参考文献:
[1]NAMIKI M.Nutraceutical functions of sesame:A review[J].Crit Rev Food Sci Nutr,2007,47(7):651-673.
[2]刘红艳,周芳,赵应忠.中国芝麻育成品种的系谱分析[J].中国油料作物学报,2015,37(3):411-426.
[3]张体德,王保勤,杜振伟,等.河南省芝麻育种成果回顾与展望[J].河南农业科学,2017,46(10):32-37.
[4]DWIVEDI S L,CECCARELLI S,BLAIR M W,et al.Landrace germplasm for improving yield and abiotic stress adaptation[J].Trends Plant Sci,2016,21(1):31-42.
[5]刘艳阳,梅鸿献,杜振伟,等.基于表型和SSR分子标记构建芝麻核心种质[J].中国农业科学,2017,50(13):2433-2441.
[6]CUI C Q,MEI H X,LIU Y Y,et al.Genetic diversity,population structure,and linkage disequilibrium of an associationmapping panel revealed by genomewide SNP markers in sesame[J].Front Plant Sci,2017,8:1189.
[7]SONG Y H,SHIM J S,KINMONTHSCHULTZ H A,et al.Photoperiodic flowering:Time measurement mechanisms in leaves[J].Annu Rev Plant Biol,2015,66:441-464.
[8]MATSUBARA K,HORI K,OGISOTANAKA E,et al.Cloning of quantitative trait genes from rice reveals conservation and divergence of photoperiod flowering pathways in Arabidopsis and rice[J].Front Plant Sci,2014,5:193.
[9]RHIND D.A note on photoperiodism in Sesamum[J].Indian J Agric Sci,1935,5:729-736.
[10]中山大学植物生理教研组.不同纬度地区的芝麻品种对光照长度反应的初步报告[J].植物生理学通讯,1960(2):44-47.
[11]KOTECHA A K,YERMANOS D M,SHROPSHIRE F M.Flowering in cultivars of sesame differing in photoperiodic sensitivity[J].Econ Bot,1975,29(2):185-191.
[12]SUDDIHIYAM P,STEER B T,TURNER D W.The flowering of sesame (Sesamum indicum L.) in response to temperature and photoperiod[J].Austr J Agric Res,1992,43(5):1101-1116.
[13]KUMAZAKI T,YAMADA Y,KARAYA S,et al.Effects of day length and air temperature on stem growth and flowering in sesame[J].Plant Prod Sci,2008,11(2):178-183.
[14]盖钧镒,章元明,王建康.植物数量性状遗传体系[M].北京:科学出版社,2003.
[15]袁有禄,张天真,郭旺珍,等.棉花高品质纤维性状的主基因与多基因遗传分析[J].遗传学报,2002,29(9):827-834.
[16]张立平,赵昌平,单福华,等.小麦光温敏雄性不育系BS210育性的主基因+多基因混合遗传分析[J].作物学报,2007,33(9):1553-1557.[17]王春娥,盖钧镒,傅三雄,等.大豆豆腐和豆乳得率的遗传分析与QTL定位[J].中国农业科学,2008,41(5):1274-1282.
[18]田露申,牛应泽,余青青,等.甘蓝型油菜白花性状的主基因+多基因遗传分析[J].中国农业科学,2009,42(11):3987-3995.
[19]咸丰,张勇,马建祥,等.野生甜瓜‘云甜-930’抗白粉病主基因+多基因遗传分析[J].中国农业科学,2011,44(7):1425-1433.
[20]张保雷,张卫东,高庆荣,等.温光敏雄性不育小麦BNS育性的遗传效应分析[J].中国农业科学,2013,46(8):1533-1542.
[21]周清元,李军庆,崔翠,等.油菜半矮秆新品系10D130株型性状的遗传分析[J].作物学报,2013,39(2):207-215.
[22]汪文祥,胡琼,梅德圣,等.甘蓝型油菜分枝角度主基因+多基因混合遗传模型及遗传效应[J].作物学报,2016,42(8):1103-1111.
[23]李英双,胡丹,聂蛟,等.甜荞株高和茎粗的遗传分析[J].作物学报,2018,44(8):1185-1195.
[24]李延玲,白晓倩,于澎湃,等.高粱株型性状数量遗传分析[J].华北农学报,2018,33(1):143-149.
[25]刘新春,冯宗云.大麦籽粒阿拉伯木聚糖的主基因+多基因遗传模型分析[J].华北农学报,2018,33(3):119-128.
[26]刘炜,刘行,丁小霞,等.花生中白藜芦醇含量的主基因+多基因遗传分析[J].山西农业科学,2018,46(12):1990-1992,2056.
[27]ZHANG H Y,MIAO H M,WANG L,et al.Genome sequencing of the important oilseed crop Sesamum indicumL.[J].Genome Biol,2013,14(1):401.
[28]ANDERSON J T,WILLIS J H,MITCHELLOLDS T.Evolutionary genetics of plant adaptation[J].Trends Genet,2011,27(7):258-266.
[29]WANG C,HU S,GARDNER C,et al.Emerging avenues for utilization of exotic germplasm[J].Trends Plant Sci,2017,22(7):624-637. |