期刊
JOURNAL OF EXPERIMENTAL BOTANY
卷 61, 期 14, 页码 4109-4122出版社
OXFORD UNIV PRESS
DOI: 10.1093/jxb/erq226
关键词
C-4 photosynthesis; carbon isotope discrimination; CO2 leakiness; Flaveria bidentis; gas exchange; image analysis; leaf anatomy
资金
- ARC [DP0878395]
- Australian Research Council [DP0878395] Funding Source: Australian Research Council
In C-4 plants, acclimation to growth at low irradiance by means of anatomical and biochemical changes to leaf tissue is considered to be limited by the need for a close interaction and coordination between bundle sheath and mesophyll cells. Here differences in relative growth rate (RGR), gas exchange, carbon isotope discrimination, photosynthetic enzyme activity, and leaf anatomy in the C-4 dicot Flaveria bidentis grown at a low (LI; 150 mu mol quanta m(2) s(-1)) and medium (MI; 500 mu mol quanta m(2) s(-1)) irradiance and with a 12 h photoperiod over 36 d were examined. RGRs measured using a 3D non-destructive imaging technique were consistently higher in MI plants. Rates of CO2 assimilation per leaf area measured at 1500 mu mmol quanta m(2) s(-1) were higher for MI than LI plants but did not differ on a mass basis. LI plants had lower Rubisco and phosphoenolpyruvate carboxylase activities and chlorophyll content on a leaf area basis. Bundle sheath leakiness of CO2 (phi) calculated from real-time carbon isotope discrimination was similar for MI and LI plants at high irradiance. phi increased at lower irradiances, but more so in MI plants, reflecting acclimation to low growth irradiance. Leaf thickness and vein density were greater in MI plants, and mesophyll surface area exposed to intercellular airspace (S-m) and bundle sheath surface area per unit leaf area (S-b) measured from leaf cross-sections were also both significantly greater in MI compared with LI leaves. Both mesophyll and bundle sheath conductance to CO2 diffusion were greater in MI compared with LI plants. Despite being a C-4 species, F. bidentis is very plastic with respect to growth irradiance.
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