(μmol·m −2 ·s −1 ) as well as g S to water vapor ( g S , mmol·m −2 ·s −1 ) were recorded and used to compute the ratio of intercellular to atmospheric CO 2 concentration c i /c a . The daily integral of assimilation-weighted c i was calculated using
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Andrew Merchant
Hong Jiang, Zhiyuan Li, Xiumei Jiang, and Yong Qin
, transpiration, intercellular CO 2 concentrations, the activity of the PSII reaction center, and P n of plants ( Wang et al., 2017b ). Other studies have shown that with increasing salt concentrations, plant P n first increases and subsequently decreases or
M. Carmen González-Mas, M. José Llosa, Antonio Quijano, and M. Angeles Forner-Giner
, whereas the intercellular CO 2 concentration (C i ) in leaves on Carrizo citrange was similar to the majority of other rootstocks. However, the g s and the E for leaves on Carrizo citrange were the lowest, as was chlorophyll content, when compared
Soo-Hyung Kim and Bert Cregg
biochemical model of C 3 photosynthesis ( Farquhar et al., 1980 ) to estimate the conductance of CO 2 from the intercellular air spaces to the site of carboxylation inside the chloroplast. This method has been found to compare well with other methods ( Bunce
Soohyun Kang, Yating Zhang, Yuqi Zhang, Jie Zou, Qichang Yang, and Tao Li
curves were corrected for leaks of CO 2 into or out of the cuvette by using photosynthetically inactive leaves ( Flexas et al., 2007 ). A n as a function of intercellular CO 2 partial pressure ( C i ) was fitted through the model of Sharkey et al
Yijing Wu, Qingyu Lu, Yao Gong, Yiming Zhang, Yan Xu, Ming Cai, Huitang Pan, and Qixiang Zhang
. 116°27′12.13E). The 2-year-old bare-root L. indica ‘Whit III’ plants, which were provided by Woye Agriculture Technology Development Co., Ltd. (Zhenjiang, Jiangsu, China), were transplanted to containers (diameter: 24 cm; height: 21.8 cm; volume: 7 L
Dharti Thakulla, Bruce L. Dunn, Carla Goad, and Bizhen Hu
increase in the activity of Rubisco and PS II resulting in increased stomatal conductance ( g S ) and intercellular CO 2 concentration ( Khan et al., 2018 ). In a similar study conducted by Nurnaeimah et al. (2020 ), plant height, leaf area, chlorophyll
Ze Li, Kai Shi, Fanhang Zhang, Lin Zhang, Hongxu Long, Yanling Zeng, Zhiming Liu, Genhua Niu, and Xiaofeng Tan
70%. Water-use efficiency (WUE) was calculated as the P n /E ratio according to Colla et al. (2012). The stomatal limitation value (L s ) was calculated as 1 – C i /Ca (where C i is the intercellular CO 2 concentration and Ca is the concentration of
Guohai Xia, Lailiang Cheng, Alan Lakso, and Martin Goffinet
Mn; P = 0.001 for leaf B. In response to increasing N supply, single leaf net CO 2 assimilation rate increased ( Fig. 4 ), whereas the calculated intercellular CO 2 concentrations decreased (data not shown). As a result of increases in
Hong-jia Xu, Masafumi Johkan, Toru Maruo, Natsuko Kagawa, and Satoru Tsukagoshi
intensity, 24 °C day/20 °C night temperature, and 1000 ppm CO 2 concentration until the seventh day after seeding (DAS). Next, lettuce seedlings with a uniform morphology were transplanted into another growth chamber with the same conditions as the previous