Page 51 - 《水产学报》2023年第1期

P. 51

董在杰，等水产学报, 2023, 47(1): 019604

success stories and modern trends[M]. London: John 10(1): 4625.
Wiley & Sons, 2018. [19] 刘念. 我国 6 个鲤群体遗传变异分析 [D]. 上海: 上海
[ 8 ] 童金苟, 孙效文. 鱼类经济性状遗传解析及分子育种海洋大学, 2016.
应用研究[J]. 中国科学:生命科学, 2014, 44(12): 1262- Liu N. Genetic variation analysis of six common carp
1271. populations in China[D]. Shanghai: Shanghai Ocean
Tong J G, Sun X W. Genetic and genomic analyses for University, 2016 (in Chinese).
economic traits and their applications in molecular [20] 叶玉珍. 丰鲤的应用推广及其经济效益[J]. 水利渔业,
breeding of aquaculture fish[J]. Science China Life Sci- 1988, 9(1): 22-24.
ence, 2014, 44(12): 1262-1271 (in Chinese). Ye Y Z. Application promotion of abundant carp and its
[ 9 ] Chen L, Xu J, Sun X W, et al. Research advances and economic benefits[J]. Water and Fisheries, 1988, 9(1):
future perspectives of genomics and genetic improve- 22-24 (in Chinese).
ment in allotetraploid common carp[J]. Reviews in [21] 马仲波, 张兴忠, 仇潜如, 等. 元江鲤与荷包红鲤的生
Aquaculture, 2022, 14(2): 957-978. 态类型及其杂交后代(荷元鲤)经济性状的分析[J]. 水
[10] Balon E K. Origin and domestication of the wild carp, 产学报, 1981, 5(3): 187-198.
Cyprinus carpio: from Roman gourmets to the swim- Ma Z B, Zhang X Z, Qiu Q R, et al. The analysis of the
ming flowers[J]. Aquaculture, 1995, 129(1-4): 3-48. economical characteristics of a hybrid from two ecolo-
[11] 孙小异, 张建森, 施永红, 等. 建鲤遗传特性的研究[J]. gical types of carps[J]. Journal of Fisheries of China,
水产学报, 1994, 18(3): 205-213. 1981, 5(3): 187-198 (in Chinese).
Sun X Y, Zhang J S, Shi Y H, et al. Studies on the [22] 李传武. 芙蓉鲤[J]. 内陆水产, 1994, 19(10): 29-30.
hereditary property of Jian carp[J]. Journal of Fisheries Li C W. Hibiscus carp[J]. Inland Fisheries, 1994, 19(10):
of China, 1994, 18(3): 205-213 (in Chinese). 29-30 (in Chinese).
[12] Ohno S, Muramoto J, Christian L, et al. Diploid-tet- [23] Dong Z, Zhou E. Application of the random amplified
raploid relationship among old-world members of the polymorphic DNA technique in a study of heterosis in
fish family Cyprinidae[J]. Chromosoma, 1967, 23(1): 1- common carp, Cyprinus carpio L.[J]. Aquaculture
9. Research, 1998, 29(8): 595-600.
[13] Ohno S. Evolution by Gene Duplication[M]. Berlin, [24] 董在杰, 夏德全, 吴婷婷, 等. 兴国红鲤和散鳞镜鲤杂
Heidelberg: Springer, 1970. 种优势的RAPD分析[J]. 上海水产大学学报, 1999,
[14] Zhang H, Okamoto N, Ikeda Y. Two c-myc genes from a 8(1): 31-36.
tetraploid fish, the common carp (Cyprinus carpio)[J]. Dong Z J, Xia D Q, Wu T T, et al. RAPD analysis of
Gene, 1995, 153(2): 231-236. heterosis between Xingguo red carp and scattered mirror
[15] David L, Blum S, Feldman M W, et al. Recent duplica- carp[J]. Journal of Shanghai Fisheries University, 1999,
tion of the common carp (Cyprinus carpio L. ) genome 8(1): 31-36 (in Chinese).
as revealed by analyses of microsatellite loci[J]. Molecu- [25] Dong Z J, Yuan X H. The utilizations of heterosis in
lar Biology and Evolution, 2003, 20(9): 1425-1434. common carp in China[J]. Aquaculture Asia, 2002, 7(2):
[16] Wang J T, Li J T, Zhang X F, et al. Transcriptome ana- 14-15.
lysis reveals the time of the fourth round of genome [26] 李小兵, 黎雪梅, 郑宗林. 选择育种在水产养殖中对满
duplication in common carp (Cyprinus carpio)[J]. BMC 足人类未来所需动物蛋白的重要性[J]. 饲料与畜牧,
Genomics, 2012, 13: 96. 2013(8): 33-37.
[17] Xu P, Zhang X F, Wang X M, et al. Genome sequence Li X B, Li X M, Zheng Z L. The importance of selective
and genetic diversity of the common carp, Cyprinus car- breeding in aquaculture to meet future human needs for
pio[J]. Nature Genetics, 2014, 46(11): 1212-1219. animal protein[J]. Feed & Livestock, 2013(8): 33-37 (in
[18] Xu P, Xu J, Liu G J, et al. The allotetraploid origin and Chinese).
asymmetrical genome evolution of the common carp [27] 葛国昌. 国外鱼类育种简况[J]. 水产科技情报, 1983,
Cyprinus carpio[J]. Nature Communications, 2019, 10(1): 24-27.
https://www.china-fishery.cn 中国水产学会主办 sponsored by China Society of Fisheries
12

46 47 48 49 50 51 52 53 54 55 56