叶片气体交换能否作为预测春小麦抗旱产量的可靠指标?

IF 2.1 3区 农林科学 Q2 AGRONOMY
Funian Zhao, Qiang Zhang, Jiang Liu, Heling Wang, Kai Zhang, Yue Qi
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引用次数: 0

摘要

叶片气体交换在决定作物最终产量方面起着关键作用,叶片气体交换对水分胁迫存在阈值响应。利用叶片气体交换对干旱的响应特征来量化作物水分胁迫的严重程度具有重要意义。然而,目前尚不清楚叶气体交换是否可作为预测作物最终产量对干旱响应的可靠指标,这影响了在作物生长期利用生理指标监测农业干旱的准确性。本研究通过一系列土壤干旱试验确定了春小麦叶气体交换对干旱的响应阈值,并利用阈值特征构建了春小麦生长模型并对其进行参数化。春小麦设计了五种灌溉处理(230 毫米、165 毫米、115 毫米、50 毫米和 0 毫米补充灌溉)。利用作物模型模拟和分析了粮食产量对干旱的阈值响应特征,并将其与春小麦叶片气体交换指数的阈值进行了比较。结果表明,春小麦气孔导度对土壤可透水分量的响应阈值为 0.5,大于蒸腾速率和净光合速率的响应阈值 0.4。以净光合速率对土壤可吸收水分的响应阈值为参数化的春小麦生长模型准确地模拟了春小麦的地上生物量和最终产量。春小麦最终产量对可吸收土壤水分的响应阈值明显小于叶片气体交换参数对可吸收土壤水分的响应阈值(0.18 对 0.4)。这说明在作物生长期利用叶气体交换指数等生理指标来判断农业干旱严重程度和反映干旱造成的作物最终减产存在一定的问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Can Leaf Gas Exchange Serve as a Reliable Indicator for Predicting Spring Wheat Yield in Response to Drought?

Leaf gas exchange plays a critical role in determining crop final yield, and there is a threshold response of leaf gas exchange to water stress. It is of great significance to quantify crop water stress severity by using the response characteristics of leaf gas exchange to drought. However, it is currently unclear whether leaf gas exchange serve as a reliable indicator for predicting crop final yield in response to drought, which affects the accuracy of monitoring agricultural drought using physiological indicators during the crop growing season. This study determined the response threshold of leaf gas exchange to drought for spring wheat through a serials of soil dry-down experiments and used the threshold characteristics to construct and parameterize a spring wheat growth model. Spring wheat were designed to be irrigated with five treatments (with supplementary irrigation at 230 mm, 165 mm, 115 mm, 50 mm and 0 mm). Crop model were used to simulate and analyze the threshold response characteristics of grain yield to drought and compare them to the thresholds of leaf gas exchange indices for spring wheat. The results showed that the response threshold of stomatal conductance of spring wheat to fraction of transpirable soil water was 0.5, which was greater than that of transpiration rate and net photosynthetic rate, 0.4. The parameterized spring wheat growth model with the response threshold of net photosynthetic rate to fraction of transpirable soil water accurately simulated the aboveground biomass and final yield of spring wheat. The response threshold of spring wheat final yield to fraction of transpirable soil water was significantly smaller than that of leaf gas exchange parameters to fraction of transpirable soil water (0.18 versus 0.4). This indicates that there are certain problems in using physiological indicator such as leaf gas exchange indices during crop growing season to determine the agricultural drought severity and reflect the reduction of final crop yields due to drought.

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来源期刊
CiteScore
5.30
自引率
4.00%
发文量
46
审稿时长
6 months
期刊介绍: IJPP publishes original research papers and review papers related to physiology, ecology and production of field crops and forages at field, farm and landscape level. Preferred topics are: (1) yield gap in cropping systems: estimation, causes and closing measures, (2) ecological intensification of plant production, (3) improvement of water and nutrients management in plant production systems, (4) environmental impact of plant production, (5) climate change and plant production, and (6) responses of plant communities to extreme weather conditions. Please note that IJPP does not publish papers with a background in genetics and plant breeding, plant molecular biology, plant biotechnology, as well as soil science, meteorology, product process and post-harvest management unless they are strongly related to plant production under field conditions. Papers based on limited data or of local importance, and results from routine experiments will not normally be considered for publication. Field experiments should include at least two years and/or two environments. Papers on plants other than field crops and forages, and papers based on controlled-environment experiments will not be considered.
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