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影响4类作物种子寿命的主要贮藏环境因素 被引量:4

Main Storage Conditions Factor of Influencing Longevity of Seed in Four Crops
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摘要 为研究利用存活比、影响种子贮藏寿命和生活力的主要贮藏环境因子来预测高粱、苋属、甜荞麦和莴苣种子批的寿命和生活力,3个含水量水平的高粱和苋属的8个种子批被贮藏在20℃、30℃和40℃的贮藏温度下长达810 d。以概率回归和存活比线性回归方法,贮藏试验获得的高粱、苋属及文献报道的甜荞麦、莴苣种子批的发芽率和贮藏时间的成套数据,被用于估算不同种子批的平均贮藏寿命(p50)和种子死亡时间分布的标准差(σ),同时两种回归方程的拟合性也被比较;两种方法估算出的p50和σ则分别被用于对贮藏环境因子:贮藏温度(t)及其平方、种子含水量(m)及其对数(logm)以及t和m的交互作用(t×m和t×logm)作逐步回归分析,结果表明,用存活比来估算p50、σ是可行的,而且估算出的p50和σ较用概率估算的有统计学意义;贮藏温度和种子含水量的交互作用(t×m)是使4类作物种子快速丧失生活力,减少寿命的主要贮藏环境因子,包含这个因子和存活比的数学模型:G i/G0=A-p/10K-CWT(t×m),预测甜荞麦种子批的发芽率较V i=K i-p/10K-CWT(t×m)有更高的准确性;所以,建议用前者来预测初始发芽率是已知的种子的贮藏寿命和生活力,而用后者预测初始发芽率未被测定的种子的寿命和生活力。 To. predict seed longevity and viability of Sorghun vulgare, Fagopyrum escutentum,Lactuca sativa, and Amaranthus by survivor proportion and main storage condition factors, seeds of 8 seed lot of Sorghun vulgare and Amaranthus With 3 levels of water content were stored at 20 ℃ ,30 ℃ ,and 40 ℃ for lasting 810 d. Data sets of germination percent and storage period of seed from storage experiments of Sorghun vulgare and Amaranthus seed lot and from literature reported for Fagopyrum escutentum and Lactuca sativa seed lot were used to estimate mean viability period (p50) and standard deviation of seeds death distribution in time (σ) for different seed lot using regression equations of probability and survivor proportion in linearity,and fitting of the equations were also synchronously compared. Moreover,p50 and σ by two equations estimated were used to analyze storage condition factors with stepwise regression method, including storage temperature (t)and its quadratic term (t2) ,water content of seed (m) and its logarithm (logm), and interaction between storage temperature and water content of seeds ( t × m and t × logm) ,respectively. The results showed that estimated p50 and σ with survivor proportion to estimate was feasible and had more statistical significance than probability estimated. Seed viability was quickly lost and its longevity was decreased by interaction between storage temperature and water content of seed (t× m). The mathematic model Gi/Go =A-p/10^(K-C WT(t×m)) containing the interaction factor and survivor proportion had higher accuracy to predict initial germination percent of Fagopyrum escutentum than the model Vi = Ki -p/10^(K-C WT(t×m)). Thus, the former and latter models were recommended to predict initial germination rate with longevity and viability of seed known and unknown, respectively.
作者 周国雁 伍少云 王莉花 王艳青
机构地区 云南省农业科学院生物技术与种质资源研究所/云南省农业生物技术重点实验室/农业部西南作物基因资源与种质创制重点实验室
出处 《植物遗传资源学报》 CAS CSCD 北大核心 2014年第1期56-66,共11页 Journal of Plant Genetic Resources
基金 种质资源中期库运转 资源收集保存更新及种质创制(YAAS2012ZY011) 国家农作物种质资源平台(云南 2012-030)
关键词 种子寿命 生活力 贮藏环境 交互作用 seed longevity viability storage conditions interaction
分类号 S339.32 [农业科学—作物遗传育种]
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参考文献19

  • 1Roberts E H. Predicting the storage life of seeds[J].{H}Seed Science and Technology,1973.499-514.
  • 2Ellis R H,Roberts E H. Improved equations for the prediction of seed longevity[J].{H}Annals of Botany,1980.13-30.
  • 3卢新雄,陈晓玲,陈叔平.低温库种质安全保存理论的研究进展[J].植物遗传资源科学,2000,1(2):54-58. 被引量:22
  • 4李开隆,施佳.樟子松、油松种子储藏寿命的预测[J].东北林业大学学报,1991,19(2):24-35. 被引量:2
  • 5Pieta F C,Ellis R H. Estimating the value of the seed lot cnstant (Ki) of the seed viability equation in barley and wheat[J].{H}Seed Science and Technology,1992.93-99.
  • 6Ellis R H,Hong T D. Desiccation tolerance and potential longevity of developing seeds of rice (Oryza sativa L )[J].{H}Annals of Botany,1994.501-506.
  • 7Maciej N,Christina W,Wieslav L. Assessment of variation in seed longevity within rye,wheat and the intergeneric hybrid triticale[J].{H}Seed Science Research,2009.213-224.
  • 8Ellis R H,Hong T D,Roberts E H. A comparison of the low-moisture-content limit to the logarithmic relation between seed moisture and longevity in twelve species[J].{H}Annals of Botany,1989.601-611.
  • 9Shande T,Dennis M T,Dennis B E. Survival characteristics of corn seed during storage:1.Normal distribution of seed survival[J].{H}Crop Science,1999.1394-1400.
  • 10Eric F,Dennis T,Egli D B. Evaluation of a viability model for predicting soybean seed germination during warehouse storage[J].{H}Crop Science,1999.194-201.

二级参考文献47

  • 1王培蒂,秦国峰.长期贮藏对马尾松种子品质的影响[J].林业科学研究,1994,7(2):193-198. 被引量:5
  • 2王爱国 罗广华.大豆种子超氧物歧化酶的研究[J].植物生理学报,1983,9(1):77-83.
  • 3国家质量技术监督局.2000.中华人民共和国国家标准《林木种子检验规程》(GB2772-1999)北京:中国标准出版社,10-15
  • 4Bailly C,Benamar A,Corbineau F,et al.1997.Changes in superoxide dismutase,catalase,and glutathione reductase activities in sunflower seeds during accelerated aging and subsequent priming.In:Basic and Applied Aspects of Seed Biology (eds.Ellis R H,Black M,Murdoch A J,et al),Boston:Kluwer Academic Publisher.349-360
  • 5Bonner F T,1999.Viability equations for forest tree seeds.Seed Science and Technology,27:981-989
  • 6Ellis R H,Hong T D,Roberts E H.1986.Logarithmic relationship between moisturecontent and longevity in sesame seeds.Annals of Botany,57:499-503
  • 7Ellis R H,Roberts E H,1980.Improved equations for the prediction of seed longevity.Annals of Botany,45:13-30
  • 8Harrington J F.1972.Seed storage and longevity.In:Kozlowski (ed) Seed Biology.New York and London,(3):145-245
  • 9Kalpana R,and Madhava Rao K V,1994.Absence of the role of lipid peroxidation during accelerated aging of seeds of pigeonpea (Cajanus cajan (L.) Millsp.) cultivars.Seed Science and Technology,22:253-260
  • 10McDonald M B.1999.Seed deterioration:physiology,repair and assessment.Seed Science and Technology,27:177-237

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植物遗传资源学报
2014年 第1期

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