| Citation: |
WANG Yuesong, XU Lin, YANG Yang, CHENG Rui, WANG Chong, HE Dajiang, LI Guoliang, MA Haitao, BI Jianqi, CHEN Feng, WAN Zhengping, ZHANG Zhiming. Study on artificial propagation and early development of Acrossocheilus longipinnis[J]. South China Fisheries Science, 2024, 20(2): 63-72. DOI: 10.12131/20230207
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Acrossocheilus longipinnis is a rare fish and an economically important species in the Hongshui River. To achieve large-scale production of A. longipinis fry and provide technical guidance for its proliferation and release, artificially domesticated A. longipinnis were intensively cultivated and induced to produce fertilized eggs by dry fertilization. The embryonic and larval development was observed. Four times of artificial inductions were performed. The oxytocin rate was (68.95±13.26)%, the fertilization rate was (68.50±19.82)%, and the hatching rate was (80.00±10.23)%. The fertilized eggs of the A. longipinnis were sedimentary, weakly viscous and golden in color. The egg diameter of the yolk was (2.42±0.06) mm, and the expansion of water absorption was (3.03±0.08) mm. The embryonic development process went through a total of 7 stages and 28 periods including blastogenesis stage, cleavage stage, blastocyst stage, gastrum stage, neuroembryo stage, organogenesis stage and hatching stage. The membrane was hatched after 66−74 h at the water temperature of 22−24 ℃, with an accumulated temperature of 1 501.13 ℃·h. The total length of the newly hatched larvae was (8.33±0.23) mm, with 34 pairs of sarcotomes. At 4 days after hatching, the larvae formed 5 transversely spotted embryonic prototypes. The yolk sac stage lasted for 8 d, with a total length special growth rate of 4.13%·d−1. The larvae stage lasted for 21 d, with a special growth rate of total length of 2.70%·d−1. The results are important for protecting A. longipinnis resources and diversity of the Hongshui River.
| [1] |
袁乐洋. 中国光唇鱼属鱼类的分类整理[D]. 南昌: 南昌大学, 2005: 60-67.
|
| [2] |
王崇, 方艳红, 梁银铨, 等. 红水河干流鱼类组成和分类多样性研究[J]. 水产学杂志, 2019, 32(6): 48-53.
|
| [3] |
王崇, 谢山, 谢文星, 等. 红水河干流梯级运行后鱼类资源调查[J]. 淡水渔业, 2015, 45(2): 30-36.
|
| [4] |
蒋志刚. 中国生物多样性红色名录. 脊椎动物. 第五卷, 淡水鱼类. 下册[M]. 北京: 科学出版社, 2021: 429-430.
|
| [5] |
张志明, 梁炆汉, 杨洋, 等. 国家重点保护淡水鱼类特点及其保护建议[J]. 人民长江, 2023, 54(4): 68-75.
|
| [6] |
刘鉴毅, 李琪, 孙艳秋, 等. 多纹钱蝶鱼胚胎发育及胚后发育观察[J]. 中国水产科学, 2021, 28(8): 978-987.
|
| [7] |
严太明, 何学福, 贺吉胜. 宽口光唇鱼胚胎发育的研究[J]. 水生生物学报, 1999(6): 636-640.
|
| [8] |
张玉明, 姜建湖. 光唇鱼人工繁殖研究[J]. 浙江海洋学院学报(自然科学版), 2010, 29(3): 211-214.
|
| [9] |
张玉明, 闫家强. 光唇鱼胚胎发育的研究[J]. 绍兴文理学院报(自然科学), 2010, 30(3): 44-48.
|
| [10] |
程东海. 光唇鱼 (Acrossoeheilus fasciatus) 育苗阶段的饵料选择及相关营养生理研究[D]. 金华: 浙江师范大学, 2012: 3-7.
|
| [11] |
姜建湖, 张德明, 竺俊全, 等. 光唇鱼 (Acrossocheilus fasciatus) 胚胎及仔、稚鱼的发育[J]. 海洋与湖沼, 2012, 43(2): 280-287.
|
| [12] |
华泽祥, 陈俊, 石永伦, 等. 云南光唇鱼的人工繁殖和胚胎发育观察[J]. 水产科技情报, 2017, 44(2): 69-72.
|
| [13] |
唐安华, 何学福. 云南光唇鱼Acrossocheilus yunanensis (Regan) 的胚胎和胚后发育的初步观察[J]. 西南师范学院学报 (自然科学版), 1982(1): 91-99.
|
| [14] |
陈礼强, 吴青, 郑曙明. 云南光唇鱼的人工繁殖研究[J]. 淡水渔业, 2006(1): 43-45.
|
| [15] |
周礼敬, 詹会祥, 王贤文, 等. 云南光唇鱼人工繁殖与苗种培育初步研究[J]. 家畜生态学报, 2014, 35(3): 78-80, 96.
|
| [16] |
韩军军, 贺疆滔, 陈朋, 等. 扁吻鱼胚胎发育及仔稚鱼形态与生长观察研究[J]. 南方水产科学, 2021, 17(1): 59-66.
|
| [17] |
HACHERO C I, ORTIZ D J B, BORREGA B, et al. Larval organogenesis of flatfish brill Scophthalmus rhombus L: histological and histochemical aspects[J]. Aquaculture, 2009, 286(1/2): 138-149.
|
| [18] |
潘晓赋, 刘倩, 王晓爱, 等. 软鳍新光唇鱼 (Neolissochilus benasi) 的人工繁殖与胚胎发育[J]. 动物学研究, 2013, 34(6): 617-625.
|
| [19] |
陈军平, 沈方方, 武慧慧, 等. 我国鱼类胚胎发育研究进展[J]. 江苏农业科学, 2021, 49(17): 45-52.
|
| [20] |
甘维熊, 王红梅, 邓龙君, 等. 雅砻江短须裂腹鱼胚胎和卵黄囊仔鱼的形态发育[J]. 动物学杂志, 2016, 51(2): 253-260.
|
| [21] |
姜建湖. 光唇鱼性腺及胚胎与仔、稚鱼发育的研究[D]. 宁波: 宁波大学, 2012: 8-10, 24-31.
|
| [22] |
殷名称. 鱼类生态学[M]. 北京: 中国农业出版社, 1995: 105-130.
|
| [23] |
刘明鉴, 郭华阳, 高杰, 等. 尖翅燕鱼早期胚胎发育及仔稚鱼形态观察[J]. 南方水产科学, 2022, 18(4): 103-111.
|
| [24] |
殷名称. 鱼类早期生活史研究与其进展[J]. 水产学报, 1991, 15(4): 348-358.
|
| [25] |
黄洪贵. 水温对黑脊倒刺鲃胚胎发育的影响及胚后发育观察[J]. 水生态学杂志, 2009, 30(4): 84-88.
|
| [26] |
黄洪贵. 中华倒刺鲃胚胎与仔鱼发育的观察[J]. 江西农业大学学报, 2009, 31(6): 1087-1092.
|
| [27] |
于振海, 安丽, 朱树人, 等. 大鳞鲃胚胎发育及仔鱼发育观察[J]. 长江大学学报 (自然科学版), 2018, 15(6): 38-42, 94-95.
|
| [28] |
覃宝利, 蔺玉华, 丁辰龙. 淡水驯化后大鳞鲃胚胎发育观察[J]. 南京师大学报 (自然科学版), 2017, 40(4): 109-115.
|
| [29] |
KNUTSEN G M, TILSETH S. Growth, development, and feeding success of Atlantic cod larvae Gadus morhua related to egg size[J]. Trans Am Fish Soc, 1985, 114(4): 507-511. doi: 10.1577/1548-8659(1985)114<507:GDAFSO>2.0.CO;2
|
| [30] |
熊美华. 长江五种鲤科鱼类早期形态发育与生长[D]. 武汉: 中国科学院研究生院 (水生生物研究所), 2006: 15-42.
|
| [31] |
顾志敏, 朱俊杰, 贾永义, 等. 太湖翘嘴红鲌胚胎发育及胚后发育观察[J]. 中国水产科学, 2008, 15(2): 204-214.
|
| [32] |
CHOJNACKI K A, DODSON M J, GEORGE A E, et al. Ontogenetic development of pallid sturgeon (Scaphirhynchusalbus) and shovelnose sturgeon (Scaphirhynchus platorynchus) from hatch through yolk absorption[J]. Ecol Freshw Fish, 2023, 32: 209-231. doi: 10.1111/eff.12680
|
| [33] |
黄俊, 朱挺兵, 杨德国, 等. 短须裂腹鱼仔稚鱼发育及生长特性的初步研究[J]. 水生态学杂志, 2019, 40(6): 99-105.
|
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