Photosynthetic depression in relation to plant architecture in two alpine herbaceous species

NWIPB OpenIR

	Photosynthetic depression in relation to plant architecture in two alpine herbaceous species
	Cui, XY ; Tang, YH ; Gu, S ; Nishimura, S ; Shi, SB ; Zhao, XQ
	2003-10-01
发表期刊	ENVIRONMENTAL AND EXPERIMENTAL BOTANY ; Cui Xiaoyong, Tang Yanhong, Gu Song, Nishimura Seiichi, Shi Shengbo, Zhao Xinquan. Photosynthetic depression in relation to plant architecture in two alpine herbaceous species.ENVIRONMENTAL AND EXPERIMENTAL BOTANY,2003,50(2):125-135
摘要	The Qinghai-Tibet Plateau is characterized by extremely high radiation, which may induce down-regulation of photosynthesis in plants living in this alpine ecosystem. To clarify whether photoinhibition occurs in the alpine environment and to discern its underlying mechanisms, we examined photosynthetic gas exchange and fluorescence emission in response to the changes in photosynthetic photon flux density (PPFD) and leaf temperature under natural regimes for two herbaceous species: prostrate Saussurea superba and erect-leaved Saussurea katochaete from altitude 3250 m on the Qinghai-Tibet Plateau. S. superba intercepted a higher maximum PPFD and experienced much higher leaf temperature than the erect-leaved S. katochaete. S. superba exhibited a much higher light saturation point for photosynthesis than S. katochaete. Under controlled conditions, the former species had higher CO2 uptake rates and neither species showed obvious photosynthetic down-regulation at high PPFD. Under natural environmental conditions, however, apparent photoinhibition, indicated by reduced electron transport rate (ETR), was evident at high PPFD for both species. After a night frost, the photochemistry of S. katochaete was depressed markedly in the early morning and recovered by mid-day. After a frost-free night, it was high in the morning and low at noon due to high radiation. S. superba did not respond to the night frost in terms of daytime photochemical pattern. In both species, photochemical depression was aggravated by high leaf temperature and the erect species was more sensitive to high temperature. This study suggests that the high radiation on the Qinghai-Tibet Plateau is likely to induce rapidly reversible photoinhibition, which is related closely to plant architecture. Photochemistry in the prostrate species seems able to tolerate higher PPFD, without obvious suppression, than the erect species. (C) 2003 Elsevier Science B.V. All rights reserved.; The Qinghai-Tibet Plateau is characterized by extremely high radiation, which may induce down-regulation of photosynthesis in plants living in this alpine ecosystem. To clarify whether photoinhibition occurs in the alpine environment and to discern its underlying mechanisms, we examined photosynthetic gas exchange and fluorescence emission in response to the changes in photosynthetic photon flux density (PPFD) and leaf temperature under natural regimes for two herbaceous species: prostrate Saussurea superba and erect-leaved Saussurea katochaete from altitude 3250 m on the Qinghai-Tibet Plateau. S. superba intercepted a higher maximum PPFD and experienced much higher leaf temperature than the erect-leaved S. katochaete. S. superba exhibited a much higher light saturation point for photosynthesis than S. katochaete. Under controlled conditions, the former species had higher CO2 uptake rates and neither species showed obvious photosynthetic down-regulation at high PPFD. Under natural environmental conditions, however, apparent photoinhibition, indicated by reduced electron transport rate (ETR), was evident at high PPFD for both species. After a night frost, the photochemistry of S. katochaete was depressed markedly in the early morning and recovered by mid-day. After a frost-free night, it was high in the morning and low at noon due to high radiation. S. superba did not respond to the night frost in terms of daytime photochemical pattern. In both species, photochemical depression was aggravated by high leaf temperature and the erect species was more sensitive to high temperature. This study suggests that the high radiation on the Qinghai-Tibet Plateau is likely to induce rapidly reversible photoinhibition, which is related closely to plant architecture. Photochemistry in the prostrate species seems able to tolerate higher PPFD, without obvious suppression, than the erect species. (C) 2003 Elsevier Science B.V. All rights reserved.
文献类型	期刊论文
条目标识符	http://210.75.249.4/handle/363003/25434
专题	中国科学院西北高原生物研究所
推荐引用方式 GB/T 7714	Cui, XY,Tang, YH,Gu, S,et al. Photosynthetic depression in relation to plant architecture in two alpine herbaceous species[J]. ENVIRONMENTAL AND EXPERIMENTAL BOTANY, Cui Xiaoyong, Tang Yanhong, Gu Song, Nishimura Seiichi, Shi Shengbo, Zhao Xinquan. Photosynthetic depression in relation to plant architecture in two alpine herbaceous species.ENVIRONMENTAL AND EXPERIMENTAL BOTANY,2003,50(2):125-135,2003.
APA	Cui, XY,Tang, YH,Gu, S,Nishimura, S,Shi, SB,&Zhao, XQ.(2003).Photosynthetic depression in relation to plant architecture in two alpine herbaceous species.ENVIRONMENTAL AND EXPERIMENTAL BOTANY.
MLA	Cui, XY,et al."Photosynthetic depression in relation to plant architecture in two alpine herbaceous species".ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2003).