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京：中国农业出版社，2025. of the Total Environment, 2018, 621: 827 − 838.
Bureau of Fisheries, Ministry of Agriculture and Rural ［11］ Imai M, Mizoguchi T, Wang M, et al. The guppy (Poe-
Affairs of the People’s Republic of China, National Fish- cilia reticulata) is a useful model for analyzing age-de-
eries Technology Extension Station, China Society of pendent changes in metabolism, motor function, and
Fisheries. 2025 China fishery statistical yearbook[M]. gene expression[J]. Experimental Gerontology, 2022,
Beijing: China Agriculture Press, 2025. 160: 111708.
［ 3 ］ Bai Y, Liao Q, Wang Z X, et al. Ctenopharyngodon ［12］ Mojżesz M, Kłak K, Adamek M, et al. Activation of
idella (grass carp) SIRT7 negatively regulates anti- DExD/H-box RNA helicases during infection of zebra-
GCRV innate immunity by promoting IRF3 and IRF7 fish and common carp with spring viraemia of carp virus
degradation[J]. Aquaculture, 2025, 606: 742575. (SVCV) and chum salmon reovirus (CSV)[J]. Fish &
［ 4 ］倪达书. 我国鱼病学研究现状及其发展前景 [J]. 现代 Shellfish Immunology, 2019, 91: 460.
渔业信息，1994（3）：1 − 4. ［13］ Rakus K, Adamek M, Mojżesz M, et al. Evaluation of
Ni D S. Recent developments and prospects of fish dis- zebrafish (Danio rerio) as an animal model for the viral
ease science in China[J]. Modern Fisheries Information, infections of fish[J]. Journal of Fish Diseases, 2019,
1994(3): 1 − 4. 42(6): 923 − 934.
［ 5 ］陈燕燊. 草鱼出血病病原的研究 [J]. 水生生物学集［14］ Li Z C, Zhong Z H, Zhuang J Y, et al. An experimental

刊，1978（3）：321 − 330. animal model of yellowfin seabream (Acanthopagrus lat-
Chen Y S. Studies on the causative agent of hemorrhage us) for Amyloodinium ocellatum infection[J]. Aquacul-
of the grass carp (Ctenopharyngodon idellus)[J]. Acta ture, 2023, 574: 739641.
Hydrobiologica Sinica, 1978(3): 321 − 330. ［15］高丽君，吴端生. 实验鱼类标准化研究概况 [J]. 微量
［ 6 ］ Wang Q, Zeng W W, Liu C, et al. Complete genome se- 元素与健康研究，2012，29（2）：51 − 54.
quence of a reovirus isolated from grass carp, indicating Gao L J, Wu D S. Research survey and prospects of sev-
different genotypes of GCRV in China[J]. Journal of eral experimental standardization fishes[J]. Studies of
Virology, 2012, 86(22): 12466 − 12466. Trace Elements and Health, 2012, 29(2): 51 − 54.
［ 7 ］ Xie C X, Li J L, Li D P, et al. Grass carp: the fish that ［16］陈科洁. 实验红鲫标准化关键技术研究和转录组分析
feeds half of China[M]//Gui J F, Tang Q S, Li Z J, et al. [D]. 衡阳：南华大学，2020.
Aquaculture in China: success stories and modern trends. Chen K J. The key technology of standardization and
Hoboken: Wiley Blackwell, 2018: 93 − 115. transcriptome analysis in laboratory red crucian carp[D].
［ 8 ］陈佳明. Ⅱ型草鱼呼肠孤病毒稀有鮈鲫感染模型和疫 Hengyang: University of South China, 2020.
苗评价模型的建立 [D]. 上海：上海海洋大学，2021. ［17］周永欣，成水平，胡炜，等. 稀有鮈鲫—— 一种新的
Chen J M. Establishment of a rare minnow (Gobiocypris 鱼类毒性试验材料 [J]. 动物学研究，1995，16（1）：
rarus) infection and vaccine evaluation model for grass 59 − 63.
carp reovirus genotype Ⅱ[D]. Shanghai: Shanghai Zhou Y X, Cheng S P, Hu W, et al. A new toxicity test
Ocean University, 2021. organism—Gobiocypris rarus[J]. Zoological Research,
［ 9 ］卢耀增. 实验动物学 [M]. 北京：北京医科大学中国 1995, 16(1): 59 − 63.
协和医科大学联合出版社，1995：1 − 2. ［18］王绿平，张京佶，赵华清. 稀有鮈鲫作为鱼类胚胎急
Lu Y Z. Laboratory animal science[M]. Beijing: Peking 性毒性试验受试鱼种的敏感性研究 [J]. 生态毒理学
Union Medical College Press, Beijing Medical Uni- 报，2021，16（5）：102 − 112.
versity, 1995: 1 − 2. Wang L P, Zhang J Z, Zhao H Q. Sensitivity of Chinese
［10］ Boehler S, Lörracher A K, Schubert J, et al. Comparat- rare minnows (Gobiocypris rarus) for fish embryo acute
ive live-imaging of in vivo EROD (ethoxyresorufin-O- toxicity test[J]. Asian Journal of Ecotoxicology, 2021,
deethylase) induction in zebrafish (Danio rerio) and fat- 16(5): 102 − 112.
head minnow (Pimephales promelas) embryos after ex- ［19］王铁辉，刘沛霖，陈宏溪，等. 稀有鮈鲫对草鱼出血
posure to PAHs and river sediment extracts[J]. Science 病病毒敏感性的初步研究 [J]. 水生生物学报，1994，

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