exchange responses at the leaf and community levels to climate warming in alpine meadow ecosystems remain unclear.Results: In this study, the alpine grass, Elymus nutans, and forb, Potentilla anserina, were grown in open-top chambers (OTCs) for three consecutive years to evaluate their response to warming. Gas exchange measurements were used to assess the effects of in-situ warming on leaf- and community-level photosynthetic carbon assimilation based on leaf traits and photosynthetic physiological parameters. We introduced a means of up-scaling photosynthetic measurements from the leaf level to the community level based on six easily-measurable parameters, including leaf net photosynthetic rate, fresh leaf mass per unit leaf area, fresh weight of all plant leaves, the percentage of healthy leaves, the percentage of received effective light by leaves in the community, and community coverage. The community-level photosynthetic carbon assimilation and productivity all increased with warming, and the net photosynthetic rate at the leaf level was significantly higher than at the community level. Under elevated temperature, the net photosynthetic rate of E. nutans decreased, while that of P. anserina increased.Conclusions: These results indicated that climate warming may significantly influence plant carbon assimilation, which could alter alpine meadow community composition in the future.

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Determinant of photosynthetic capacity in rice leaves under ambient air conditions

Cited by 23 publications

References 9 publications

Photosynthetic characterization of three dominant plant species in the saline–alkaline soil of the Yellow River Delta, China

Photosynthetic characterization of three dominant plant species in the saline–alkaline soil of the Yellow River Delta, China

Effect of Maize (Zea mays L.) Plant-Type on Yield and Photosynthetic Characters of Sweet Potato (Ipomoea balatas L.) in Intercropping System

Leaf and community photosynthetic carbon assimilation of alpine plants under in-situ warming

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