Assessing Soil Water and Nitrogen Movement Using EU-Rotate_N Model for Greenhouse Tomato Cultivation in the Region with Shallow Water Table

IF 3.4 3区 农林科学 Q2 ENVIRONMENTAL SCIENCES Journal of Soil Science and Plant Nutrition Pub Date : 2024-07-05 DOI:10.1007/s42729-024-01914-7
Ikram Ullah, Zhuangzhuang Cao, Xu Xiangying, Yudan Wang, Muhammad Saif Ullah, Aitazaz Ahsan Farooque, Minmin Miao
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Abstract

This study is conducted to evaluate the modified EU-Rotate_N model for accurate estimation of soil water, nitrogen dynamics, and crop yield, which is crucial for maintaining yields while minimizing root zone contamination. This study utilizes the modified EU-Rotate_N model to simulate nitrate nitrogen (NO3-N) and soil water content (SWC) at various depths in a region with a high water table near the Yangtze River, focusing on tomato crops under different nitrogen (N) treatments for precise N management in a greenhouse. Comparing the modified model with the original, it demonstrates superior performance in simulating SWC and NO3-N at different depths. The modified model exhibits increased root mean square error (RMSE) values (9.48%, 6.21%, 15.82%), Nash–Sutcliffe efficiency (NSE) values (9.39%, 27.74%, 46.14%), and index of agreement (d) values (1.34%, 1.22%, 1.91%) at three depths of soil layer with a 10 cm increment from 0 to 30 cm under all nitrogen treatments. Similarly, the modified model enhances soil nitrate content simulation, showing increased RMSE (13.72%, 7.48%, 9.99%), NSE values (9.93%, 19.33%, 13.75%), and d values (1.75%, 1.75%, 1.52%) at three soil depths. Furthermore, the modified model aligns well with measured values in simulating tomato yield, despite a slight insignificant increase in yield. This study reveals the effectiveness of the modified EU-Rotate_N model in assessing SWC, NO3-N, and crop yield in Jiangsu Province, particularly in areas with a high water table. The outcomes highlight the applicability of the model for analyzing and evaluating field management techniques in regions characterized by an elevated water table.

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利用 EU-Rotate_N 模型评估地下水位较浅地区温室番茄种植中土壤水分和氮素的移动情况
本研究旨在评估改进后的 EU-Rotate_N 模型对土壤水分、氮素动态和作物产量的准确估算,这对保持产量同时最大限度地减少根区污染至关重要。本研究利用修改后的 EU-Rotate_N 模型模拟长江附近地下水位较高地区不同深度的硝态氮(NO3--N)和土壤含水量(SWC),重点研究不同氮肥处理下的番茄作物,以实现温室中的精确氮肥管理。修改后的模型与原模型相比,在模拟不同深度的 SWC 和 NO3-N 方面表现出更优越的性能。在所有氮处理条件下,修改后的模型在土壤层的三个深度(从 0 厘米到 30 厘米,递增 10 厘米)显示出均方根误差 (RMSE) 值(9.48%、6.21%、15.82%)、纳什-苏克里夫效率 (NSE) 值(9.39%、27.74%、46.14%)和一致指数 (d) 值(1.34%、1.22%、1.91%)的增加。同样,修改后的模型增强了土壤硝酸盐含量模拟,在三个土壤深度显示出增加的 RMSE(13.72%、7.48%、9.99%)、NSE 值(9.93%、19.33%、13.75%)和 d 值(1.75%、1.75%、1.52%)。此外,修改后的模型在模拟番茄产量时与测量值非常吻合,尽管产量略有微小增加。本研究揭示了改进后的 EU-Rotate_N 模型在评估江苏省的 SWC、NO3--N 和作物产量方面的有效性,尤其是在地下水位较高的地区。研究结果突出表明,该模型适用于分析和评估地下水位较高地区的田间管理技术。
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来源期刊
Journal of Soil Science and Plant Nutrition
Journal of Soil Science and Plant Nutrition Agricultural and Biological Sciences-Soil Science
CiteScore
5.90
自引率
10.30%
发文量
331
审稿时长
9 months
期刊介绍: The Journal of Soil Science and Plant Nutrition is an international, peer reviewed journal devoted to publishing original research findings in the areas of soil science, plant nutrition, agriculture and environmental science. Soil sciences submissions may cover physics, chemistry, biology, microbiology, mineralogy, ecology, pedology, soil classification and amelioration. Plant nutrition and agriculture submissions may include plant production, physiology and metabolism of plants, plant ecology, diversity and sustainability of agricultural systems, organic and inorganic fertilization in relation to their impact on yields, quality of plants and ecological systems, and agroecosystems studies. Submissions covering soil degradation, environmental pollution, nature conservation, and environmental protection are also welcome. The journal considers for publication original research articles, technical notes, short communication, and reviews (both voluntary and by invitation), and letters to the editor.
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