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http://dx.doi.org/10.23005/ksmls.2022.7.2.163

Comparison of Biomarkers of Haliotis discus hannai and Hybrid Abalone (H. madaka♀*H. discus discus♂) in Marine Net Cage  

Hyeon Jin, Kim (Department of Aqualife Medicine, Chonnam National University)
So Ryung, Shin (Department of Aqualife Medicine, Chonnam National University)
Seong Jin, Kim (Department of Aqualife Medicine, Chonnam National University)
Jung Jun, Park (Aquaculture Research Division, National Institute of Fisheries Science)
Jung Sick, Lee (Department of Aqualife Medicine, Chonnam National University)
Publication Information
Journal of Marine Life Science / v.7, no.2, 2022 , pp. 163-170 More about this Journal
Abstract
In this study, the results of hybridization were evaluated by analyzing the biomarkers of Haliotis discus hannai and hybrid abalone (H. madaka♀*H. discus discus♂) in marine net cage. The survival rate was similar both experimental groups, but the growth (shell length) was about 10% faster in hybrid abalone. The deformity of respiratory pore in the hybrid abalone was about 6% lower than H. discus hannai, and the shell depression was about 15% lower in the hybrid abalone. In the biochemical composition, crude protein was about 3.1% higher in hybrid abalone, and showed similar values except for the crude protein. In the histological structure of the hepatopancreas, which performs the functions of digestion, absorption and detoxification of abalone, good results were obtained in the hybrid abalone. On these results, it is judged that the hybrid abalone will have high aquaculture productivity in the aquaculture environment.
Keywords
Hybrid abalone; Survival rate; Growth; Shell deformity; Hepatopancreas;
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1 Mateos HT, Lewandowski PA, Su XQ. 2010. Seasonal variations of total lipid and fatty acid contents in muscle, gonad, and digestive glands of farmed Jade Tiger hybrid abalone in Australia. Food Chem 123: 436-441.   DOI
2 Miyaki K, Niiyama H, Tabeta O. 1995. Growth and survival of artificial hybrid abalone, Nordotis gigantea female ×N. discusmale under laboratory rearing conditions. Bull Jpn Soc Sci Fish 43: 401-405.
3 Owen B, Daniel LG. 2012. Abalone: Worldwide Haliotidae. Conchbooks, Hackenheim, pp 361.
4 Palada-de Vera MS, Eknath AE. 1993. Predictability of individual growth rates in tilapia. Aquaculture 111: 147-158.   DOI
5 Park H. 2020. Physiological responses of Pacific abalone (Haliotis discus hannai) and hybrid abalone (Haliotis discus hannai×Haliotis discus discus) exposed to temperature and ammonia. Doctor's Thesis, Pukyong National University, Busan.
6 Park JJ, Kim S, Park MA, Lee JS. 2011. Ultrastructural changes in the mantle of the equilateral venus, Gomphina veneriformis (Bivalve: Veneridae) exposed to TBTCl. Korean J Malacol 27: 213-221.   DOI
7 Robinson N, Li X, Hayes B. 2010. Testing options for the commercialization of abalone selective breeding using bioeconomic simulation modelling. Aquac Res 41: 268-288.
8 Tate RD, Benkendorff K, Ab Lah R, Kelaher BP. 2017. Ocean acidification and warming impacts the nutritional properties of the predatory whelk, Dicathais orbita. J Exp Mar Biol Ecol 493: 7-13.   DOI
9 Tripp-Valdez MA, Cicala F, Galindo-Sanchez CE, Chacon-Ponce KD, Lopez-Landavery E, Diaz F, Re-Araujo D. 2021. Growth performance and transcriptomic response of warm-acclimated hybrid abalone Haliotis rufescens (♀) × H. corrugata (♂). Mar Biotechnol 23: 62-76.   DOI
10 Viana MT. 2002. Abalone aquaculture, an overview. World Aquaculture 33: 34-39.
11 Xiao Q, Shen Y, Gan Y, Wang Y, Zhang J, Huang Z, You W, Luo X, Ke C. 2022. Three-way cross hybrid abalone exhibit heterosis in growth performance, thermal tolerance, and hypoxia tolerance. Aquaculture 555: 738231.
12 You W, Guo Q, Fan F, Ren P, Luo X, Ke C. 2015. Experimental hybridization and genetic identification of Pacific abalone Haliotis discus hannai and green abalone H. fulgens. Aquaculture 448: 243-249.   DOI
13 You W, Wang B, Luo X, Ke C. 2019. Environmental stress tolerance and immune response for the small abalone hybrids. Aquac Int 27: 105-123.   DOI
14 Zaldibar B, Cancio I, Marigomez I. 2007. Reversible alterations in epithelial cell turnover in digestive gland of winkles (Littorina littorea) exposed to cadmium and their implications for biomarker measurements. Aquat Toxicol 81: 183-196.   DOI
15 Zuykov M, Vinarski M, Pelletier E, Demers S, Harper DA. 2012. Shell malformations in seven species of pond snail (Gastropoda, Lymnaeidae): analysis of large museum collections. Zoosyst Evol 88: 365-368.   DOI
16 Allen JV, Marsden DI, Ragg LCN, Gieseg S. 2006. Effects of tactile stimulants on feeding, growth, behavior, and meat quality of cultured Blackfoot abalone, Haliotis iris. Aquaculture 257: 294-304.   DOI
17 Alter K, Andrewartha SJ, Morash AJ, Clark TD, Hellicar AD, Leon RI, Elliott NG. 2017. Hybrid abalone are more robust to multi-stressor environments than pure parental species. Aquaculture 478: 25-34.   DOI
18 Anacleto P, Maulvault AL, Bandarra NM, Repolho T, Nunes ML, Rosa R, Marques A. 2014. Effect of warming on protein, glycogen and fatty acid content of native and invasive clams. Food Res Int 64: 439-445.   DOI
19 Boamah GA, Wang T, Chowdhury IA, Luo X, Huang M, Xu C, Ke C, You W. 2020. Sub-low salinity impact on survival, growth and meat quality of the pacific abalone (Haliotis discus hannai) and hybrids. Aquac Res 51: 5184-5193.   DOI
20 Food and Agriculture Organization of the United Nations (FAO). 2022. FishStatJ-Software for Fishery and Aquaculture Statistical Time Series. Statistics Team (NFISS) Fisheries and Aquaculture Division (NFI). Food and Agriculture Organization of the United Nations, Rome, Italy. https://www.fao.org/fishery/statistics/software/fish
21 Hamilton MG, Kube PD, Elliott NG, McPherson LJ, Krsinich A. 2009. Development of a breeding strategy for hybrid abalone. Proc Assoc Advmt Anim Breed Genet 18: 350-353.
22 Hara M, Kikuchi S. 1992. Increasing growth rate of abalone Haliotis discus hannai, using selective techniques. NOAA Tech Rep NMFS 106: 21-26.
23 Hara M. 1990. The effect of genetics of growth in three groups of abalone seed. Bull Tohoku Natl Fish Res Inst 52: 73-78.
24 Ju ZY, Viljeon C, Hutchinson P, Reinicke J, Horgen DF, Howard L, Lee CS. 2015. Effects of diets on the growth performance and shell pigmentation of Pacific abalone. Aquac Res 47: 1-11.   DOI
25 Jung GK, Park JJ, Jeon MA, Shin HC, Lee YG, Lee JS. 2013. Hepatopancreas ultrastructure of the spiny top shell, Batillus cornutus (Gastropoda: Turbinidae). Bull Fish Sci Inst Chonnam Nat Univ 21: 11-15.
26 Kim HJ, Shin SR, Lee JS, Hwang D, Kim JW. 2021. Biomarkers with dietary conditions of juvenile hybrid abalone (Haliotis discus discus♀*H. madaka♂). J Korean Soc Fish Ocean Technol 57: 365-373.   DOI
27 Kim J, Kim S, Lee JS, Kim JW. 2018. Tolerance on high water temperature of hybrid abalone (Haliotis discus hannai♀*H. discus discus♂). J Kor Soc Fish Mar Edu 30: 2102-2111.
28 Korean Statistical Information Service (KOSIS). 2022. Domestic Statistics. Korean Statistical Information System. https:// kosis.kr/index/index.do
29 Lafarga-De la Cruz F, Gallardo-Escarate C. 2011. Intraspecies and interspecies hybrids in Haliotis: natural and experimental evidence and its impact on abalone aquaculture. Rev Aquac 3: 74-99.   DOI
30 Kube PD, Appleyard SA, Elliott NG. 2007. Selective breeding greenlip abalone (Haliotis laevigata): preliminary results and issues. J Shellfish Res 26: 821-824.   DOI
31 Lafarga-De la Cruz F, Nunez-Acuna G, Gallardo-Escarate C. 2013. Hybridization between Haliotis rufescens and Haliotis discus hannai: evaluation of fertilization, larval development, growth and thermal tolerance. Aquac Res 44: 1206-1220.   DOI
32 Lemasson AJ, Hall-Spencer JM, Kuri V, Knight AM. 2018. Changes in biochemical and nutrient composition of seafood due to ocean acidification and warming. Mar Environ Res 143: 82-92.   DOI
33 Ma YB, Zou WG, Ai CX, You WW, Liu ST, Luo X, Ke CH. 2022. Evaluation of optimal dietary protein levels for juvenile hybrid abalone under three temperatures: growth performance, body composition, biochemical responses, and antioxidant capacity. Aquac Nutr 2022: 7008746.