Soil moisture and nutrient mobility influence nitrogen partitioning and translocation in maize (Zea mays L.) under various water-nitrogen regimes

农学 氮气 染色体易位 营养物 生物量(生态学) 水分 作物 化学 环境科学 禾本科 含水量 作物产量 产量(工程) 土壤水分 动物科学 人类受精 营养管理 氮气循环 肥料 植物营养 野外试验 土层 土工试验 生物量分配 氮肥 磁场容量 土壤肥力 空间变异性
作者
Yuxin Chi,Shahid Ali,Jiahui Lin,Li Yang,Xunbo Zhou
出处
期刊:European Journal of Agronomy [Elsevier BV]
卷期号:173: 127914-127914 被引量:1
标识
DOI:10.1016/j.eja.2025.127914
摘要

Optimizing water and nitrogen (N) management is crucial for improving crop yields, yet the soil water dynamics and nutrient mobility on N partitioning and yield information remain insufficiently understood. To address this gap, field experiments were conducted from 2020 to 2022 in the western Songnen plain (SARs), a cold semi-arid region of northern China. The study examined three soil moisture levels (40 %, 60 %, and 80 % of field capacity) and four N fertilization rates (0, 100, 200, and 300 kg N ha −1 ) to evaluate their impacts on soil nutrient dynamics (SNs), soil water utilization (SWU), soil enzyme activities (SEAs), N accumulation (NA), N translocation (NT), N utilization (NU), biomass accumulation (BA), and maize yield. Results showed that maintaining soil moisture at 80 % field capacity (W3) significantly enhanced SWU and partitioning, particularly under the N200 treatment. Specifically, W3-N200 increased SWU by 4.15–26.13 %, SNs by 5.06–35.49 %, and SEAs by 6.57–38.78 % compared with W1 (40 %) and W2 (60 %). Regression analysis indicated that W3 advanced the time to peak BA rate by 11.76–17.85 days and increased maximum biomass (by 2.93–4.16 MG ha −1 ), peak BA rate (by 0.09–0.18 MG ha −1 d −1 ), and average BA rate (by 0.04–0.06 MG ha −1 d −1 ). Under N200, structural equation modeling (SEM) revealed increases in NA (13.95–34.65 %), NT and NU (3.14–27.49 %), resulting in a 4.99–28.81 % higher BA and 4.44–10.73 % greater yield. The W3-N200 treatment achieved the highest grain yield (10437 kg ha −1 ), with superior water use efficiency (38.09 %) and N use efficiency (NUE; 40.38 %). Optimal water and N management regulated SNs and SEAs, which in turn improved N transformation and BA, ultimately increased maize yield. These findings provide valuable guidance for sustainable water and nutrient management in SARs agricultural regions. • Maximum water and nitrogen utilization efficiency were higher under the W3-N200 treatment. • W3 reduced the Tmax while enhancing growth parameters such as Wmax , Gmax , and Gmean . • Optimal water-N management regulated SNs and SEAs, and improved N transformation and BA. • W3-N200 increased soil nutrient availability and its transport to above-ground parts.
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