Dissecting and modelling the comparative adaptation to water limitation of sorghum and maize: role of transpiration efficiency, transpiration rate and height

IF 2.6 Q1 AGRONOMY

in silico Plants Pub Date : 2021-01-01 DOI:10.1093/INSILICOPLANTS/DIAA012

E. V. van Oosterom, M. Kulathunga, K. Deifel, G. McLean, C. Barrasso, A. Wu, C. Messina, G. Hammer

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引用次数: 9

Abstract

Maize is considered less drought-tolerant than sorghum, but sorghum is commonly grown as a short triple dwarf (3dwarf) type, so difference in plant height confounds the species comparison. The objectives of this study were to experimentally determine effects of species and plant height differences on transpiration efficiency (TE) and transpiration rate per unit green leaf area (TGLA) and use findings to explain input parameters in a simulation study on the comparative adaptation of 3dwarf sorghum and maize in environments with contrasting water availability. Maize, tall double dwarf (2dwarf) and short 3dwarf sorghum genotypes were grown in two lysimeter experiments in 2011 in SE Queensland, Australia. Each plant was harvested after anthesis and total transpiration, shoot and root dry mass were measured to estimate TE. Daily TGLA was used to compare transpiration rates. Species and height had limited effect on TE, but significantly affected TGLA. This was associated with differences in biomass allocation. The similar TE but higher TGLA in maize compared with 3dwarf sorghum meant it potentially produces more biomass, consistent with published differences in biomass accumulation and radiation use efficiency (RUE). The simulation study, which used similar TE for maize and 3dwarf sorghum, but captured differences in TGLA through differences in RUE, predicted crossover interactions for grain yield between species and total water use. The greater TGLA of maize decreased grain yield in water-limited environments, but increased yields in well-watered situations. Results highlight that similarity in TE and differences in TGLA can influence comparative adaptation to water limitation.

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高粱和玉米对水分限制的比较适应剖析与建模:蒸腾效率、蒸腾速率和高度的作用

人们认为玉米的耐旱性不如高粱，但高粱通常是矮小的三矮(3dwarf)型，因此植株高度的差异会混淆物种比较。本研究的目的是通过实验确定物种和植物高度差异对蒸腾效率(TE)和单位绿叶面积蒸腾速率(TGLA)的影响，并利用研究结果解释3矮高粱和玉米在不同水分可用性环境下的比较适应模拟研究中的输入参数。2011年，在澳大利亚昆士兰东南部进行了玉米、高双矮秆(2矮秆)和矮3矮秆高粱两种基因型的蒸渗试验。每株植株开花后采收，测定总蒸腾量、茎干质量和根干质量来估算TE。每日TGLA用于比较蒸腾速率。物种和高度对TE的影响有限，但对TGLA有显著影响。这与生物量分配的差异有关。与3矮秆高粱相比，玉米的TE相似，但TGLA较高，这意味着它可能产生更多的生物量，这与已发表的生物量积累和辐射利用效率(RUE)的差异一致。该模拟研究对玉米和矮高粱使用了类似的TE，但通过RUE的差异捕捉到了TGLA的差异，预测了品种间粮食产量和总需水量的交叉交互作用。玉米的TGLA越高，在缺水条件下产量越低，而在水分充足的条件下产量越高。结果表明，TE的相似性和TGLA的差异会影响对水分限制的比较适应。

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来源期刊

in silico Plants Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

4.70

自引率

9.70%

发文量

审稿时长

10 weeks