玉米籽粒脱水速率研究进展
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摘要
玉米籽粒脱水速率是决定玉米收获时籽粒含水量的主要因素之一。全面系统深入研究玉米籽粒脱水速率这个关键性状,能够有效提高玉米机收籽粒育种效率,迅速加快中国玉米生产全程机械化步伐。为此,本研究从玉米籽粒脱水速率测定方法、玉米籽粒脱水速率与其他农艺性状关系、遗传改良及其遗传机制研究等方面,探讨了近年来国内外玉米籽粒脱水速率研究进展。同时,对目前研究中存在的问题进行了分析,并针对每个问题提出其解决对策,这为深入玉米籽粒脱水速率研究提供有利信息。
The kernel dehydration rate of maize is one of the main factors determining kernel moisture contentat harvest time. Comprehensive, systematic and further research on this key trait could promote the breedingefficiency of maize with mechanical-reaped kernel, and accelerate the whole-process mechanization of China'smaize production. Therefore, the study, in terms of kernel dehydration rate measurement methods, therelationship of kernel dehydration rate with other agronomic traits, the genetic improvement and the geneticmechanism, etc. discussed the research progress of maize kernel dehydration rate at home and abroad in recentyears. Meanwhile, some problems in the research were analyzed, and the countermeasure for each problem wasalso provided. The study will provide information for further researches on the kernel dehydration rate inmaize.
The kernel dehydration rate of maize is one of the main factors determining kernel moisture contentat harvest time. Comprehensive, systematic and further research on this key trait could promote the breedingefficiency of maize with mechanical-reaped kernel, and accelerate the whole-process mechanization of China'smaize production. Therefore, the study, in terms of kernel dehydration rate measurement methods, therelationship of kernel dehydration rate with other agronomic traits, the genetic improvement and the geneticmechanism, etc. discussed the research progress of maize kernel dehydration rate at home and abroad in recentyears. Meanwhile, some problems in the research were analyzed, and the countermeasure for each problem wasalso provided. The study will provide information for further researches on the kernel dehydration rate inmaize.
引文
[1]相茂国,张道林.玉米籽粒直收机械适应性研究[D].淄博:山东理工大学,2014.
[2]刘声春,张道林,张继磊,等.我国玉米收获机研制现状及发展展望[J].农机化研究,2009,31(11):241-243.
[3]孙乐秀.玉米自交系机械化收获相关性状及其SNP标记关联分析[D].泰安:山东农业大学,2015.
[4]金益,王振华,张永林,等.玉米杂交种蜡熟后籽粒自然脱水速率差异分析[J].东北农业大学学报,1997,28(1):29-32.
[5]宋朝玉,朱丕生,高峻岭,等.玉米籽粒脱水评价指标与收获期判断标准的辨析[J].山东农业科学,2015,47(08):20-24.
[6]严见方,赵斌.我国现行农作物种子水分测定方法的合理性探讨[J].种子世界,2000(9):26-28.
[7]胡晋,李永平,苏菊,等.种子水分测定的原理和方法[M].北京:中国农业出版社,2008.
[8]李淑娴,高莹莹,李运红,等.种子含水量的测定方法及展望[J].种子,2010,29(10):57-59.
[9] Reid L M, Morrison M J, Zhu X Y, et al. Selecting maize for rapid kernel dry down:timing of moisture measurement[J].Maydica,2014,59(1):9-15.
[10]向葵.玉米籽粒脱水速率测定方法优化及遗传研究[D].雅安:四川农业大学,2011.
[11]丁佳琦.我国不同年代玉米单交种及其亲本灌浆和脱水速率的研究[D].北京:中国农业科学院,2012.
[12]王志红,周福民,郭华,等.玉米籽粒脱水速率研究分析及种质改良策略[J].农学学报,2015,5(07):15-18.
[13]冯鹏,申晓慧,郑海燕,等.种植密度对玉米籽粒灌浆及脱水特性的影响闭[J].中国农学通报,2014,30(6):92-100.
[14]申琳.夏玉米籽粒灌浆与籽粒含水率的关系及籽粒发育过程的分期[J].北京农业科学,1998,16(5):6-9.
[15] Afuakwa J J, Crookston R K and Jones R J. Effect and temperature and source black layer development in maize[J].Crop Science,1984,24(2):258-288.
[16]王忠孝,杜成贵,王庆成.玉米籽粒成熟标志-乳线的研究[J].山东农业科学,1986,(4):36-37.
[17]魏堤,王玉兰.中国东北高淀粉玉米[M].北京:中国农业出版社,2010.
[18]王振华,张忠臣,常华章,等.黑龙江省38个玉米自交系生理成熟期及子粒自然脱水速率的分析[J].玉米科学,2001,9(2):053-055.
[19] Zuber M S. Effect of the Y-y factor pair on yield and other agronomic characters in corn[D].Thesis(Ph.D.)Lowa State College,1950.
[20]闫淑琴,苏俊,李春霞,等.玉米籽粒灌浆、脱水速率的相关与通径分析[J].黑龙江农业科学,2007(4):1-4.
[21]闫淑琴,李德新.玉米子粒脱水速度的遗传及相关分析和技术措施对脱水的影响[J].黑龙江农业科学,1994(6):9-11.
[22] Crane P L, Miles S R, Newman J E. Factors associated with varietal differences in rate of field drying in corn[J].Agron J,1959,51:318-320.
[23]李凤海,郭佳丽,于涛,等.不同熟期玉米杂交种及其亲本子粒脱水速率的比较研究[J].玉米科学,2012,20(6):17-20,24.
[24]雷蕾,王威振,方伟,等.影响夏玉米生理成熟后子粒脱水的相关因素分析[J].玉米科学,2016,24(3):103-109.
[25]刘思奇,钟雪梅,史振声.玉米果穗各部性状对籽粒含水量和脱水速率的影响[J].江苏农业科学,2016,44(8):130-132.
[26]郭佳丽,吕志尧,吕颖颖,等.玉米粒部性状对子粒脱水速率的影响[J].玉米科学,2014,22(4):33-38.
[27]张树光,冯学民,高树仁,等.玉米成熟期籽粒含水量与果穗性状的关系[J].中国农学通报,1994,10(2):15-17.
[28]李艳杰,史纪明,鞠成梅,等.玉米子粒水分与品种性状相关性研究初报[J].玉米科学,2000,8(4):037-038.
[29] Hunter R B, Mortimore G, Gerrish E E, et al. Field Drying of Flint and Dent Endosperm Maize[J].Crop Science,1979,19(3):401-402.
[30]霍仕平.玉米灌浆期籽粒脱水速率的研究进展(综述)[J].玉米科学,1993,1(4):39-44.
[31] Mi?evi?D, Alexander D E, Dumanovi?J, et al. Grain Moisture Loss Rate of High-Oil and Standard-Oil Maize Hybrids[J].Agronomy Journal,1988,80(5):841-845.
[32]张立国,张林,管春云,等.玉米生理成熟后籽粒脱水速率与品质性状的相关分析[J].东北农业大学学报,2007,38(5):582-585.
[33]雷蕾,王威振,方伟,等.影响夏玉米生理成熟后子粒脱水的相关因素分析[J].玉米科学,2016,24(03):103-109.
[34]刘永红,何文铸,杨勤,等.花期干旱对玉米籽粒发育的影响[J].核农学报,2007,21(2):181-185.
[35]李淑芳,张春宵,路明,等.玉米籽粒自然脱水速率研究进展[J].分子植物育种,2014(04):825-829.
[36]王俊强,马宝新,刘海燕,等.玉米籽粒含水量相关因素及育种策略[J].安徽农业科学,2012,40(16):8867-8868,9035.
[37] Miller M F, Hughes H D. Cooperative variety tests of corn:variety tests of corn at Columbia, MO[J].Missouri Mississippi Agricultural Experiment Station Bulletin,1910:144-156.
[38]谭福忠,韩翠波,邹双利,等.极早熟玉米品种籽粒脱水特性的初步研究[J].中国农学通报,2008,24(07):161-168.
[39]王振华,姜艳喜,鄂文弟,等.降低玉米收获期籽粒含水量的育种策略[A].中国作物学会,2003,全国作物遗传育种学术研讨会论文集[C].中国作物学会,2003,4.
[40]马晶,刘海天,刘武仁.降低玉米收获期籽粒含水量关键技术研究[J].农业与技术,2016,36(11):29-30.
[41]王克如,李少昆.玉米籽粒脱水速率影响因素分析[J].中国农业科学,2017,50(11):2027-2035.
[42]刘艳秋,李明顺,李新海,等.1970s—2000s玉米主栽品种灌浆与脱水速率研究[J].玉米科学,2015,23(1):85-91.
[43]叶雨盛,王晓琳,李刚,等.玉米籽粒生理成熟后脱水速率的研究及应用[J].辽宁农业科学,2015(3):46-48.
[44]刘玲译.成熟期籽粒迅速失水的玉米选育问题[J].作物育种攻关参考资料,1988(4):18-20.
[45]张林,王振华,金益,等.玉米收获期含水量的配合力分析[J].西南农业学报,2005,18(5):534-537.
[46] Magari R, Kang M S, Zhang Y. Sample size for evaluating field ear moisture loss rate in maize[J].Maydica,1996,41:19-24.
[47] Schmidt J L, Hallauer A R. Estimating harvest date of corn in the field[J].Crop Sci,1966,6:227-231.
[48]刘显君,王振华,王霞等.玉米籽粒生理成熟后自然脱水速率QTL的初步定位[J].作物学报,2010,36(1):47-52.
[49] Rodrigo G S, Fernando H A, Elsa LC, et al. Quantitative trait loci for grain moisture at harvest and field grain drying rate in maize(Zea mays L.)[J].Theor Appl Genet,2006,112:462-471.
[50] Li Y L, Dong Y B, Yang M L, et al. QTL Detection for Grain Water Relations and Genetic Correlations with Grain Matter Accumulation at Four Stages after Pollination in Maize[J].J Plant Biochem Physiol,2014,2:1.
[51] Valérie C, Carine R, Laurence M, et al. QTLs and candidate genes for desiccation and abscisic acid content in maize kernels[J].BMC Plant Biology,2010,10(1):1-22.
[52] Battaglia M, Olvera-Carrillo Y, Garciarrubio A, et al. The Enigmatic LEA Proteins and Other Hydrophilins[J].Plant Physiol,2008,148(1):6-24.
[53] Chaumont F, Barrieu F, Wojcik E, et al. Aquaporins constitute a large and highly divergent protein family in maize[J].Plant Physiol,2001,125(3):1206-1215.
[2]刘声春,张道林,张继磊,等.我国玉米收获机研制现状及发展展望[J].农机化研究,2009,31(11):241-243.
[3]孙乐秀.玉米自交系机械化收获相关性状及其SNP标记关联分析[D].泰安:山东农业大学,2015.
[4]金益,王振华,张永林,等.玉米杂交种蜡熟后籽粒自然脱水速率差异分析[J].东北农业大学学报,1997,28(1):29-32.
[5]宋朝玉,朱丕生,高峻岭,等.玉米籽粒脱水评价指标与收获期判断标准的辨析[J].山东农业科学,2015,47(08):20-24.
[6]严见方,赵斌.我国现行农作物种子水分测定方法的合理性探讨[J].种子世界,2000(9):26-28.
[7]胡晋,李永平,苏菊,等.种子水分测定的原理和方法[M].北京:中国农业出版社,2008.
[8]李淑娴,高莹莹,李运红,等.种子含水量的测定方法及展望[J].种子,2010,29(10):57-59.
[9] Reid L M, Morrison M J, Zhu X Y, et al. Selecting maize for rapid kernel dry down:timing of moisture measurement[J].Maydica,2014,59(1):9-15.
[10]向葵.玉米籽粒脱水速率测定方法优化及遗传研究[D].雅安:四川农业大学,2011.
[11]丁佳琦.我国不同年代玉米单交种及其亲本灌浆和脱水速率的研究[D].北京:中国农业科学院,2012.
[12]王志红,周福民,郭华,等.玉米籽粒脱水速率研究分析及种质改良策略[J].农学学报,2015,5(07):15-18.
[13]冯鹏,申晓慧,郑海燕,等.种植密度对玉米籽粒灌浆及脱水特性的影响闭[J].中国农学通报,2014,30(6):92-100.
[14]申琳.夏玉米籽粒灌浆与籽粒含水率的关系及籽粒发育过程的分期[J].北京农业科学,1998,16(5):6-9.
[15] Afuakwa J J, Crookston R K and Jones R J. Effect and temperature and source black layer development in maize[J].Crop Science,1984,24(2):258-288.
[16]王忠孝,杜成贵,王庆成.玉米籽粒成熟标志-乳线的研究[J].山东农业科学,1986,(4):36-37.
[17]魏堤,王玉兰.中国东北高淀粉玉米[M].北京:中国农业出版社,2010.
[18]王振华,张忠臣,常华章,等.黑龙江省38个玉米自交系生理成熟期及子粒自然脱水速率的分析[J].玉米科学,2001,9(2):053-055.
[19] Zuber M S. Effect of the Y-y factor pair on yield and other agronomic characters in corn[D].Thesis(Ph.D.)Lowa State College,1950.
[20]闫淑琴,苏俊,李春霞,等.玉米籽粒灌浆、脱水速率的相关与通径分析[J].黑龙江农业科学,2007(4):1-4.
[21]闫淑琴,李德新.玉米子粒脱水速度的遗传及相关分析和技术措施对脱水的影响[J].黑龙江农业科学,1994(6):9-11.
[22] Crane P L, Miles S R, Newman J E. Factors associated with varietal differences in rate of field drying in corn[J].Agron J,1959,51:318-320.
[23]李凤海,郭佳丽,于涛,等.不同熟期玉米杂交种及其亲本子粒脱水速率的比较研究[J].玉米科学,2012,20(6):17-20,24.
[24]雷蕾,王威振,方伟,等.影响夏玉米生理成熟后子粒脱水的相关因素分析[J].玉米科学,2016,24(3):103-109.
[25]刘思奇,钟雪梅,史振声.玉米果穗各部性状对籽粒含水量和脱水速率的影响[J].江苏农业科学,2016,44(8):130-132.
[26]郭佳丽,吕志尧,吕颖颖,等.玉米粒部性状对子粒脱水速率的影响[J].玉米科学,2014,22(4):33-38.
[27]张树光,冯学民,高树仁,等.玉米成熟期籽粒含水量与果穗性状的关系[J].中国农学通报,1994,10(2):15-17.
[28]李艳杰,史纪明,鞠成梅,等.玉米子粒水分与品种性状相关性研究初报[J].玉米科学,2000,8(4):037-038.
[29] Hunter R B, Mortimore G, Gerrish E E, et al. Field Drying of Flint and Dent Endosperm Maize[J].Crop Science,1979,19(3):401-402.
[30]霍仕平.玉米灌浆期籽粒脱水速率的研究进展(综述)[J].玉米科学,1993,1(4):39-44.
[31] Mi?evi?D, Alexander D E, Dumanovi?J, et al. Grain Moisture Loss Rate of High-Oil and Standard-Oil Maize Hybrids[J].Agronomy Journal,1988,80(5):841-845.
[32]张立国,张林,管春云,等.玉米生理成熟后籽粒脱水速率与品质性状的相关分析[J].东北农业大学学报,2007,38(5):582-585.
[33]雷蕾,王威振,方伟,等.影响夏玉米生理成熟后子粒脱水的相关因素分析[J].玉米科学,2016,24(03):103-109.
[34]刘永红,何文铸,杨勤,等.花期干旱对玉米籽粒发育的影响[J].核农学报,2007,21(2):181-185.
[35]李淑芳,张春宵,路明,等.玉米籽粒自然脱水速率研究进展[J].分子植物育种,2014(04):825-829.
[36]王俊强,马宝新,刘海燕,等.玉米籽粒含水量相关因素及育种策略[J].安徽农业科学,2012,40(16):8867-8868,9035.
[37] Miller M F, Hughes H D. Cooperative variety tests of corn:variety tests of corn at Columbia, MO[J].Missouri Mississippi Agricultural Experiment Station Bulletin,1910:144-156.
[38]谭福忠,韩翠波,邹双利,等.极早熟玉米品种籽粒脱水特性的初步研究[J].中国农学通报,2008,24(07):161-168.
[39]王振华,姜艳喜,鄂文弟,等.降低玉米收获期籽粒含水量的育种策略[A].中国作物学会,2003,全国作物遗传育种学术研讨会论文集[C].中国作物学会,2003,4.
[40]马晶,刘海天,刘武仁.降低玉米收获期籽粒含水量关键技术研究[J].农业与技术,2016,36(11):29-30.
[41]王克如,李少昆.玉米籽粒脱水速率影响因素分析[J].中国农业科学,2017,50(11):2027-2035.
[42]刘艳秋,李明顺,李新海,等.1970s—2000s玉米主栽品种灌浆与脱水速率研究[J].玉米科学,2015,23(1):85-91.
[43]叶雨盛,王晓琳,李刚,等.玉米籽粒生理成熟后脱水速率的研究及应用[J].辽宁农业科学,2015(3):46-48.
[44]刘玲译.成熟期籽粒迅速失水的玉米选育问题[J].作物育种攻关参考资料,1988(4):18-20.
[45]张林,王振华,金益,等.玉米收获期含水量的配合力分析[J].西南农业学报,2005,18(5):534-537.
[46] Magari R, Kang M S, Zhang Y. Sample size for evaluating field ear moisture loss rate in maize[J].Maydica,1996,41:19-24.
[47] Schmidt J L, Hallauer A R. Estimating harvest date of corn in the field[J].Crop Sci,1966,6:227-231.
[48]刘显君,王振华,王霞等.玉米籽粒生理成熟后自然脱水速率QTL的初步定位[J].作物学报,2010,36(1):47-52.
[49] Rodrigo G S, Fernando H A, Elsa LC, et al. Quantitative trait loci for grain moisture at harvest and field grain drying rate in maize(Zea mays L.)[J].Theor Appl Genet,2006,112:462-471.
[50] Li Y L, Dong Y B, Yang M L, et al. QTL Detection for Grain Water Relations and Genetic Correlations with Grain Matter Accumulation at Four Stages after Pollination in Maize[J].J Plant Biochem Physiol,2014,2:1.
[51] Valérie C, Carine R, Laurence M, et al. QTLs and candidate genes for desiccation and abscisic acid content in maize kernels[J].BMC Plant Biology,2010,10(1):1-22.
[52] Battaglia M, Olvera-Carrillo Y, Garciarrubio A, et al. The Enigmatic LEA Proteins and Other Hydrophilins[J].Plant Physiol,2008,148(1):6-24.
[53] Chaumont F, Barrieu F, Wojcik E, et al. Aquaporins constitute a large and highly divergent protein family in maize[J].Plant Physiol,2001,125(3):1206-1215.