Effects of temperature and salinity on survival, growth and DNA methylation of juvenile Pacific abalone, Haliotis discus hannai Ino

Temperature and salinity are two of the most potent abiotic factors influencing marine mollusks. In this study, we investigated the individual and combined effects of temperature and salinity on the survival and growth of juvenile Pacific abalone, Haliotis discus hannai Ino, and also examined the DN...

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Bibliographic Details
Published in:Chinese journal of oceanology and limnology 2017-09, Vol.35 (5), p.1248-1258
Main Author: 孔宁 刘晓 李俊元 穆文丹 连建武 薛艳洁 李琪
Format: Article
Language:English
Subjects:
Abiotic factors
Abiotic stress
Aquaculture and Fisheries
Deoxyribonucleic acid
DNA
DNA methylation
DNA甲基化
Earth and Environmental Science
Earth Sciences
Epigenetics
Fish
Growth
Haliotis discus hannai
Individual rearing
Juveniles
Marine molluscs
Marine mollusks
Mollusks
Oceanography
Phenotypic variation
Phenotypic variations
Polymorphism
Profiles
Regulatory mechanisms (biology)
Salinity
Salinity effects
Shellfish
Survival
Temperature effects
太平洋
幼鱼生长
恒定温度
海洋软体动物
皱纹盘鲍
盐度
鲍鱼
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Summary:Temperature and salinity are two of the most potent abiotic factors influencing marine mollusks. In this study, we investigated the individual and combined effects of temperature and salinity on the survival and growth of juvenile Pacific abalone, Haliotis discus hannai Ino, and also examined the DNA methylation alteration that may underpin the phenotypic variation of abalone exposed to different rearing conditions. The single-factor data showed that the suitable ranges of temperature and salinity were 16-28℃ at a constant salinity of 32, and 24-40 at a constant temperature of 20℃, respectively. The two-factor data indicated that both survival and growth were significantly affected by temperature, salinity and their interaction. The optimal temperature-salinity combination for juveniles was 23-25℃ and 30-36. To explore environment-induced DNA methylation alteration, the methylation-sensitive amplified polymorphism (MSAP) technique was used to analyze the genomic methylation profiles of abalone reared in optimal and adverse conditions. Neither temperature nor salinity induced evident changes in the global methylation level, but 67 and 63 differentially methylated loci were identified in temperature and salinity treatments, respectively. The between-group eigen analysis also showed that both temperature and salinity could induce epigenetic differentiation in H. discus hannai Ino. The results of our study provide optimal rearing conditions for juvenile tt. discus hannai Ino, and represent the first step toward revealing the epigenetic regulatory mechanism of abalone in response to thermal and salt stresses.
ISSN:0254-4059
2096-5508
1993-5005
2523-3521
DOI:10.1007/s00343-016-5185-z