中国海洋大学学报(自然科学版)
中國海洋大學學報(自然科學版)
중국해양대학학보(자연과학판)
PERIODICAL OF OCEAN UNIVERSITY OF CHINA
2010年
2期
47-51
,共5页
高保全%刘萍%李健%戴芳钰%王学忠
高保全%劉萍%李健%戴芳鈺%王學忠
고보전%류평%리건%대방옥%왕학충
三疣梭子蟹%家系%生长性状
三疣梭子蟹%傢繫%生長性狀
삼우사자해%가계%생장성상
Portunus trituberculatus%family%growth traits
以莱州湾和舟山野生群体为材料,以完全双列杂交法设计搭配组合,采用1♂×3♀交配模式,首次利用人工控制定向交尾技术成功构建三疣梭子蟹家系,经过两代选育,对生长到80,100,120日龄10个F_2代家系的生长和家系内的变异进行了比较分析.120日龄时,10个家系体重大小顺序为:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,全甲宽大小顺序为:J9>J10>J1>J4>J8>J3>J2>J5>J7>J6,甲宽大小顺序为:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,甲长大小顺序为:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,体高大小顺序为:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6.J9、J10的体重极显著大于其他8个家系(P≤0.01),J9体重比J6大96.10%,比J7大76.87%;J10体重比J6大72.77%,比J7大55.76%,表现出明显的生长优势,是两个生长性状良好的家系,为育种工作提供了良好的材料.
以萊州灣和舟山野生群體為材料,以完全雙列雜交法設計搭配組閤,採用1♂×3♀交配模式,首次利用人工控製定嚮交尾技術成功構建三疣梭子蟹傢繫,經過兩代選育,對生長到80,100,120日齡10箇F_2代傢繫的生長和傢繫內的變異進行瞭比較分析.120日齡時,10箇傢繫體重大小順序為:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,全甲寬大小順序為:J9>J10>J1>J4>J8>J3>J2>J5>J7>J6,甲寬大小順序為:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,甲長大小順序為:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,體高大小順序為:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6.J9、J10的體重極顯著大于其他8箇傢繫(P≤0.01),J9體重比J6大96.10%,比J7大76.87%;J10體重比J6大72.77%,比J7大55.76%,錶現齣明顯的生長優勢,是兩箇生長性狀良好的傢繫,為育種工作提供瞭良好的材料.
이래주만화주산야생군체위재료,이완전쌍렬잡교법설계탑배조합,채용1♂×3♀교배모식,수차이용인공공제정향교미기술성공구건삼우사자해가계,경과량대선육,대생장도80,100,120일령10개F_2대가계적생장화가계내적변이진행료비교분석.120일령시,10개가계체중대소순서위:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,전갑관대소순서위:J9>J10>J1>J4>J8>J3>J2>J5>J7>J6,갑관대소순서위:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,갑장대소순서위:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6,체고대소순서위:J9>J10>J1>J8>J4>J3>J2>J5>J7>J6.J9、J10적체중겁현저대우기타8개가계(P≤0.01),J9체중비J6대96.10%,비J7대76.87%;J10체중비J6대72.77%,비J7대55.76%,표현출명현적생장우세,시량개생장성상량호적가계,위육충공작제공료량호적재료.
With the rapid expansion and intensification of the culture of Portunus trituberculatus, various issues such as diseases, bad quality of larvas and less natural resources, have occurred and become increasingly serious, causing economic losses. They have become the limiting factors in the sustaining development of this program. Finally, these issues can be resolved by providing excellent breeds provided by using the selective breeding program, which is an important way of selecting breeding by establishing families. Ten families of second generation of P.trituberculatus were established by using an unbalanced nested design. For the ten families, at the age of 120 days, the body weight is in the order of J9>J10>J1>J8>J4>J3>J2>J5>J7>J6, the full carapace width is in the order of J9>J10>J1>J4>J8>J3>J2>J5>J7>J6, the carapace width is in the order of J9>J10>J1>J8>J4>J3>J2>J5>J7>J6, J9>J10>J1>J8>J4>J3>J2>J5>J7>J6, and the body height is in the order of J9>J10>J1>J8>J4>J3>J2>J5>J7>J6. The families named J9 and J10 are significantly larger than the other eight families in body weight(P≤0.01).For example J9 is larger than J6 and J7 by 96.10%, and 76.87% in body weight, respectively. J10 is larger than J6 and J7 by 72.77% and 55.76% in body weight, respectively. It is suggested that J9 and J10 are the families with the best growth traits.