[Objective] The aim of this study was to explore the daily change of photosyntheticratefor Prunus domestica ×armeniacain different growing seasons. The study can provide theoretical basis for arid area high yield...[Objective] The aim of this study was to explore the daily change of photosyntheticratefor Prunus domestica ×armeniacain different growing seasons. The study can provide theoretical basis for arid area high yield and quality cultivation.[Method] The photosynthetic physiological properties of leaves of different types of Prunus domestica × armeniaca were measured by the Li-6400 portable photosynthesis system indifferent seasons. By this method could analysis of photosyntheticcharacteristicsfor different types of Prunus domestica×armeniaca in different seasons.[Result] Daily change of photosyntheticrate(Pn) for Prunus domestica×armeniaca in differentseasons showed a "double-peak" curve. The peak values were at 10:00 and16:00. The Pn of ‘Fengweihuanghou', ‘Konglongdan', ‘Weihou', ‘Weiwang' and‘Weidi' reached the maximum in July, theywere 13.75, 14.76, 12.96, 13.3, and 11.9μmol/(m^2·s), respectively. The Pn of Prunus domestica×armeniaca reached minimumin August, they were 9.78, 10.71, 12.02, 10.43 μmol/(m^2·s). The Pn overall average of ‘Konglongdan' was highest,it reached 12.65 μmol/(m^2·s).The Pn overall average of ‘Weiwang' was lowest, it reached 11.31μmol/(m^2·s). There were extremely significant positive correlation between the Pn and Gs(P0.01). [Conclusion] Daily change of photosyntheticrate for Prunus domestica ×armeniaca in differentseasons showed a "double-peak" curve, showing significant phenomenon of "midday depression".The photosynthesis intensity of Prunus domestica ×armeniaca was strongest in July, and the photosynthesis intensity was weakest in August. ‘Konglongdan'showed the strongest photosynthesis capacity, ‘Weihou' and ‘Weiwang', followed.There were highest correlation between the Pn and stoma conductance(Gs).展开更多
Sediment records from Tibetan lakes record dramatic climatic variability of the Tibetan Plateau in NW China during the Holocene.Here we investigated ancient communities of photosynthetic microbial communities in
基金Supported by High-quality and High-efficient Cultivation Technology Demonstration and Promotion of Apricot and Plum(ZYLYKJTG2015020)~~
文摘[Objective] The aim of this study was to explore the daily change of photosyntheticratefor Prunus domestica ×armeniacain different growing seasons. The study can provide theoretical basis for arid area high yield and quality cultivation.[Method] The photosynthetic physiological properties of leaves of different types of Prunus domestica × armeniaca were measured by the Li-6400 portable photosynthesis system indifferent seasons. By this method could analysis of photosyntheticcharacteristicsfor different types of Prunus domestica×armeniaca in different seasons.[Result] Daily change of photosyntheticrate(Pn) for Prunus domestica×armeniaca in differentseasons showed a "double-peak" curve. The peak values were at 10:00 and16:00. The Pn of ‘Fengweihuanghou', ‘Konglongdan', ‘Weihou', ‘Weiwang' and‘Weidi' reached the maximum in July, theywere 13.75, 14.76, 12.96, 13.3, and 11.9μmol/(m^2·s), respectively. The Pn of Prunus domestica×armeniaca reached minimumin August, they were 9.78, 10.71, 12.02, 10.43 μmol/(m^2·s). The Pn overall average of ‘Konglongdan' was highest,it reached 12.65 μmol/(m^2·s).The Pn overall average of ‘Weiwang' was lowest, it reached 11.31μmol/(m^2·s). There were extremely significant positive correlation between the Pn and Gs(P0.01). [Conclusion] Daily change of photosyntheticrate for Prunus domestica ×armeniaca in differentseasons showed a "double-peak" curve, showing significant phenomenon of "midday depression".The photosynthesis intensity of Prunus domestica ×armeniaca was strongest in July, and the photosynthesis intensity was weakest in August. ‘Konglongdan'showed the strongest photosynthesis capacity, ‘Weihou' and ‘Weiwang', followed.There were highest correlation between the Pn and stoma conductance(Gs).
文摘Sediment records from Tibetan lakes record dramatic climatic variability of the Tibetan Plateau in NW China during the Holocene.Here we investigated ancient communities of photosynthetic microbial communities in
