Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)

Skeletal development is crucial for fish fry breeding because of its influence on external morphology and functional exercise. Skeletal deformity generally occurs during the breeding process of cultured fish and usually results in movement difficulty, growth retardation, and even extremely high mort...

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Published in:Aquaculture
Main Authors: Lv, Xuejiao, Xu, Shihong, Liu, Qinghua, Wang, Xueying, Yang, Jingkun, Song, Zongcheng, Li, Jun
Format: Report
Language:English
Published: ELSEVIER SCIENCE BV 2019
Subjects:
Scophthalmus maximus
Larva and juvenile
Allometric growth
Skeletal development
Skeletal deformity
Fisheries
Marine & Freshwater Biology
SOLE SOLEA-SENEGALENSIS
SALMON SALMO-SALAR
VERTEBRAL COLUMN
FISH LARVAE
RETINOIC ACID
SEA BREAM
CEPHALIC SKELETON
JAPANESE FLOUNDER
WILD-CAUGHT
Salmo salar
Turbot
Online Access:http://ir.qdio.ac.cn/handle/337002/160357
https://doi.org/10.1016/j.aquaculture.2018.08.063
id ftchinacasciocas:oai:ir.qdio.ac.cn:337002/160357
record_format openpolar
spelling ftchinacasciocas:oai:ir.qdio.ac.cn:337002/160357 2023-05-15T18:09:59+02:00 Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus) Lv, Xuejiao Xu, Shihong Liu, Qinghua Wang, Xueying Yang, Jingkun Song, Zongcheng Li, Jun 2019 http://ir.qdio.ac.cn/handle/337002/160357 https://doi.org/10.1016/j.aquaculture.2018.08.063 英语 eng ELSEVIER SCIENCE BV AQUACULTURE http://ir.qdio.ac.cn/handle/337002/160357 doi:10.1016/j.aquaculture.2018.08.063 Scophthalmus maximus Larva and juvenile Allometric growth Skeletal development Skeletal deformity Fisheries Marine & Freshwater Biology SOLE SOLEA-SENEGALENSIS SALMON SALMO-SALAR VERTEBRAL COLUMN FISH LARVAE RETINOIC ACID SEA BREAM CEPHALIC SKELETON JAPANESE FLOUNDER WILD-CAUGHT 期刊论文 2019 ftchinacasciocas https://doi.org/10.1016/j.aquaculture.2018.08.063 2022-06-27T05:40:24Z Skeletal development is crucial for fish fry breeding because of its influence on external morphology and functional exercise. Skeletal deformity generally occurs during the breeding process of cultured fish and usually results in movement difficulty, growth retardation, and even extremely high mortality. Severe deformity in breeding can lead to significant financial losses and restricts sustainable development of the fish aquaculture industry. Turbot (Scophthalmus maximus) is an important mariculture fish species with high commercial value in China. In the present study, we systematically investigated the growth characteristics, timing and progression of skeletal development, types and incidence of skeletal deformities, and their relationships in turbot during the breeding process. The results of the study revealed that allometric growth in the cranium, spine, and caudal fins occurred during the early developmental period, and the skeleton associated with jaw elements, gill components, and the caudal fin appeared and ossified preferentially. The timing and progression of skeletal development was significantly correlated with the functional requirement for food ingestion, respiration, and swimming capacity. Moreover, 14.15% incidence of deformities during the larval and juvenile stages were observed, including albinism (6%), uncoordinated appearance (4.5%), spinal deformities (2.3%), cranium deformities (0.5%), and fin deformities (0.85%). Spinal and cranium deformities significantly affected external morphology and growth. Albinism was the major type of abnormality in the appearance of turbot, although albinism had no significant effect on growth and development. The results of the present study provide useful information for the early detection of skeletal deformities and for the optimization of fish fry breeding technologies. Report Salmo salar Scophthalmus maximus Turbot Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR Aquaculture 498 351 363
institution Open Polar
collection Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR
op_collection_id ftchinacasciocas
language English
topic Scophthalmus maximus
Larva and juvenile
Allometric growth
Skeletal development
Skeletal deformity
Fisheries
Marine & Freshwater Biology
SOLE SOLEA-SENEGALENSIS
SALMON SALMO-SALAR
VERTEBRAL COLUMN
FISH LARVAE
RETINOIC ACID
SEA BREAM
CEPHALIC SKELETON
JAPANESE FLOUNDER
WILD-CAUGHT
spellingShingle Scophthalmus maximus
Larva and juvenile
Allometric growth
Skeletal development
Skeletal deformity
Fisheries
Marine & Freshwater Biology
SOLE SOLEA-SENEGALENSIS
SALMON SALMO-SALAR
VERTEBRAL COLUMN
FISH LARVAE
RETINOIC ACID
SEA BREAM
CEPHALIC SKELETON
JAPANESE FLOUNDER
WILD-CAUGHT
Lv, Xuejiao
Xu, Shihong
Liu, Qinghua
Wang, Xueying
Yang, Jingkun
Song, Zongcheng
Li, Jun
Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
topic_facet Scophthalmus maximus
Larva and juvenile
Allometric growth
Skeletal development
Skeletal deformity
Fisheries
Marine & Freshwater Biology
SOLE SOLEA-SENEGALENSIS
SALMON SALMO-SALAR
VERTEBRAL COLUMN
FISH LARVAE
RETINOIC ACID
SEA BREAM
CEPHALIC SKELETON
JAPANESE FLOUNDER
WILD-CAUGHT
description Skeletal development is crucial for fish fry breeding because of its influence on external morphology and functional exercise. Skeletal deformity generally occurs during the breeding process of cultured fish and usually results in movement difficulty, growth retardation, and even extremely high mortality. Severe deformity in breeding can lead to significant financial losses and restricts sustainable development of the fish aquaculture industry. Turbot (Scophthalmus maximus) is an important mariculture fish species with high commercial value in China. In the present study, we systematically investigated the growth characteristics, timing and progression of skeletal development, types and incidence of skeletal deformities, and their relationships in turbot during the breeding process. The results of the study revealed that allometric growth in the cranium, spine, and caudal fins occurred during the early developmental period, and the skeleton associated with jaw elements, gill components, and the caudal fin appeared and ossified preferentially. The timing and progression of skeletal development was significantly correlated with the functional requirement for food ingestion, respiration, and swimming capacity. Moreover, 14.15% incidence of deformities during the larval and juvenile stages were observed, including albinism (6%), uncoordinated appearance (4.5%), spinal deformities (2.3%), cranium deformities (0.5%), and fin deformities (0.85%). Spinal and cranium deformities significantly affected external morphology and growth. Albinism was the major type of abnormality in the appearance of turbot, although albinism had no significant effect on growth and development. The results of the present study provide useful information for the early detection of skeletal deformities and for the optimization of fish fry breeding technologies.
format Report
author Lv, Xuejiao
Xu, Shihong
Liu, Qinghua
Wang, Xueying
Yang, Jingkun
Song, Zongcheng
Li, Jun
author_facet Lv, Xuejiao
Xu, Shihong
Liu, Qinghua
Wang, Xueying
Yang, Jingkun
Song, Zongcheng
Li, Jun
author_sort Lv, Xuejiao
title Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
title_short Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
title_full Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
title_fullStr Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
title_full_unstemmed Osteological ontogeny and allometric growth in larval and juvenile turbot (Scophthalmus maximus)
title_sort osteological ontogeny and allometric growth in larval and juvenile turbot (scophthalmus maximus)
publisher ELSEVIER SCIENCE BV
publishDate 2019
url http://ir.qdio.ac.cn/handle/337002/160357
https://doi.org/10.1016/j.aquaculture.2018.08.063
genre Salmo salar
Scophthalmus maximus
Turbot
genre_facet Salmo salar
Scophthalmus maximus
Turbot
op_relation AQUACULTURE
http://ir.qdio.ac.cn/handle/337002/160357
doi:10.1016/j.aquaculture.2018.08.063
op_doi https://doi.org/10.1016/j.aquaculture.2018.08.063
container_title Aquaculture
container_volume 498
container_start_page 351
op_container_end_page 363
_version_ 1766182689753268224

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