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基于旱涝急转的大豆生长发育响应规律分析
引用本文:袁宏伟,曹秀清. 基于旱涝急转的大豆生长发育响应规律分析[J]. 江淮水利科技, 2022, 17(1): 1-5. DOI: 10.20011/j.cnki.JHWR.202201001
作者姓名:袁宏伟  曹秀清
作者单位:安徽省·水利部淮河水利委员会水利科学研究院,安徽 合肥 230088;水利水资源安徽省重点实验室,安徽 蚌埠 233000
基金项目:国家重点研发计划(2018YFC1508306), 国家自然科学基金项目(51409002)
摘    要:为分析大豆生长发育和产量对旱涝急转交互作用的响应规律,开展了花荚期和鼓粒成熟期单涝(渍)、单旱和旱涝急转等不同水分处理的对比试验.分析了不同水分处理下大豆叶片叶绿素、植株高度的变化响应规律及最终产量损失规律,分析了旱涝交互作用对其生长发育的影响效应,初步揭示了基于旱涝急转的大豆灾损规律.结果表明:花荚期和鼓粒期旱涝急转...

关 键 词:大豆  旱涝急转  响应规律  削减效应
收稿时间:2022-01-21

Analysis on response law of soybean growth and development based on drought-flood abrupt alternation
YUAN Hong-wei,CAO Xiu-qing. Analysis on response law of soybean growth and development based on drought-flood abrupt alternation[J]. Jianghuai Water Resources Science and Technology, 2022, 17(1): 1-5. DOI: 10.20011/j.cnki.JHWR.202201001
Authors:YUAN Hong-wei  CAO Xiu-qing
Abstract:In order to reveal the response law of soybean growth and yield to the interaction of drought-flood abrupt transition, comparative experiments of different water treatments such as single-flood, single-drought, and drought-flood abrupt transition were carried out at the flowering-podding stage and ripening stage. The change response law of soybean leaf chlorophyll and plant height and the law of final yield loss under different water treatments were analyzed, and the effect of drought-flood interaction on growth and development was analyzed, and the law of soybean disaster damage under drought-flood abrupt change was preliminarily revealed. The results showed that the inhibitory effect of drought-flood abrupt change on soybean growth and development and the resulting yield reduction at the flowering-podding stage and seed drum stage were significantly greater than those in the singleflood and single-drought groups; compared with the single-flood and single-drought groups, the stress caused by soybean growth and development and yield formation has obvious combined reduction effect; the reduction of soybean pod number is the main factor of yield reduction caused by water stress at flowering-podding stage, while water stress at seed drum stage leads to reduction of soybean pod number and weight of 100 seeds. Compared with the drum stage, the growth and development of the floweringpodding stage were more sensitive to water stress. In actual agricultural production, if drought events have occurred in the early stage of soybean flower pod stage and seed drum stage, waterlogging events should be avoided as much as possible in the later stage. The research results can provide basic data support for exploring the disaster damage mechanism of soybeans in the Huaibei Plain, and formulating reasonable regional disaster prevention and mitigation measures for drought-flood abrupt alternation.
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