机械收获方式及籽粒含水率对玉米收获质量的影响
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国家重点研发计划"粮食丰产增效科技创新"重点专项(2017YFD0301005);山东省自然科学基金项目(ZR2018BEE021)


Effect of harvesting methods and grain moisture content on maize harvesting quality
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    摘要:

    该文选用13个玉米品种为研究对象,通过田间试验系统研究了常规玉米栽培模式下延缓收获期间玉米含水率的变化规律,分析了果穗收获和籽粒收获2种收获方式对玉米收获损失率、籽粒破碎率和含杂率的影响,初步研究了不同机械收获方式及籽粒含水率对不同品种玉米收获质量的影响,建立了含水率与籽粒含杂率之间的数学函数。结果表明,延缓收获期间不同品种玉米的含水率均有显著的降低(P<0.05),但其变化率存在差异。同期进行的果穗收获和籽粒收获2种收获方式的收获总损失率之间没有显著差异(P>0.05),机械收获方式仅显著影响落粒率(P<0.05)。延缓收获使落粒率和落穗率都显著下降(P<0.05)。采用果穗收获方式时,籽粒含水率与各损失率之间不存在显著相关性;而籽粒收获时,籽粒含水率与落粒率、总损失率、破碎率和含杂率之间存在显著相关性。延缓进行籽粒收获后,籽粒含杂率均值为1.32%,总损失率均值为1.74%,均低于国标要求;而平均籽粒破碎率达13.23%,高于国标要求。含杂率与籽粒含水率之间满足线性关系,根据二者之间关系预测可知,籽粒含水率低于32.40%的收获就可以保证含杂率满足国标要求。该研究可为玉米籽粒收获技术的研究与推广提供数据支撑和科学依据。

    Abstract:

    In China, maize crops are harvested about 35.93% underplanting area and 39.16% share of the total yield. Maize grains are the most significant concerns during the harvesting stage for the further process towards foods yield for the designing of the harvester, thresher, handling, processing, and storage equipment. The maize grain harvesting quality is affected by maize variety characteristics, dehydration rate after physiological maturity and grain moisture content, etc. Therefore, the harvesting area of maize grain harvesting only accounts for 5%-6% of the total maize production area though maize grain harvesting technology is the key technology of modern production of maize and a developing direction of maize harvesting. Therefore, the present research was planned to analyze the effect of harvesting techniques (maize harvesting and maize grain harvesting), moisture content (17.62% to 32.12 %) and thirteen maize grains varieties (ZD958, XYu335, DH605, DH618, NH101, WK702, JD29, LD818, LD9066, XY218, LD9088, LD9151, LD2016) on maize harvesting quality. Further, cluster falling rate, grain falling rate, grain broken rate and rate of chips were assessed during harvesting time. The results revealed that the grain moisture content of maize varieties decreased significantly (P<0.05) from 32.12% to 17.62% towards the normal and delayed harvesting periods, but the change rates of grain moisture content among maize varieties were different. The total harvesting loss rates were 2.59% and 3.28% observed towards maize harvesting and maize grain harvesting, and there was no significant difference (P>0.05) found between maize harvesting and maize grain harvesting. The cluster falling rate occupied 75.28% (maize harvesting) and 54.53% (maize grain harvesting) of total loss rate. Furthermore, the mechanical harvesting method significantly (P<0.05) affected grain falling rate during the normal harvesting time, grain falling rate and cluster falling rate decreased significantly (P<0.05) during the delayed harvesting time. There was no significant correlation between grain moisture content and loss rates (including total loss rate, cluster falling rate and grain falling rate) when maize harvesting was adapted. As for maize grain harvesting, there was significant correlations between grain moisture content and grain falling rate, total loss rate, broken rate, rate of chips. Further, the average rate of chips, total loss rate and broken rate (1.32%, 1.74%, and 13.23%) were found under the delayed harvesting period. Thus, results revealed that the average rate of chips and total loss rate was observed not higher than the national standard requirements of 3% and 5%, whereas the average broken rate was observed higher than the national standard requirement of 5%. The linear relationship between the rate of chips and the grain moisture content was developed. According to the relationship, the rate of chips can meet the national requirement if the grain moisture content rate is less than 32.40%. Therefore, it is concluded that the delayed harvesting period would minmize the losses of harvesting and provide a guideline to farmers for harvesting the grains on the appropriate time. This study can provide data support and scientific basis for the research and popularization of maize grain harvesting technology.

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方会敏,牛萌萌,史嵩,刘虎,周进.机械收获方式及籽粒含水率对玉米收获质量的影响[J].农业工程学报,2019,35(18):11-18. DOI:10.11975/j. issn.1002-6819.2019.18.002

Fang Huimin, Niu Mengmeng, Shi Song, Liu Hu, Zhou Jin. Effect of harvesting methods and grain moisture content on maize harvesting quality[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2019,35(18):11-18. DOI:10.11975/j. issn.1002-6819.2019.18.002

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  • 收稿日期:2018-07-18
  • 最后修改日期:2018-08-20
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  • 在线发布日期: 2019-10-12
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