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本文引用的文献

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2
Growth, Survival and Reproduction of the Giant Clam Tridacna maxima (Röding 1798, Bivalvia) in Two Contrasting Lagoons in French Polynesia.法属波利尼西亚两个不同泻湖中巨蛤(长砗磲,1798年罗德命名,双壳纲)的生长、存活与繁殖
PLoS One. 2017 Jan 24;12(1):e0170565. doi: 10.1371/journal.pone.0170565. eCollection 2017.
3
A novel widespread cryptic species and phylogeographic patterns within several giant clam species (Cardiidae: Tridacna) from the Indo-Pacific Ocean.一种新型广泛的隐种和几种巨蛤科(帘蛤目:砗磲科)贝类在印度洋-太平洋的系统地理格局。
PLoS One. 2013 Nov 20;8(11):e80858. doi: 10.1371/journal.pone.0080858. eCollection 2013.

台湾巨蛤的繁殖与幼体早期生长

Reproduction and Early Juvenile Growth of the Giant Clams and in Taiwan.

作者信息

Su Po-Wei, Zhang Gwo-Liang, Chen Bonien, Soong Keryea, Liu Li-Lian

机构信息

Fisheries Agency, Council of Agriculture, Executive Yuan, Taipei, Taiwan. E-mail:

Department of Aquaculture, National Penghu University of Science and Technology, Penghu 880, Taiwan. E-mail:

出版信息

Zool Stud. 2021 Sep 7;60:e49. doi: 10.6620/ZS.2021.60-49. eCollection 2021.

DOI:10.6620/ZS.2021.60-49
PMID:35003343
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8685345/
Abstract

The reproductive cycle, larval development, and juvenile growth of and were investigated to improve their hatchery production for conservation and commercial use in Taiwan. To study the giant clam reproductive cycle, hypodermic extraction of oocytes from and was conducted in Dongsha and Kenting, Taiwan, from March 2013 to May 2014; ripe eggs were observed in both species from March to August. There was no apparent correlation between reproduction and water temperature. Artificial fertilization was successfully conducted in , , and a hybrid of ♀/♂. The diameter of fertilized eggs was 99.0 ± 8.1, 113.8 ± 18.5, and 116.3 ± 6.2 μm, respectively. On day 6, the hybrid died. grew more than in both 1-and 10-month-old juveniles. The juvenile growth of was compared between the artificial breeding sites of Penghu and Linbian, which represent the main ornamental aquatic animal culture areas of Taiwan. Starting with individuals with a shell length of 15.9 ± 2.5 mm (265 days old), the juveniles observed in Linbian were significantly larger than those in Penghu, , 26.6 ± 3.6 mm on day 307 vs. 18.6 ± 2.9 mm on day 321 ( < 0.001). This might be linked to the differences in local water temperatures between the two locations, , 20.3-27.0°C vs. 16.9-23.9°C, respectively. These results can be used to further research ways to maximize spat production and minimize giant clam operational costs.

摘要

为提高台湾地区用于保护和商业用途的孵化场产量,对[具体物种1]和[具体物种2]的繁殖周期、幼体发育及幼体生长进行了研究。为研究巨蛤的繁殖周期,于2013年3月至2014年5月在台湾东沙和垦丁对[具体物种1]和[具体物种2]进行了卵母细胞的皮下抽取;在3月至8月观察到这两个物种均有成熟卵。繁殖与水温之间无明显相关性。在[具体物种1]、[具体物种2]以及♀/♂杂交种中成功进行了人工授精。受精卵直径分别为99.0±8.1、113.8±18.5和116.3±6.2μm。在第6天,杂交种死亡。在1月龄和10月龄的幼体中,[具体物种1]的生长均超过[具体物种2]。比较了澎湖和林边这两个人工繁殖地点的[具体物种1]幼体生长情况,这两个地点代表了台湾主要的观赏水生动物养殖区。从壳长为15.9±2.5mm(265日龄)的个体开始,林边观察到的幼体明显大于澎湖的幼体,在第307天为26.6±3.6mm,而在第321天澎湖的为18.6±2.9mm(P<0.001)。这可能与两个地点的当地水温差异有关,分别为20.3 - 27.0°C和16.9 - 23.9°C。这些结果可用于进一步研究最大化稚贝产量和最小化巨蛤运营成本的方法。