Plant water use efficiency of 17 Australian NAD-ME and NADP-ME C₄ grasses at ambient and elevated CO₂ partial pressure

O. Ghannoum, S. Caemmerer, J. Conroy
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引用次数: 48

Abstract

This study investigates the response to elevated CO2 partial pressure (pCO2) of C4grasses belonging to different biochemical subtypes (NAD–ME and NADP–ME), and taxonomic groups (main Chloroid assemblage, Paniceae and Andropogoneae). Seventeen C4 grasses were grown under well-watered conditions in two glasshouses maintained at an average dailyppCO2 of 42 (ambient) or 68 (elevated) Pa. Elevated pCO2 significantly increased plant water-use efficiency (WUE; dry matter gain per unit water transpired) in 12 out of the 17 C4 grasses, by an average of 33%. In contrast, only five species showed a significant growth stimulation. When all species are considered, the average plant dry mass enhancement at elevated pCO2 was 26%. There were no significant subtype (or taxa) × pCO2 interactions on either WUE or biomass accumulation. When leaf gas exchange was compared at growth pCO2 but similar light and temperature, high pCO2-grown plants had similar CO2 assimilation rates (A) but a 40% lower stomatal conductance than their low pCO2-grown counterparts. There were no signs of either photosynthetic or stomatal acclimation in any of the measured species. We conclude that elevated pCO2 improved WUE primarily by reducing stomatal conductance.
17种澳大利亚NADP-ME和NADP-ME C₄草在环境和升高的CO₂分压下的植物水分利用效率
本研究研究了不同生化亚型(NADP-ME和NADP-ME)和分类类群(主要Chloroid组合、panicae和androgonaceae)的c4禾本科植物对CO2分压升高的响应。17种C4草在两个温室中在水分充足的条件下生长,平均每日二氧化碳浓度为42(环境)或68(升高)Pa。二氧化碳分压升高显著提高植物水分利用效率(WUE);17种C4禾草中有12种的单位水分蒸腾的干物质增益平均提高了33%。相比之下,只有5种植物表现出显著的生长刺激。当考虑所有物种时,pCO2升高时植物干质量平均增加26%。在WUE和生物量积累方面,亚型(或分类群)与pCO2的交互作用均不显著。在相同光照和温度条件下比较叶片气体交换时,高pCO2生长的植物具有相似的CO2同化速率(A),但气孔导度比低pCO2生长的植物低40%。在任何被测量的物种中都没有光合作用或气孔适应的迹象。我们得出结论,二氧化碳分压升高主要通过降低气孔导度来提高水分利用效率。
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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