1 Ashley D A , H R Boerma.Canopy photosy nthesis and its associa-tion with seed yield in advanced generations of a soy bean cross[ J] .Crop Sci., 1989, 29:1042-1045.2 Austin, R.B., J.Bing ham, R .D.Blackwell, et al .Genetic im-provements in winter wheat yields since 1900 and associated phys-iological changes[ J].J .Agric.Sci.(Cambridge)1980, 94:675-689.
3 Babu R.Chandra , Bay D.Nguyen, Varapong Chamarerk , et al .Genetic analysis of droug ht resistance in rice by molecular mark-ers:Association between secondary traits and field performance[ J].Crop Sci., 2003, 43(4):1457-1469.
4 Bhardwaj H L , A S Bhagsari .Harvest index and related charac-teristics of small and large seeded soybean genotypes[ J].SoybeanGenet.Newsl., 1990, 17:109-113.
5 Bhardwaj H L , A S Bhagsari.Soybean harvest index as related toyield, plant architecture and economic value[ J].Soybean Genet .Newsl ., 1991, 18:314-316.
6 Boerma H .R.D .A .Ashley .Canopy photosy nthesis and seed fillduration in recently developed soybean cultivars and selected plantintroductions[ J].Crop Sci., 1988, 28:137-140.
7 Bruce Bugbee, Monje O scar.The limits of crop productivity [ J].Bioscience , 1992, 42(7):494-502.
8 Buttery D .A ., Buzzell R.I.Some differences between soybeancultivars observed by growth analy sis[ J] .Can.J.Plant Sci .1972, 52:13-20.
9 Charles Mann.Reseeding the green revolution[ J] .Science , 1997,
10 Cui SY, Yu DY.Estimates of relative contribution of biomass ,harvest index and yield components to soybean yield improve-ments in China .Plant Breeding , 2005, (5):473-476.
11 Dong Zuan, Qi Mingmei ,Sun Zhuotao .A study of the physiologicalparameters for high-yielding soybean plants[ C] .Proceedings ofthe Second U .S.-China soybean Symposium.1984, 77-86.
12 Donald C.M .In search of yield[ J].J.Aust .Sci, 1962 (28):171-178.
13 Faluyi M .A .Implications of selecting improved strains of soy-beans fo r dry matter accumulation and grain yield[ J].Euphytica ,1990, 50:197-201.
14 F rederick J .R., J .D.Hesketh.Genetic improvement in soybean:Physiological attributes[ C].P .237-286.In G .A .Slafer (ed.)Genetic improvement of field crops.1994, Marcel Dekker, NewYork.
15 Harrison S.A ., H .R.Boerma , D.A .Ashley .Heritability of can-opy -apparent photosynthesis and its relationship to seed yield insoybeans.Crop Sci., 1981, 2:222-226.
16 Hume D .J., Feindel D .E., Winter J .P., et al.Assimilationpartitioning in soybean[ C] .World Soybean Research ConferenceⅣ.Proceeding s.Buenos Aires, Argentina .1996, 177-182.
17 Gepts P .Development of an integ rated genetic linkage map incommon bean (phaseolus vulgaris L.)and its use[ C] .In BeanBreeding for 21 st century .Ed.S.Singh , 1999, 53 -91, 389 -400.Kluwer.
18 Gifford Roger M ., J.H.T horne , W.D .Hitz, et al.Crop produc-tivity and photoassimilate partitioning[ J] .Science , 1984, 225:801-808.
19 Karmakar P G , P S Bhatnager.Genetic improvement of soybeanvarieties released in India from 1969 to 1993 [ J] .Euphytica ,1996, 90:95-103.
20 Larson E.M ., J.D .Hesketh, J .T .Wooley , et al.Seasonal vari-ation in apparent photosynthesis among plant stands of differentsoybean cultivars[ J].Photosy nth.Res.1981,(2):3-20.
21 Ma B.L ., M .J.M orrison, H .D.Voldeng .Leaf greenness and pho-tosy nthetic rates in soybean[ J].Crop Sci., 1995, 35:1411-1414.
22 Mehetre S .S., B.M .Jamadagni.Biomass partitioning and growthcharacters in relation to plant architecture in soybean[ J].SoybeanGenet.Newsl., 1996, 23:92-97
23 Morrison M alcolm J., Harvey D.Voldeng and Elroy R.Cober.Physiological changes from 58 years of genetic improvement ofshort -season soybean cultivars in Canada[ J] .Ag ronomy Jour-nal , 1999, 91:685-689.
24 Morrison M alcolm J., Harvey D.Voldeng , Elroy R.Cober.Agro-nomic changes from 58 years of genetic improvement of short -season soybean cultivars in Canada[ J] .Agronomy Journal 2000,92:780-784.
25 Ojima M ., R.Kawashima .Studies on the seed production of soy-bean.Ⅷ T he ability of photosynthesis of F 3 lines having differentphotosynthesis in their F 2 generations[ J].Proc.Crop Sci.Soc .Jpn.1969, 39:440-445.
26 Reynolds, M .P ., S .Rajaram, K .D.Say re .Physiological and ge-netic changes of irrigated wheat in the post -green revolution pe-riod and approaches for meeting projected global demand[ J].CropSci.1999, 39:1611-1621.
27 Slafer, G .A ., F.H.Andrade, S.E.Feingold.Genetic improve-ment of bread wheat (T riticum aestivum L .)in Argentina:Rela-tionships between nitrogen and dry matter[ J] .Euphytica , 1990,50:63-71.
28 Slafer, G .A ., F.H .Andrade.Changes in physiological attri -butes of the dry matter economy of bread wheat (T riticum aesti-vum)through genetic improvement of grain yield potential at dif-ferent regions of the world.A review[ J].Euphytica , 1991, 58:37-49.
29 Spaeth S.C., H.C.Randall, T .R.Sinclair, et al.Stability ofsoybean harvest index[ J] .Ag ronomy Journal, 1984, 76:483 -486.
30 Spaeth S.C., T .R .Sinclair.Linear increase in soybean harvestindex during seed-filling[ J].Ag ronomy Journal, 1985, 77:207 -211.
31 Specht J .E., D.J.Hume , S.V .Kumudini.Soybean yield potential-A genetic and physiological perspective[ J].Crop Sci., 1999,39:1560-1570.
32 Salado-Navarro L .R., Sinclair T .R., K .Hinson.Yield and re-productive growth of simulated and field-grown soybean.ⅠSeedfilling duration[ J].Crop Sci., 1986a:26:966-970.
33 Salado-Navarro L .R., Sinclair T .R., K .Hinson.Yield and re-productive growth of simulated and field-grown soybean.ⅡDrymatter allocation and seed growth rate[ J] .Crop Sci., 1986, 26:971-975.
34 Salado Navarro L.R.Exploiting the physiological understandingof soybean yield[ C] .Wo rld Soybean Research Conference Ⅴ .Proceedings.Bangkok, Thailand.1994, 250-254.
35 Schulze L.L.Canopy Apparent photosy nthesis of determinatesoybean cultivars[ D].Ph.D.T hesis.Univ .of Georgia .Conngr.Card No .Mic.79 -01685(Siss.Abstr.Int .39:3091 -B),1978.
36 Shibles R.M ., Secor J., D.M .Ford.Carbon assimilation andmetabolism[ M].In J .R.Wilcox .(ed.)Soybeans:Improvement ,Production and uses, Ag ronomy Monographs 16, 2 n d ed.ASA ,CSSA , SSSA .M adison, WI.1987, 535-588.
37 Sinclair T .R.Historical changes in harvest index and crop nitro-gen accumulation[ J].Crop Sci., 1998, 38:638-643.
38 Sinclair T .R .and T .Horie .Leaf nitrogen, photosynthesis, andcrop radiation use efficiency :A review[ J].Crop Sci., 1989, 29:90-98.
39 Wells R., L .L .Schulze, D .A .Ashley , et al .Cultivar differencesin canopy apparent photosynthesis and their relationship to seedyield in soybeans[ J].Crop Sci., 1982, 22:886-890.
40 Willie Vogt .Unlocking soybean yield secrets[ J] .Wallaces Farm-er, 1999, 124(9):14-15.
41 马占峰, 赵淑文, 杨琪, 等.生物产量-大豆高产育种的物质基础[ J].东北农业大学学报, 1995, 26(2):125-130.
42 李远明, 刘丽君, 祖伟, 等.不同基因型大豆品种干物质积累与产量形成的关系[ J].东北农业大学学报, 1999, 30(4):324-328.
43 李跃建, 宋荷仙, 朱华忠.小麦收获指数、生物产量和籽粒产量的稳定性分析[ J].西南农业学报, 1998, 1(1):25-30.
44 伏军.水稻收获指数的形成与遗传改良[ J].作物研究, 1997,(2):1-3.
45 杜维广.大豆品种(系)间光合活性的差异及其与产量的关系[ J].作物学报, 1982, 8(2):131-136.
46 杜维广, 张桂茹, 满为群, 等.大豆光合作用与产量关系的研究[ J].大豆科学, 1999, 18(2):154-159.
47 邹冬生, 郑丕尧.大豆叶片光合、蒸腾等生理特性的品种间比较研究[ J].大豆科学, 1990, 9(1):25-32.
48 杨光宇.大豆品种主要数量性状的相关和通径分析[ J] .吉林农业科学, 1985,(1):7-10.
49 张贤泽, 马占蜂, 赵淑文, 等.大豆不同品种光合速率与产量关系的研究[ J] .作物学报, 1986, 12(1):43-48.
50 张桂茹, 杜维广, 栾晓燕, 等.大豆转化系数的研究Ⅱ大豆杂交后代收获指数和粒茎比的遗传研究[ J] .大豆科学, 1992, 11(4):299 -307.
51 胡兆华.稻米细胞遗传与育种[ M] .杭州:浙江科学技术出版社,1994, 62-63.
52 顾文祥.江淮下游地区大豆地方品种几个生理性状遗传变异的初步研究[ D] .硕士学位论文, 南京农业大学图书馆, 1984.