半干旱地区山杏种质资源调查及遗传特性的研究
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摘要
种质资源是新品种选育不可缺少的物质基础,同时也是遗传学、分类学、生物学等基础理论研究的重要材料。本文采用路线普查和单株调查相结合的方法,对半干旱地区山杏种质资源状况进行调查研究,并进一步从生化角度确定部分优良类型及变异类型的遗传特性,结果表明:半干旱地区山杏资源丰富,雌蕊发育程度、果重、出核率、嫩枝长、核重、果皮厚、仁重、出仁率、仁形指数九个数量性状的变异程度较大,可作为区分山杏种质资源的主要性状;群体内可观可感的个体变异主要表现在树体、花、叶、果、核、仁、抗逆性七方面,调查发现20种变异类型,集中体现在50株变异类型的代表株,这些类型包括伞形冠山杏、自然开心型山杏、粉花山杏、大花山杏、晚花山杏、花瓣褶皱型山杏、双雌蕊山杏、重瓣山杏、雌蕊发育完全山杏、心形叶山杏、红斑点果皮山杏、甜肉甜仁山杏、苦肉甜仁山杏、双仁山杏、大核山杏、中核山杏、小扁圆核山杏、小圆鼓核山杏、展翅核山杏、抗冻山杏;相关分析显示与产量相关性最大的树体因子是冠幅;将相关研究与山杏本身特性相结合,确定半干旱地区盛果期山杏结果100个/m~2树冠为丰产山杏的复选指标,盛花期比普通山杏盛花期晚6天为晚花山杏复选标准,经两年调查共获得44株丰产、8株晚花优树;应用山杏叶片POD同工酶和种子可溶性蛋白不连续双垂直板聚丙烯酰胺凝胶电泳(PAGE)技术,研究以丰产、晚花、抗冻初选优株为主的山杏群体的遗传特性,聚类分析将供试样品分为14类和16类,两个生化指标的分类结果基本一致,与形态特征、生物特征基本吻合,认为二者可作为山杏遗传分类的生化指标。
Germplasm is important material to fundamental research of genetics, systematics, biology et al as well as to new species selection and breeding. Study on investigations and hereditary characters of germplasm resource of Siberian apricot with combining of general selection and individual tree inquiry in subarid area has been conducted for 2 years. The results show that the resource is abundant in subarid area. 9 major quantitative characters including pistil development level, young shoots length, fruit weight, rate of kernel, kernel weight, pericarp width, almond weight, rate of almond, almond index can distinguish germplasm resource; 20 variations were observed in tree morphology, flower, leaf, fruit, kernel, almond and resistance ability, bodying in 50 representative plants. These variations are Flat crown SA, Divergent SA, Pink SA, Big flower, Late florescence SA, Fold flowerSA, Double pistil SA, Mutiplicate flowerSA, Perfect pistil SA, Cardiac leaf SA, Red spot pericarp SA, Big kernel SA, Median kernel
SA, Small oblate kernel SA, Small drum SA, Finned kernel SA, Sweet almond and fruit SA, Sweet almond and bitter fruit SA, double almond SA, Flower of Frost-resistant SA. Crown has the highest correlation to fruit yield among morphological factors of Siberian apricot.The check indice of the abundant bearing and late florescence, which were ascertained by relative research and Siberian apricot personality, are 100 fruits
per m2 crown and postponing 6 days of full flower period respectively. 44 abundant yield and 8 late florescence plants has been picked out from 2002 to 2003. 14 and 16 classifications have been obtained using peroxidase isoenzyme of leaf and soluble seed protein respectively by PAGE(polyacrylamide gel electrophoresis) in experiment material, which proved there exist hereditary diversity among the abundant bearing and late florescence plants. POD and soluble seed protein are classificayion indice for classification results with 2 biochemical index are consist with morphological characters and biological characters.
Germplasm is important material to fundamental research of genetics, systematics, biology et al as well as to new species selection and breeding. Study on investigations and hereditary characters of germplasm resource of Siberian apricot with combining of general selection and individual tree inquiry in subarid area has been conducted for 2 years. The results show that the resource is abundant in subarid area. 9 major quantitative characters including pistil development level, young shoots length, fruit weight, rate of kernel, kernel weight, pericarp width, almond weight, rate of almond, almond index can distinguish germplasm resource; 20 variations were observed in tree morphology, flower, leaf, fruit, kernel, almond and resistance ability, bodying in 50 representative plants. These variations are Flat crown SA, Divergent SA, Pink SA, Big flower, Late florescence SA, Fold flowerSA, Double pistil SA, Mutiplicate flowerSA, Perfect pistil SA, Cardiac leaf SA, Red spot pericarp SA, Big kernel SA, Median kernel
SA, Small oblate kernel SA, Small drum SA, Finned kernel SA, Sweet almond and fruit SA, Sweet almond and bitter fruit SA, double almond SA, Flower of Frost-resistant SA. Crown has the highest correlation to fruit yield among morphological factors of Siberian apricot.The check indice of the abundant bearing and late florescence, which were ascertained by relative research and Siberian apricot personality, are 100 fruits
per m2 crown and postponing 6 days of full flower period respectively. 44 abundant yield and 8 late florescence plants has been picked out from 2002 to 2003. 14 and 16 classifications have been obtained using peroxidase isoenzyme of leaf and soluble seed protein respectively by PAGE(polyacrylamide gel electrophoresis) in experiment material, which proved there exist hereditary diversity among the abundant bearing and late florescence plants. POD and soluble seed protein are classificayion indice for classification results with 2 biochemical index are consist with morphological characters and biological characters.
引文
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8.程家胜.1986.同工酶分析在果树种质资源分类遗传研究中的作用.中国果树,(3):19~22.
9.程家胜等.1986.关于苹果属果树亲缘关系的初步探讨—过氧化物酶同工酶.园艺学报,13(1):1~8.
10.成帧占.1987.根据同工酶酶谱对核桃属十个种分类学研究.园艺学报,14(2):90~96.
11.崔丽雅,赵萍.1999.同工酶酶谱鉴定萝卜品种的初步研究.黑龙江八一农垦大学学报,11(2):28~30.
12.党选民,张欣.2000.四棱豆品种亲缘关系的蛋白质分析.热带作物学报,2(4):59~62.
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14.丁毅,宋远淳.1995.大麦酯酶同工酶酶谱的聚类分析与遗传研究.武汉大学学报(自然科学版),41(6):729~733.
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16.方德秋,张辉志.1989.枇杷属植物过氧化物酶同工酶研究.华中农业大学学报,8(2):144~150.
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