作物学报 ›› 2020, Vol. 46 ›› Issue (01): 74-83.doi: 10.3724/SP.J.1006.2020.93026
赵波1,李小龙1,周茂林2,宋碧3,雷恩4,李钟5,吴雅薇1,袁继超1,孔凡磊1,*()
ZHAO Bo1,LI Xiao-Long1,ZHOU Mao-Lin2,SONG Bi3,LEI En4,LI Zhong5,WU Ya-Wei1,YUAN Ji-Chao1,KONG Fan-Lei1,*()
摘要:
籽粒破碎率高是西南玉米机械粒收技术发展和应用的主要限制因素。明确当前西南玉米机械粒收籽粒破碎率现状, 研究其主要影响因素, 对推动西南玉米机械粒收的发展具有重要意义。利用2017—2018年在西南区开展的多点多品种系列粒收试验获得的788组籽粒破碎率样本数据, 分析了西南玉米机械粒收籽粒破碎率现状, 并于2018年采用同一机型、同一操作人员开展多品种、大跨度多收期试验, 调查不同收获时期籽粒破碎率、含水率、力学强度变化, 分析籽粒含水率、力学强度与破碎率的关系。结果表明, 当前西南玉米机械粒收籽粒破碎率范围为0.54%~42.72%, 平均值为8.34%。随机械粒收时期推迟, 籽粒含水率下降, 籽粒力学强度增加, 破碎率先降低后逐渐升高。破碎率(y)与籽粒含水率(x)间的关系符合y = 0.0329x 2-1.3328x+15.529 (R 2= 0.5467 **)方程, 在籽粒含水率为20.26%时破碎率最低, 破碎率≤5%的籽粒含水率范围为10.76%~29.76%; 破碎率(y)与籽粒立面(x立面)和侧面(x侧面)压碎强度的关系符合y = 0.0006x立面 2-0.2692x立面+32.7030 (R 2= 0.3138 **)和y = 0.0021x侧面 2-0.6092x侧面+46.979 (R 2= 0.3790 **)方程, 当籽粒立面和侧面压碎强度为224.33 N和145.05 N时破碎率最低。籽粒压碎强度与含水率呈极显著负相关。随收获时期推迟, 籽粒含水率下降导致其力学强度的改变是影响破碎率变化的主要原因, 通过选育和选用后期立秆能力强、籽粒脱水快的品种, 当籽粒含水率降至28%以下进行机械粒收是降低西南玉米机械粒收籽粒破碎率的重要举措。
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