Differential impact of decreasing relative humidity on photosynthesis under fluctuating light between maize and tomato
文献类型: 外文期刊
作者: Shi, Qi 1 ; Wang, Xiao-Qian 1 ; He, Bin 1 ; Yang, Ying-Jie 1 ; Huang, Wei 1 ;
作者机构: 1.Chinese Acad Sci, Kunming Inst Bot, Kunming, Peoples R China
2.Univ Chinese Acad Sci, Beijing, Peoples R China
3.Northwest Univ, Sch Life Sci, Xian, Peoples R China
4.Yunnan Acad Agr Sci, Flower Res Inst, Kunming, Peoples R China
期刊名称:PHYSIOLOGIA PLANTARUM ( 影响因子:6.4; 五年影响因子:5.9 )
ISSN: 0031-9317
年卷期: 2024 年 176 卷 1 期
页码:
收录情况: SCI
摘要: Photosynthetic CO2 assimilation (AN) under fluctuating light (FL) plays a critical role in plant growth and crop yield. C4 crops usually reach greater yields than C3 crops when grown in regions with low relative humidity, which might be partly due to the CO2 concentration mechanism and higher AN under FL of C4 crops. To test this hypothesis, we measured gas exchange and chlorophyll fluorescence under different changing frequencies of FL at contrasting relative air humidity (60% and 15%) for leaves of maize (Zea mays, C4) and tomato (Solanum lycopersicum, C3). In general, a more rapid changing frequency of FL would cause a larger loss in AN during shade-sun transitions, with 20-38% in maize and 16-52% in tomato. Low relative humidity induced a larger decrease of stomatal conductance (gs) under FL in tomato than in maize, leading to a much stronger loss in AN in tomato than in maize. After transition from low to high light, AN of maize was mainly limited by gs with negligible non-stomatal limitation, and the stomatal limitation was slightly affected by relative humidity. By comparison, low relative humidity significantly increased the stomatal limitation of AN in tomato but hardly affected non-stomatal limitation. These results highlight the differential impact of decreasing relative humidity on dynamic photosynthesis and productivity between C3 and C4 crops.
- 相关文献
作者其他论文 更多>>
-
Fluctuating light induces a significant photoinhibition of photosystem I in maize
作者:Yang, Qiu-Yan;Wang, Xiao-Qian;Yang, Qiu-Yan;Huang, Wei;Yang, Ying-Jie
关键词:C 4 plants; Cyclic electron flow; Fluctuating light; Photosystem I; Photorespiration
-
Differential Effects of Increasing Vapor Pressure Deficit on Photosynthesis at Steady State and Fluctuating Light
作者:Liu, Ning-Yu;Yang, Qiu-Yan;Zhang, Shi-Bao;Huang, Wei;Liu, Ning-Yu;Wang, Ji-Hua;Yang, Ying-Jie
关键词:Fluctuating Light; Mesophyll Conductance; Photosynthesis; Stomatal Conductance; Vapor Pressure Deficit
-
Variation in Photosynthetic Efficiency under Fluctuating Light between Rose Cultivars and its Potential for Improving Dynamic Photosynthesis
作者:Wang, Xiao-Qian;Wang, Xiao-Qian;Zeng, Zhi-Lan;Huang, Wei;Zeng, Zhi-Lan;Shi, Zi-Ming;Wang, Ji-Hua
关键词:chlorophyll fluorescence; CO2 assimilation; mesophyll conductance; photosynthetic limitation; stomatal conductance
-
Different Strategies for Photosynthetic Regulation under Fluctuating Light in Two Sympatric Paphiopedilum Species
作者:Feng, Jing-Qiu;Huang, Wei;Zhang, Shi-Bao;Feng, Jing-Qiu;Wang, Ji-Hua
关键词:cyclic electron flow; fluctuating light; Paphiopedilum; photosystem I; water-water cycle
-
Pre-illumination at high light significantly alleviates the over-reduction of photosystem I under fluctuating light
作者:Qi-Shi;Zhang, Shi-Bao;Huang, Wei;Wang, Ji-Hua
关键词:Angiosperms; Chlorophyll fluorescence; Cyclic electron flow; Photosynthesis; Photoprotection
-
The decline in photosynthetic rate upon transfer from high to low light is linked to the slow kinetics of chloroplast ATP synthase in Bletilla striata
作者:Yang, Ying-Jie;Zhang, Shi-Bao;Huang, Wei;Yang, Ying-Jie;Wang, Ji-Hua
关键词:CO2 assimilation; Chloroplast ATP synthase; Electron transport; Fluctuating light; ATP synthesis; Photosynthetic reduction
-
Photorespiration is the major alternative electron sink under high light in alpine evergreen sclerophyllous Rhododendron species
作者:Huang, Wei;Yang, Ying-Jie;Hu, Hong;Yang, Ying-Jie;Wang, Ji-Hua
关键词:Alpine sclerophyllous species; Mesophyll conductance; Rhododendron; Photorespiration; Photoprotection; Photosynthesis
