Embryonic and larval development of a highly threatened killifish: ecological and conservation implications

IF 1.4 4区环境科学与生态学 Q3 ECOLOGY Environmental Biology of Fishes Pub Date : 2024-03-07 DOI:10.1007/s10641-024-01529-y

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Abstract

Anthropogenic habitat degradation and alien invasive species have led to the rapid decline of freshwater fish biodiversity globally. The knowledge of threatened species’ embryogenesis and larval development could be important for the design of appropriate conservation measures to reverse their decline. Here, we describe the embryonic and larval development of the globally threatened Peloponnese Valencia (Valencia robertae) to inform urgently needed ex situ and in situ conservation initiatives, such as safety stock creation, conservation translocation, and population monitoring. The development of V. robertae is described from the embryonic to the juvenile stage from in vivo imaging, for the first time in detail for this species and genus. Valencia robertae’s fertilised eggs are large (approximately 2 mm), spherical, macrolecithal, translucent, with negative buoyancy, filaments at the outer surface, and several oil globules. They have a long incubation period (approximately 18 days at 20 ± 1 °C) and, in laboratory conditions, a high hatching rate (84%, n = 89). Various types of chromatophores are visible in the embryo, incl. melanophores, xanthophores, and iridophores at the dorsal area of the eye and at the iris. Embryos at hatching measure approximately 5.4 mm SL (6.5 mm TL) and have well-developed caudal and pectoral fins, large eyes, and well-developed mouth; exogenous feeding starts at 24–48 h post hatching. Sequential formation of fins continues with the development of the anal and dorsal fins and is completed by the formation of the pelvic fins, at approximately 11 mm SL (25–30 days post hatching). The ecological and conservation implications of our findings are discussed.

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一种濒危鳉鱼的胚胎和幼体发育：生态和保护意义

摘要人类活动造成的栖息地退化和外来入侵物种导致全球淡水鱼类生物多样性迅速减少。了解濒危物种的胚胎发生和幼体发育过程对于设计适当的保护措施以扭转其衰退趋势非常重要。在这里，我们描述了全球濒危的伯罗奔尼撒半岛瓦伦西亚鱼（Valencia robertae）的胚胎和幼体发育过程，为急需的异地和原地保护措施提供信息，如安全种群创建、保护性迁移和种群监测。该研究首次通过活体成像详细描述了瓦伦西亚蟑螂从胚胎到幼体的发育过程。Valencia robertae 的受精卵较大（约 2 毫米）、球形、大卵磷脂质、半透明、具有负浮力、外表面有丝状物和多个油球。它们的孵化期较长（20 ± 1 °C，约 18 天），在实验室条件下，孵化率较高（84%，n = 89）。胚胎中可见各种类型的嗜铬体，包括黑色素嗜铬体、黄嗜铬体以及位于眼背和虹膜处的虹膜嗜铬体。孵化时的胚胎长约 5.4 mm SL（6.5 mm TL），有发达的尾鳍和胸鳍、大眼睛和发达的嘴；孵化后 24-48 h 开始外源摄食。随着臀鳍和背鳍的发育，鳍的顺序形成继续进行，并在大约 11 mm SL（孵化后 25-30 天）时完成盆鳍的形成。本文讨论了我们的发现对生态和保护的影响。

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来源期刊

Environmental Biology of Fishes 环境科学-海洋与淡水生物学

CiteScore

2.60

自引率

14.30%

发文量

169

审稿时长

3 months

期刊介绍： Environmental Biology of Fishes is an international journal that publishes original studies on the ecology, life history, epigenetics, behavior, physiology, morphology, systematics and evolution of marine and freshwater fishes. Empirical and theoretical papers are published that deal with the relationship between fishes and their external and internal environment, whether natural or unnatural. The journal concentrates on papers that advance the scholarly understanding of life and draw on a variety of disciplines in reaching this understanding. Environmental Biology of Fishes publishes original papers, review papers, brief communications, editorials, book reviews and special issues. Descriptions and submission requirements of these article types can be found in the Instructions for Authors.