Evaluation of potential increase in photosynthetic efficiency of cassava (Manihot esculenta Crantz) plants exposed to elevated carbon dioxide.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
V Ravi, Saravanan Raju, Sanket J More
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引用次数: 0

Abstract

Cassava (Manihot esculenta Crantz), an important tropical crop, is affected by extreme climatic events, including rising CO2 levels. We evaluated the short-term effect of elevated CO2 concentration (ECO2 ) (600, 800 and 1000ppm) on the photosynthetic efficiency of 14 cassava genotypes. ECO2 significantly altered gaseous exchange parameters (net photosynthetic rate (P n ), stomatal conductance (g s ), intercellular CO2 (C i ) and transpiration (E )) in cassava leaves. There were significant but varying interactive effects between ECO2 and varieties on these physiological characteristics. ECO2 at 600 and 800ppm increased the P n rate in the range of 13-24% in comparison to 400ppm (ambient CO2 ), followed by acclimation at the highest concentration of 1000ppm. A similar trend was observed in g s and E . Conversely, C i increased significantly and linearly across increasing CO2 concentration. Along with C i , a steady increase in water use efficiency [WUEintrinsic (P n /g s ) and WUEinstantaneous (P n /E )] across various CO2 concentrations corresponded with the central role of restricted stomatal activity, a common response under ECO2 . Furthermore, P n had a significant quadratic relationship with the ECO2 (R 2 =0.489) and a significant and linear relationship with C i (R 2 =0.227). Relative humidity and vapour pressure deficit during the time of measurements remained at 70-85% and ~0.9-1.31kPa, respectively, at 26±2°C leaf temperature. Notably, not a single variety exhibited constant performance for any of the parameters across CO2 concentrations. Our results indicate that the potential photosynthesis can be increased up to 800ppm cassava varieties with high sink capacity can be cultivated under protected cultivation to attain higher productivity.

评估木薯(Manihot esculenta Crantz)植物暴露于高浓度二氧化碳时光合效率的潜在提高。
木薯(Manihot esculenta Crantz)是一种重要的热带作物,受到极端气候事件的影响,包括二氧化碳水平的上升。我们评估了二氧化碳浓度升高(ECO2)(600、800 和 1000ppm)对 14 种木薯基因型光合效率的短期影响。ECO2 明显改变了木薯叶片的气体交换参数(净光合速率(P n )、气孔导度(g s )、细胞间 CO2(C i )和蒸腾(E ))。ECO2 与品种之间对这些生理特性的交互作用很明显,但存在差异。与 400ppm(环境 CO2)相比,600 和 800ppm 的 ECO2 使 P n 的速率增加了 13-24% ,随后在最高浓度 1000ppm 下出现了适应。在 g s 和 E 中也观察到类似的趋势。相反,C i 在二氧化碳浓度增加时呈线性大幅增加。随着 C i 的增加,水分利用效率[WUEintrinsic(P n /g s)和 WUEinstantaneous(P n /E )]在不同 CO2 浓度下稳步上升,这与限制气孔活动的核心作用相符,这也是 ECO2 条件下的常见反应。此外,P n 与 ECO2 存在显著的二次关系(R 2 =0.489),与 C i 存在显著的线性关系(R 2 =0.227)。叶温为 26±2°C 时,测量期间的相对湿度和蒸气压差分别保持在 70%-85% 和 ~0.9-1.31kPa 之间。值得注意的是,在不同二氧化碳浓度下,没有一个品种的任何参数表现出相同的性能。我们的研究结果表明,在保护性栽培条件下,具有高吸收能力的木薯品种的潜在光合作用可提高到 800ppm 以达到更高的生产率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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