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Wang X Y, Yang P H, Li M J, et al. Chromosome karyo- [19] 陈洪, 杨靖, 薛国雄, 等. RAPD技术在异精激发方正银
type analysis of Erythroculter ilishaeformis[J]. Journal 鲫比较研究中的应用[J]. 科学通报, 1994, 39(7): 661-
of Hunan University of Arts and Science (Natural Sci- 663.
ence Edition), 2009, 21(3): 73-77 (in Chinese). Chen H, Yang J, Xue G X, et al. Application of RAPD
[11] 周淼, 郭青松, 黄家锐, 等. 彭泽鲫异精雌核发育子代 in comparative study of heterogeneous Carassius
生长比较研究[J]. 中国农学通报, 2020, 36(36): 125- auratus gibelio[J]. Chinese Science Bulletin, 1994,
131. 39(7): 661-663 (in Chinese).
Zhou M, Guo Q S, Huang J R, et al. Carassius auratus [20] 张海发, 陈湘麟, 舒琥, 等. 异源精子激发彭泽鲫雌核
var. pengsenensis produced by heterologous sperm: 发育产生的子一代及亲本RAPD分析[J]. 应用与环境
growth comparison of offspring[J]. Chinese Agricultural 生物学报, 1999, 5(5): 507-511.
Science Bulletin, 2020, 36(36): 125-131 (in Chinese). Zhang H F, Chen X L, Shu H, et al. RAPD analysis of
[12] 祝东梅. 团头鲂三种细胞系的建立、鉴定及其初步应 gynogenetic F 1 progeny triggering by heterologous
用 [D]. 武汉: 华中农业大学, 2013. sperms and their parents of Pengze crucian carp
Zhu D M. Establishment and characterization of three (Carassius auratus)[J]. Chinese Journal of Applied &
cell lines from blunt snout bream, Megalobrama ambly- Environmental Biology, 1999, 5(5): 507-511 (in
cephala, and their preliminary applications studies[D]. Chinese).
Wuhan: Huazhong Agricultural University, 2013 (in [21] 刘敏, 肖调义, 孙念, 等. 异精雌核发育草鱼F 1 与普通草
Chinese). 鱼的SCAR标记鉴别初报[J]. 水生态学杂志, 2013,
[13] Levan A, Fredga K, Sandberg A A. Nomenclature for 34(3): 94-100.
centromeric position on chromosomes[J]. Hereditas, Liu M, Xiao T Y, Sun N, et al. Preliminary report on
1964, 52(2): 201-220. SCAR maker for distinguishing allogynogenesis grass
[14] Matthey R. The chromosomes of the vertebrates[J]. carp F 1 and common grass carp[J]. Journal of Hydroeco-
Advances in Genetics, 1951, 4: 159-180. logy, 2013, 34(3): 94-100 (in Chinese).
[15] Allen S K Jr. Flow cytometry: assaying experimental [22] Schartl M, Nanda I, Schlupp I, et al. Incorporation of
polyploid fish and shellfish[J]. Aquaculture, 1983, 33(1- subgenomic amounts of DNA as compensation for muta-
4): 317-328. tional load in a gynogenetic fish[J]. Nature, 1995,
[16] 俞豪祥. 银鲫雌核发育的细胞学观察[J]. 水生生物学 373(6509): 67-71.
集刊, 1982(4): 481-487. [23] 支宇, 刘其根, 吴嘉敏, 等. 人工诱导青田田鱼雌核发
Yu H X. A cytological observation on gynogenesis of 育子代形态和遗传分析[J]. 上海海洋大学学报, 2022,
crucian carp (Carassius auratus gibelio)[J]. Acta Hydro- 31(4): 839-848.
biologica Sinica, 1982(4): 481-487 (in Chinese). Zhi Y, Liu Q G, Wu J M, et al. Morphologic and genetic
[17] 胡海星, 郑康, 陈金辉, 等. 异源精子遗传物质对雌核 analysis of the artificially induced gynogenesisin Qing-
发育草鱼基因组的影响分析[J]. 水生生物学报, 2008, tian paddy field carp[J]. Journal of Shanghai Ocean Uni-
32(5): 701-710. versity, 2022, 31(4): 839-848 (in Chinese).
Hu H X, Zheng K, Chen J H, et al. Analysis on the [24] Wu Q W, Wu Z H, Wang L J, et al. Comparative study
genetic influence of heterologous sperm in the genome on growth performance and morphological characterist-
of gynogenetic grass carp[J]. Acta Hydrobiologica Sin- ics of the meio- and mito-gynogenesis olive flounder
ica, 2008, 32(5): 701-710 (in Chinese). (Paralichthys olivaceus)[J]. Aquaculture, 2021, 535(30):
[18] 丁军, 谢岳峰, 蒋一珪, 等. 异育银鲫及其人工杂合种 736387.
外源遗传物质的检测分析[J]. 水生生物学报, 1993, [25] 赵海涛, 范宁宁, 万玉美, 等. 雌核发育、野生及养殖
17(1): 22-26. 牙鲆形态差异分析[J]. 河北渔业, 2019(11): 1-7,27.
Ding J, Xie Y F, Jiang Y G, et al. The analysis of hetero- Zhao H T, Fan N N, Wan Y M, et al. Analysis on mor-
logous genetic materials in allogynogenetic crucian carp phological variations of gynogenesis, wild and cultured
and its artificial hybrids[J]. Acta Hydrobiologica Sinica, Paralichthys olivaceus[J]. Hebei Fishery, 2019(11): 1-
1993, 17(1): 22-26 (in Chinese). 7,27 (in Chinese).
https://www.china-fishery.cn 中国水产学会主办 sponsored by China Society of Fisheries
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