Optimizing planting density and post-silking growth degree days effectively accelerates summer maize grain dehydration

IF 4.5 1区农林科学 Q1 AGRONOMY

European Journal of Agronomy Pub Date : 2025-03-11 DOI:10.1016/j.eja.2025.127584

Jiyu Zhao, Yuqi Xue, Sher Alam, Peng Liu, Baizhao Ren, Bin Zhao, Ningning Yu, Jiwang Zhang

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Abstract

The efficacy of mechanical maize grain harvesting is significantly enhanced by reducing the grain moisture content at the stage of physiological maturity. Nonetheless, the determinants affecting grain moisture content during this phase remain inadequately explained. Field experiments were conducted from 2021 to 2023, including planting density experiment and sowing date experiment. The preeminent contribution to the grain dehydration rate was identified as the husk’s transpiration rate, succeeded by the leaf transpiration rate, culminating in a synergistic contribution ratio of 53.1 %. Excess water in the ear was capable of being redirected back into the ear-pedicel, with the majority of it being lost to the air through the husk, and only a small portion being returned to the plant stem. The grain moisture content was significantly affected by growing degree days (GDDs) at the grain filling stage. An escalation in planting density precipitated variegated performances among the two hybrids: for each increment of 100℃ d in GDDs, the moisture content variation for DH187 across densities ranged from between 6.3 % and 6.9 %, contrasting with a narrower range of 6.0–6.2 % for DH605. Grain moisture content was jointly regulated by the moisture content of both the husk and leaves, as well as the rate of water loss from the grain surface. Higher GDDs from silking to the physiological maturity stage, a larger ear angle, and increased looseness of grain arrangement likely accelerated the rate of water loss from the grain surface, thereby reducing the grain moisture content at physiological maturity.

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优化种植密度和出丝后生长期能有效促进夏玉米籽粒脱水

在玉米生理成熟阶段，通过降低籽粒含水量，可以显著提高玉米机械收割的效果。尽管如此，在这一阶段影响谷物水分含量的决定因素仍然没有得到充分的解释。田间试验于2021 - 2023年进行，包括种植密度试验和播期试验。谷壳蒸腾速率对谷物脱水速率的贡献最大，其次是叶片蒸腾速率，其协同贡献率达到53.1 %。穗内多余的水分能够被重新导向到穗花梗中，其中大部分通过谷壳流失到空气中，只有一小部分返回到植物茎中。灌浆期籽粒含水量受生育期天数影响显著。随着种植密度的增加，两个杂交种的表现呈现杂色：GDDs每增加100℃d， DH187在不同密度下的水分含量变化范围在6.3 % ~ 6.9 %之间，而DH605则在6.0 ~ 6.2 %之间。籽粒含水量受谷壳和叶片含水量以及籽粒表面失水速率的共同调控。吐丝至生理成熟期较高的gds、较大的穗角、籽粒排列疏松程度的增加可能加快了籽粒表面水分的流失率，从而降低了生理成熟期籽粒含水量。

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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来源期刊

European Journal of Agronomy 农林科学-农艺学

CiteScore

8.30

自引率

7.70%

发文量

187

审稿时长

4.5 months

期刊介绍： The European Journal of Agronomy, the official journal of the European Society for Agronomy, publishes original research papers reporting experimental and theoretical contributions to field-based agronomy and crop science. The journal will consider research at the field level for agricultural, horticultural and tree crops, that uses comprehensive and explanatory approaches. The EJA covers the following topics: crop physiology crop production and management including irrigation, fertilization and soil management agroclimatology and modelling plant-soil relationships crop quality and post-harvest physiology farming and cropping systems agroecosystems and the environment crop-weed interactions and management organic farming horticultural crops papers from the European Society for Agronomy bi-annual meetings In determining the suitability of submitted articles for publication, particular scrutiny is placed on the degree of novelty and significance of the research and the extent to which it adds to existing knowledge in agronomy.