间作玉米“源-库”特性对玉米花生间作CO2浓度升高和施磷量的响应

Q3 Environmental Science 应用生态学报 Pub Date : 2024-11-01 DOI:10.13287/j.1001-9332.202411.010
Chen-Xu Zhu, Bin Zheng, Xiao-Xiao Wang, Jiang-Tao Wang, Han Liu, Di Ding, Ling Liu, Guo-Zhan Fu, Nian-Yuan Jiao
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引用次数: 0

摘要

本研究旨在阐明提高CO2浓度(e[CO2])对玉米花生间作体系玉米“源-库”特性的影响。研究了0 (P0)和180 kg P2O5·hm-2(P180)条件下e[CO2]对玉米叶片“源”数量、气体交换参数、种群“源”生产力、“库”容量、粒叶比、产量和间作优势的影响。结果表明:与环境CO2浓度(a[CO2])相比,e[CO2]增加了间作玉米叶片“源”数量和“源”活性,显著提高了种群“源”生产力;蚕丝最大数量、实际种子数量和有效“库”容量分别提高8.0% ~ 9.3%、10.0% ~ 13.4%和10.4% ~ 20.8%。同时,籽粒平均干物质积累速率显著提高10.7% ~ 50.4%。粒叶比和收获指数分别提高3.3% ~ 7.4%和2.4% ~ 7.9%。增产10.8% ~ 48.7%,间作优势20.4% ~ 102.7%。在e[CO2]条件下,施磷可以进一步改善“源库”关系,提高玉米产量,增加间作优势。综上所述,e[CO2]提高了间作玉米的“源”性能和“库”容量,促进籽粒灌浆,调节“源-库”关系,提高产量,从而增加间作优势。
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Response of intercropped maize "source-sink" characteristics to elevated CO2 concentration and phospho-rus application in maize intercropping with peanut system.

This study aimed to clarify the impacts of elevating CO2 concentration (e[CO2]) on maize "source-sink" characteristics in maize intercropping with peanut system. We investigated the impacts of e[CO2] on leaf "source" quantity, gas exchange parameters, population "source" productivity, "sink" capacity, grain to leaf ratio, yield and intercropping advantage of maize under 0 (P0) and 180 kg P2O5·hm-2(P180). The results showed that compared with ambient CO2 concentration (a[CO2]), e[CO2] augmented leaf "source" quantity and "source" activity of intercropping maize, and significantly increased productivity of population "source". The silk maximum number, actual seed number and effective "sink" capacity were increased by 8.0%-9.3%, 10.0%-13.4%, and 10.4%-20.8%, respectively. Concurrently, the average dry matter accumulation rate of grains was significantly increased by 10.7%-50.4%. The grain to leaf ratio and harvest index were increased by 3.3%-7.4% and 2.4%-7.9%, respectively. The yield and intercropping advantage were increased by 10.8%-48.7% and 20.4%-102.7%, respectively. Under e[CO2], phosphorus application could further improve the "source-sink" relationship and maize yield, and increase the intercropping advantage. In summary, e[CO2] enhanced the "source" performance and "sink" capacity of intercropping maize, promoted grain filling, regulated the "source-sink" relationship, enhanced yield, and thus increased the intercropping advantage.

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应用生态学报
应用生态学报 Environmental Science-Ecology
CiteScore
2.50
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0.00%
发文量
11393
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