中国农业科学 40卷 inbred line pooulation Plaut 2004 135:432-443 281 Trawatha S E TeKrony D M.Hildebrand D F.Relationship of ial for seed lonsevity and for preventing linid peroxidation dge.1995.35:1415.1422 ination Plamt Cell 2004 16:1419-1432 29 Sivritepe H O,Dourado A M.The effects of haumidificatioe [14]Kalpana R.Madhava R K V.Protein metabolism of seeds of treatments on viability and the aceumulation of chrom onpea (ca(L)Millsp.)cultivars during accelerated sberrations in pea seeds.Seed Science and Technolo.1994.22 eing.Seed Science and.1997.25:271-279 337.348 115]Jeng T L.Sung J M.Hydration effect on lipid peroxidation and 3D康相君，未明.大白菜种子人工老化及劣变的生理生化分析.园 peroxide-scavaging enzyme activity of artificially age peanut seed 艺学报，1999,26(5X319.322 Seed Science and Technology,1994,22:531-539 Tang Z J.Song M.Physiological and hiochemical analysis of artificially aged Chinese cabbage[Brassica compestnis L ssp. aging of French bean seeds.Seed Science and Technology,1996,24: 295-30 59-322(n Chines [17]Rao K V M.Kalpana R.Carbo es and the ageing process in 3 汪晓 ,从滋金.种子活力的生物学基础及是高和保持种子活力 sp）cultivars.Sed 的情光近展种，1997,6639 05.50 Wang X F ng Z J.Ad 8周 cleic acid me sm of secds o 0 f seed v1g0.Sd19W.6:36-39.( 997.25:2 19 20 Seed Scie and Techr 341 CM Ashraf M Davison P A Molecular markers of seer 2 In:Come D.Corbineau F(ed) ASEIS 1903-887.896 21-581.591 35傅家瑞，黄上志，李黄金，郑小红，花生种子活力与贮蛋白和 221 Perez M A.Arguello J A.Det rRNA完整性关系.中山大学学报（自然科学版）.20O0,39州4以 L cy.Florman)seeds undet natural and accelerated aging Seed 80-83 Science and Technology.1995 23:439-445 FuJR Huane Sz LiH Zhene X H.Seed vieour in relation to the 231 Golovina E A.Wolkers W F.Hoesktra F A.Bchavior of m synthesis and degradation of storage protein and the integrity of and proteins during natural seed ageine.In:Ellis R H.Black M. RNA in Peanut(Arachis hypogaea L.)seeds.Acta Murdoch A J.Hong T D (ed).Basic and Applied Aspects of Seed Na am Uarversiraris,2000.3914):80-83.(in Bology.Boston:Kluwer Academic Publishers.1997:787-796. Chinese Aung U T,MeDonald M B.Changes in esterase activity iated B6刘军，黄上志，烟家瑞。不同活力玉米种子胚萌发过程中蛋白 with peanut (Arachis hypogaea 1)seed deterioration.Seed Science 质的变化热带重热带植物学报，199,7,65.69， 0,1995.23101-11 Liu J.Huang SZ.Fu J R.Changes of embryo protein in m aize seed 125 Kalpana R Madhava R K V.On the ageing mechanism i vigours during ger -）Mlp）eeds.Seed Sw 1995,23:1- B余四陈晚。徐才国。水稻种子活力的基因型异.种子 2 Ferg D M.Egli D B.Changes during earl 1990,30 27 kert)see 传52 中 国 农 业 科 学 40 卷 accessions Landsberg erecta and Shakdara, using a new recombinant inbred line population. Plant Physiology, 2004, 135: 432-443. [13] Scott E S, Laura U G, Maria M L, Mike P, Dean D P. Vitamin E is essential for seed longevity and for preventing lipid peroxidation during germination. Plant Cell, 2004, 16: 1419-1432. [14] Kalpana R, Madhava R K V. Protein metabolism of seeds of pigeonpea (Cajanus cajan(L.) Millsp.) cultivars during accelerated ageing. Seed Science and Technology, 1997, 25: 271-279. [15] Jeng T L, Sung J M. Hydration effect on lipid peroxidation and peroxide-scavaging enzyme activity of artificially age peanut seed. Seed Science and Technology, 1994, 22: 531-539. [16] Begnami C N, Cortelazzo A L. Cellular alterations during accelerated aging of French bean seeds. Seed Science and Technology, 1996, 24: 295-303. [17] Rao K V M, Kalpana R. Carbohydrates and the ageing process in seeds of pigeonpea(Cajanus cajan(L.) Millsp.) cultivars. Seed Science and Technology, 1994, 22: 495-501. [18] Kalpana R, Madhava R K V. Nucleic acid metabolism of seeds of pigeonpea (Cajanus cajan(L.) Millsp.) cultivars during accelerated ageing. Seed Science and Technology, 1997, 25: 293-301. [19] Thapliyal R C, Connor K F. Effects of accelerated ageing on viability, leachate exudation, and fatty acid content of Dalbergia sissoo Roxb. Seeds. Seed Science and Technology, 1997, 25: 311-319. [20] Kalpana R, Madhava R K V. Lipid changes during accelerated aging of seeds of pigeonpea(Cajanus cajan(L.) Millsp.) cultivars. Seed Science and Technology, 1996, 24: 475-485. [21] Gupta I J, Schmitthenner A F, McDonald M B. Effect of storage fungi on seed vigor of soybean. Seed Science and Technology, 1993, 21: 581-591. [22] Perez M A, Arguello J A. Deterioration in peanut (Arachis hypogaea L. cv. Florman) seeds under natural and accelerated aging. Seed Science and Technology, 1995, 23: 439-445. [23] Golovina E A, Wolkers W F, Hoesktra F A. Behavior of membranes and proteins during natural seed ageing. In: Ellis R H, Black M, Murdoch A J, Hong T D (ed). Basic and Applied Aspects of Seed Biology. Boston: Kluwer Academic Publishers, 1997: 787-796. [24] Aung U T, McDonald M B. Changes in esterase activity associated with peanut (Arachis hypogaea L.) seed deterioration. Seed Science and Technology, 1995, 23: 101-111. [25] Kalpana R and Madhava R K V. On the ageing mechanism in pigeonpea (Cajanus cajan(L.) Millsp.) seeds. Seed Science and Technology, 1995, 23: 1-9. [26] Ferguson J M, TeKrony D M, Egli D B. Changes during early soybean seed and axis deterioration: Ⅰ. seed quality and mitochondrial respiration. Crop Science, 1990, 30: 175-182. [27] Aiazzi M T, Arguello J A, DiRienzo J, Guzman C A. Deterioration in Atriplex cordobensis(Gansoger et Stuckert) seeds: natural and accelerated ageing. Seed Science and Technology, 1996, 25: 147-155. [28] Trawatha S E, TeKrony D M, Hildebrand D F. Relationship of soybean seed quality to fatty acid and C6-aldehyde levels during storage. Crop Science, 1995, 35: 1415-1422. [29] Sivritepe H O, Dourado A M. The effects of humidification treatments on viability and the accumulation of chromosomal aberrations in pea seeds. Seed Science and Technology, 1994, 22: 337-348. [30] 唐祖君, 宋 明. 大白菜种子人工老化及劣变的生理生化分析. 园 艺学报, 1999, 26(5): 319-322. Tang Z J, Song M. Physiological and biochemical analysis of artificially aged Chinese cabbage[Brassica campestris L. ssp. pekinensis(Lour.) Olsson]. Acta Horticulturae Sinica, 1999, 26(5): 319-322. (in Chinese) [31] 汪晓峰, 丛滋金. 种子活力的生物学基础及提高和保持种子活力 的研究进展. 种子, 1997, 6: 36-39. Wang X F, Cong Z J. Advances on biological foundation and maintenance & improvement of seed vigor. Seed, 1997, 6: 36-39. (in Chinese) [32] McDonald M B. Seed deterioration: physiology, repair and assessment. Seed Science and Technology, 1999, 27: 177-237. [33] Cruz Garcia F, Gonzalez Hernandez V A, Molina Moreno J, Vazquez Ramos J M. Seed deterioration and respiration as related to DNA metabolism in germinating maize. Seed Science and Technology, 1995, 23: 477-486. [34] Bray C M, Ashraf M, Davison P A. Molecular markers of seed quality. In: Come D, Corbineau F (ed.). Fourth International Workshops on Seeds. Paris: ASFIS, 1993: 887-896. [35] 傅家瑞, 黄上志, 李黄金, 郑小红. 花生种子活力与贮藏蛋白和 rRNA 完整性关系. 中山大学学报(自然科学版), 2000, 39(4): 80-83. Fu J R, Huang S Z, Li H J, Zheng X H. Seed vigour in relation to the synthesis and degradation of storage protein and the integrity of rRNA in Peanut(Arachis hypogaea L.) seeds. Acta Scientiarum Naturalium Universitatis Sunyatseni, 2000, 39(4): 80-83. (in Chinese) [36] 刘 军, 黄上志, 傅家瑞. 不同活力玉米种子胚萌发过程中蛋白 质的变化. 热带亚热带植物学报, 1999, 7(1): 65-69. Liu J, Huang S Z, Fu J R. Changes of embryo protein in maize seeds with different vigours during germination. Journal of Tropical and Subtropical Botany , 1999, 7(1): 65-69. (in Chinese) [37] 余四斌, 陈晚贞, 徐才国. 水稻种子活力的基因型差异. 种子, 1999, 2: 24-26. Yu S B, Chen W Z, Xu C G. Genotypic variation of seed vigor in rice. Seed, 1999, 2: 24-26. (in Chinese) [38] 马守才, 张改生, 王军卫, 卢碧霞, 李宏茹. 小麦种子活力性状的 遗传变异和相关研究. 西北植物学报, 2004, 24: 1674-1679