Histological characteristics of oocyte differentiation in the captive longnose seahorse Hippocampus trimaculatus (Leach, 1814)

Histological characteristics of oocyte differentiation in the captive longnose seahorse Hippocampus trimaculatus (Leach, 1814)

This study aimed to explore the reproductive histology and oocyte differentiation of the longnose seahorse Hippocampus trimaculatus (Leach, 1814) in captivity. Five mature healthy females were histologically observed. The reproductive systems of the five specimens exhibited similar morphological cha...

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Bibliographic Details
Published in:Journal of fish biology Vol. 105; no. 3; pp. 858 - 870
Main Authors: Senarat, Sinlapachai, Chumee, Supawadee, Kaneko, Gen, Wandee, Satiya, Kenthao, Anan, Kongtueng, Piyamat, Uribe, Mari Carmen, Nganvongpanit, Korakot, Iida, Atsuo, Sornying, Peerapon
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2024
Wiley Subscription Services, Inc
Subjects:
Alveoli
captive condition
Captivity
Cell size
Connective tissue
Connective tissues
Differentiation
Epithelium
Follicles
Gametocytes
Hippocampus trimaculatus
Histology
Marine fishes
Morphology
Oocytes
Oogenesis
Oogonia
Ovaries
Physical characteristics
Reproductive cycle
Reproductive status
Reproductive system
Saccule
Spawning
spawning season
captive condition
histology
spawning season
oogenesis
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Summary:This study aimed to explore the reproductive histology and oocyte differentiation of the longnose seahorse Hippocampus trimaculatus (Leach, 1814) in captivity. Five mature healthy females were histologically observed. The reproductive systems of the five specimens exhibited similar morphological characteristics with a pair of saccular creamy white ovaries merging caudally into a single gonoduct. There were two germinal ridges lined with a layer of germinal epithelium (GE). The ovarian maturation of this species was considered asynchronous. The oogenic cells were classified into oogonia and oocytes at several developmental phases based on their size and characteristics. Oogonia were identified among the connective tissue in the middle area of the GE. The stromal compartment contained oocytes that were classified into four distinct phases: the primary growth (PG) phase having two steps (perinucleolar and oil droplets‐cortical alveolar steps) and the secondary growth (SG) phase with three oocyte types, including early SG oocytes, late SG oocytes, and fully grown oocytes. The atretic oocytes (AO) were observed in all stages of oogenesis. Postovulatory follicles were also seen among the ovarian connective tissue. The occurrence of postovulatory follicles suggested that the specimens analysed in this study were in the spawning period. This research provides new insights into the identification of the reproductive cycles and morphological characteristics of the ovary of H. trimaculatus.
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ISSN:0022-1112
1095-8649
1095-8649
DOI:10.1111/jfb.15768