Modeling the Effects of Crop Rotation and Tillage on Sugarbeet Yield and Soil Nitrate Using RZWQM2

IF 1.4 4区农林科学 Q3 AGRICULTURAL ENGINEERING

Transactions of the ASABE Pub Date : 2021-01-01 DOI:10.13031/TRANS.13752

M. J. Anar, Zhulu Lin, Liwang Ma, A. Chatterjee

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引用次数: 1

Abstract

HighlightsFour crop growth modules in RZWQM2 were calibrated for four sugarbeet rotation sequences.Sugarbeet following wheat had a slightly higher yield (3% to 6.5%).Moldboard plow increased sugarbeet yield by 1% to 2%.The difference in N losses under different crop rotations and tillage operations was negligible.Abstract. Sugarbeet (Beta vulgaris) is considered to be one of the most viable alternatives to corn for biofuel production as it may be qualified as the feedstock for advanced biofuels (reducing greenhouse gas emission by 50%) under the Energy Independence and Security Act (EISA) of 2007. Because sugarbeet production is affected by crop rotation and tillage through optimal use of soil water and nutrients, simulation of these effects will help in making proper management decisions. In this study, the CSM-CERES-Beet, CSM-CERES-Maize, CROPSIM-Wheat, and CROPGRO-Soybean models included in the RZWQM2 were calibrated against experimental field data of crop yield, soil water, and soil nitrate from the North Dakota State University Carrington Research Extension Center from 2014 to 2016. The models performed reasonably well in simulating crop yield, soil water, and nitrate (rRMSE = 0.055 to 2.773, d = 0.541 to 0.997). Simulation results identified a non-significant effect of crop rotation on sugarbeet yield, although sugarbeets following wheat resulted in 3% to 6.5% higher yields compared to other crops. Net mineralization and N uptake rates were slightly higher when sugarbeets followed wheat compared to the other crops. Seasonal N and water mass balances also showed lower N and water stresses when sugarbeets followed wheat. The effects of tillage operations on sugarbeet yield were also non-significant. The difference in the N losses to runoff and drainage from the sugarbeet fields under different crop rotations and tillage operations was negligible. As sugarbeet production may be expanded into nontraditional planting areas in the Red River Valley due to potential demand for biofuel production, our findings will help to assess the associated environmental impacts and identify suitable crop rotations and management scenarios in the region. Keywords: Biofuel, Crop rotation, RZWQM2, Sugarbeet, Tillage.

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利用RZWQM2模拟轮作耕作对甜菜产量和土壤硝态氮的影响

对RZWQM2的4个作物生长模块进行了4个甜菜轮作序列的标定。继小麦之后，甜菜产量略高(3% ~ 6.5%)。板犁使甜菜产量提高1% ~ 2%。不同轮作和耕作方式下氮素损失的差异可以忽略不计。甜菜(Beta vulgaris)被认为是生物燃料生产中玉米最可行的替代品之一，因为根据2007年的《能源独立与安全法》(EISA)，它可能符合先进生物燃料(减少50%的温室气体排放)的原料资格。由于作物轮作和耕作通过优化利用土壤水分和养分影响甜菜生产，模拟这些影响将有助于作出适当的管理决策。本研究利用2014 - 2016年北达科他州立大学卡灵顿研究推广中心作物产量、土壤水分和土壤硝酸盐的试验田数据，对RZWQM2中的csm - ceres -甜菜、csm - ceres -玉米、cropsim -小麦和cropgro -大豆模型进行了校准。模型对作物产量、土壤水分和硝酸盐的模拟效果较好(rRMSE = 0.055 ~ 2.773, d = 0.541 ~ 0.997)。模拟结果表明，轮作对甜菜产量的影响不显著，尽管小麦之后的甜菜产量比其他作物高出3%至6.5%。与其他作物相比，甜菜紧跟小麦的净矿化率和氮吸收率略高。季节氮素和水分平衡也表现出较低的氮素和水分胁迫。耕作方式对甜菜产量的影响也不显著。不同轮作和耕作方式下甜菜田径流和排水量的氮损失差异可以忽略不计。由于生物燃料生产的潜在需求，红河流域的甜菜生产可能会扩展到非传统种植区，我们的研究结果将有助于评估相关的环境影响，并确定该地区合适的作物轮作和管理方案。关键词:生物燃料，轮作，RZWQM2，甜菜，耕作

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来源期刊

Transactions of the ASABE AGRICULTURAL ENGINEERING-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： This peer-reviewed journal publishes research that advances the engineering of agricultural, food, and biological systems. Submissions must include original data, analysis or design, or synthesis of existing information; research information for the improvement of education, design, construction, or manufacturing practice; or significant and convincing evidence that confirms and strengthens the findings of others or that revises ideas or challenges accepted theory.