Kojo Atta Aikins , Diogenes L. Antille , Troy A. Jensen , John Blackwell
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This article critically examines the effectiveness of residue management units of no-tillage sowing equipment in maintaining appropriate levels (e.g., ≥30%) of residue cover on sown rows, preventing the interference of such residue with opening and closing of furrows (blockage), enabling the seed to be correctly placed (depth control, seed-spacing), and by discussing the influence of unit's design on fuel consumption and power (draft) requirements. This review confirmed that smooth disc coulters, finger row cleaners, and their combinations can retain more than the minimum residue cover recommended for no-tillage systems. Power-assisted units can operate with surface residue up to about 9000 kg ha</span></span><sup>−1</sup> without blockage, but their adoption in developing countries is restricted by relatively high fuel consumption. Future evaluations of residue management units need to be conducted under controlled conditions. Such work will enable parametrization of suitable models (DEM) and will advance the understanding of soil-machine-residue interactions to further assist the design of no-tillage equipment. Priority research areas are presented and discussed.</p></div>","PeriodicalId":38965,"journal":{"name":"Engineering in Agriculture, Environment and Food","volume":"12 2","pages":"Pages 181-190"},"PeriodicalIF":0.0000,"publicationDate":"2019-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/j.eaef.2018.12.006","citationCount":"24","resultStr":"{\"title\":\"Performance comparison of residue management units of no-tillage sowing systems: A review\",\"authors\":\"Kojo Atta Aikins , Diogenes L. Antille , Troy A. 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This article critically examines the effectiveness of residue management units of no-tillage sowing equipment in maintaining appropriate levels (e.g., ≥30%) of residue cover on sown rows, preventing the interference of such residue with opening and closing of furrows (blockage), enabling the seed to be correctly placed (depth control, seed-spacing), and by discussing the influence of unit's design on fuel consumption and power (draft) requirements. This review confirmed that smooth disc coulters, finger row cleaners, and their combinations can retain more than the minimum residue cover recommended for no-tillage systems. Power-assisted units can operate with surface residue up to about 9000 kg ha</span></span><sup>−1</sup> without blockage, but their adoption in developing countries is restricted by relatively high fuel consumption. Future evaluations of residue management units need to be conducted under controlled conditions. Such work will enable parametrization of suitable models (DEM) and will advance the understanding of soil-machine-residue interactions to further assist the design of no-tillage equipment. 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引用次数: 24
摘要
适当的残留物管理是免耕制度下成功种植作物的关键因素。在设计播种机残茬管理单元时,根据土壤类型、土壤条件和土壤表面残茬特性,正确选择机械设置,实现犁沟开合满意,播种深度和播种间距均匀。这种装置或设置的选择不当可能导致定时开沟器堵塞,当使用圆盘开沟器时,会产生累积的残留物和发夹。这可能会影响种子与土壤的接触,导致幼苗出苗不均匀或次等立地,降低作物的产量潜力。本文通过讨论装置设计对燃料消耗和功率(draft)要求的影响,严格检验了免耕播种设备的残留物管理单元在保持播种行适当水平(例如≥30%)的残留物覆盖,防止这种残留物干扰犁沟(堵塞),使种子能够正确放置(深度控制,种子间距)方面的有效性。这篇综述证实,光滑圆盘清洗机,手指行清洗机及其组合可以保留超过免耕系统推荐的最小残留覆盖。动力辅助装置可以在高达约9000 kg ha−1的表面残留物下运行而不会堵塞,但在发展中国家的采用受到相对较高的燃料消耗的限制。今后对残留物管理单位的评价需要在受控条件下进行。这样的工作将使合适的模型(DEM)参数化,并将促进对土壤-机器-残留物相互作用的理解,从而进一步协助免耕设备的设计。提出并讨论了重点研究领域。
Performance comparison of residue management units of no-tillage sowing systems: A review
Appropriate residue management is a key factor underlying successful crop establishment in no-tillage systems. Satisfactory opening and closing of furrows, and uniform seeding depth and seed-spacing are achieved when the design of the residue management unit of the seeder, and machinery settings are correctly selected for the soil type, soil condition, and soil surface residue characteristics. Improper selection of such units or settings can result in blockage of tine furrow openers, with accumulated residues and hairpinning when disc openers are used. This can affect seed-soil contact and result in uneven seedling emergence or sub-optimal plant stand, and reduce crop yield potential. This article critically examines the effectiveness of residue management units of no-tillage sowing equipment in maintaining appropriate levels (e.g., ≥30%) of residue cover on sown rows, preventing the interference of such residue with opening and closing of furrows (blockage), enabling the seed to be correctly placed (depth control, seed-spacing), and by discussing the influence of unit's design on fuel consumption and power (draft) requirements. This review confirmed that smooth disc coulters, finger row cleaners, and their combinations can retain more than the minimum residue cover recommended for no-tillage systems. Power-assisted units can operate with surface residue up to about 9000 kg ha−1 without blockage, but their adoption in developing countries is restricted by relatively high fuel consumption. Future evaluations of residue management units need to be conducted under controlled conditions. Such work will enable parametrization of suitable models (DEM) and will advance the understanding of soil-machine-residue interactions to further assist the design of no-tillage equipment. Priority research areas are presented and discussed.
期刊介绍:
Engineering in Agriculture, Environment and Food (EAEF) is devoted to the advancement and dissemination of scientific and technical knowledge concerning agricultural machinery, tillage, terramechanics, precision farming, agricultural instrumentation, sensors, bio-robotics, systems automation, processing of agricultural products and foods, quality evaluation and food safety, waste treatment and management, environmental control, energy utilization agricultural systems engineering, bio-informatics, computer simulation, computational mechanics, farm work systems and mechanized cropping. It is an international English E-journal published and distributed by the Asian Agricultural and Biological Engineering Association (AABEA). Authors should submit the manuscript file written by MS Word through a web site. The manuscript must be approved by the author''s organization prior to submission if required. Contact the societies which you belong to, if you have any question on manuscript submission or on the Journal EAEF.