[1] 李新海, 袁力行, 李晓辉, 张世煌, 李明顺, 李文华. 利用SSR标记划分70份我国玉米自交系的杂种优势群. 中国农业科学, 2003, 36(6): 622-627.[2] 袁力行, 傅骏骅, 张世煌, 刘新芝, 彭泽斌, 李新海, Warburton M, Khairallah M. 利用RFLP和SSR标记划分玉米自交系杂种优势群的研究. 作物学报, 2001, 27(2): 149-156.[3] Zhang SH, Li XH, Yuan LX, Li MS, Peng ZB. Heterotic groups and exploitation of heterosis- methodology, strat-egy, and use in hybrid maize breeding in China. In: Srini-vasan G, Zaidi PH, Prasanna BM, Gonzalez F, Lesnick K, eds. Proceedings of the 8th Asian Regional Maize Work-shop. Bangkok, Thailand. CIMMYT, Mexico D. F., Mex-ico. 2002: 64-68.[4] Zhang SH. Maize germplasm enhancement, improvement and development. In: Srinivasan G, Zaidi PH, Prasanna BM, Gonzalez F, Lesnick K, eds. Proceedings of the 8th Asian Regional Maize Workshop. Bangkok, Thailand. CIMMYT, Mexico D. F., Mexico. 2002: 554-560.[5] Hallauer AR, Carena MJ. Maize breeding. In: Carena MJ, eds. Handbook of plant breeding: cereals. New York: Springer New York, 2009: 3-98.[6] Tallury SP, Goodman MM. Experimental evaluation of the potential of tropical germplasm for temperate maize im-provement. Theor Appl Genet, 1999, 98(1): 54-61.[7] Li HM, Hu RF, Zhang SH. The impact of US and CGIAR germplasm on maize production in China. Agric Sci China, 2006, 5(8): 563-571.[8] Rasmussen CC, Hallauer AR. Evaluation of heterotic pat-terns of Iowa Stiff Stalk Synthetic and Non-Stiff Stalk Synthetic maize populations[Zea mays L.]. Maydica, 2006, 51(2): 177-186.[9] Scheffler TA, Hallauer AR, Lamkey KR, White PR. Esti-mates of heterosis and inbreeding depression for crosses of IOWA maize populations. Maydica, 2008, 53(3-4): 189-198.[10] Moreno-Gonzalez J, Ramos-Gourcy F, Losada E. Breeding potential of European flint and earliness-selected U.S. Corn Belt dent maize populations. Crop Sci, 1997, 37(5): 1475-1481.[11] Mungoma C, Pollak LM. Heterotic patterns among ten Corn Belt and exotic maize populations. Crop Sci, 1988, 28(3): 500-504.[12] Mickelson HR, Cordova H, Pixley KV, Bjarnason MS. Heterotic relationships among nine temperate and sub-tropical maize populations. Crop Sci, 2001, 41(4): 1012-1020.[13] Mišsevi? D. Genetic analysis of crosses among maize populations representing different heterotic patterns. Crop Sci, 1990, 30(5): 997-1001.[14] Ordás A. Heterosis in crosses between American and Spanish populations of maize. Crop Sci, 1991, 31(4): 931-935.[15] Reif JC, Melchinger AE, Xia XC, Warburton ML, Hois-ington DA, Vasal SK, Srinivasan G, Bohn M, Frisch M. Genetic distance based on simple sequence repeats and heterosis in tropical maize populations. Crop Sci, 2003, 43(4): 1275-1282.[16] Vasal SK, Srinivasan G, Gonzalez F, Han GC, Pandey S, Beck DL, Crossa J. Heterosis and combining ability of CIMMYT's tropical × subtropical maize germplasm. Crop Sci, 1992, 32(6): 1483-1489.[17] Beck DL, Vasal SK, Crossa J. Heterosis and combining ability among subtropical and temperate intermediate-maturity maize germplasm. Crop Sci, 1991, 31(1): 68-73.[18] Vasal SK, Srinivasan G, Crossa J, Beck DL. Heterosis and combining ability of CIMMYT's subtropical and temper-ate early-maturity maize germplasm. Crop Sci, 1992, 32(4): 884-890.[19] Naspolini FV, Gama EEG, Vianna RT, Moro JR. General and specific combining ability for yield in a diallel cross among 18 maize populations (Zea mays L.). Rev Brasil Genet, 1981, 4(4): 571-577.[20] Gama EEG, Hallauer AR, Lopes MA, Parentoni SN, San-tos MX, Guimaraes PEO. Combining ability among fifteen early cycle maize populations in Brazil. Brazil J Genet, 1995, 18(4): 569-577.[21] Rodrigues MC, Chaves LJ, Pacheco CAP. Heterosis in crosses among white grain maize populations with high quality protein. Pesq Agropec Bras, 2006, 41(1): 59-66.[22] Vacaro E, Neto JFB, Pegoraro DG, Nuss CN, Conceição LDH. Combining ability of twelve maize populations. Pesq Agropec Bras, 2002, 37(1): 67-72.[23] Parentoni SN, Magalh& |