机构地区:[1]CAS Key Laboratory of Tropical Marine Bio-Resources and Ecology,Guangdong Provincial Key Laboratory of Applied Marine Biology,South China Sea Institute of Oceanology,Chinese Academy of Sciences,Guangzhou 510301,China [2]Southern Marine Science and Engineering Guangdong Laboratory(Guangzhou),Guangzhou 510301,China [3]University of Chinese Academy of Sciences,Beijing 100049,China [4]Innovation Academy of South China Sea Ecology and Environmental Engineering,Chinese Academy of Sciences,Guangzhou 510301,China [5]Guangxi A Bang-Ding Marine Technology Company,Nanning 530000,China
出 处:《Marine Life Science & Technology》2021年第4期463-473,共11页海洋生命科学与技术(英文)
基 金:This research was supported by the National Science Foundation of China(32002387);the Chinese Ministry of Science and Technology through the National Key Research and Devel-opment Program of China(2018YFC1406505,2018YFD0901400,2020YFD0901102);Key Special Project for Introduced Talents Team of Southern Marine Science and Engineering Guangdong Laboratory(Guangzhou)(GML2019ZD0404);the Innovation Academy of South China Sea Ecology and Environmental Engineering,Chinese Academy of Sciences(ISEE2018PY01,ISEE2018ZD02,ISEE2018PY03);the China Agriculture Research System Project(CARS-49),and the Science and Technology Planning Project of Guangdong Province,China(2017B030314052).
摘 要:The production of an all-triploid population by mating tetrapioid males with diploid females is the best and most fundamental method for the large-scale production of triploid oysters.Obtaining a stable tetrapioid population is essential for guaranteed production in industrialized triploid cultivation.C.hongkongensis and C.sikamea are important oyster breeding species in southern China,and have great economic value.However,there are not any published data on inducing tetrapioid C.hongkongensis or C.sikamea.Therefore,we investigated tetrapioid induction in these two oyster species by inhibiting the PB1 release in diploid fertilized eggs using Cytochalasin B(CB)under 31℃,15%o salinity.The results confirmed that the optimal tetrapioid induction conditions for C.hongkongensis were a CB concentration of 0.50 mg/L with induction starting at 9.0 min after fertilization,and stopping at 21.0 min after fertilization;the induction efficiency index reached 0.123 under these conditions.The optimal tetrapioid induction conditions for C.sikamea were a CB concentration of 0.50 mg/L,with induction starting at 7.5 min after fertilization and stopping at 18 min after fertilization;the induction efficiency index could be as high as 0.281 under these conditions.However,we confirmed that the tetrapioid rate decreased with larval growth,and no tetrapioids were detected in the juvenile period of either C.hongkongensis or C.sikamea.This may be attributed to the very low survival of the tetrapioid larvae induced by this method,especially as most tetrapioid larvae died during the first three days.In summary,it is simple to directly induce tetrapioid C.hongkongensis and C.sikamea larvae by inhibiting the PB1 release of diploid zygotes,but the low survival rate makes it challenging to obtain viable juvenile tetrapioids.
关 键 词:Crassostrea hongkongensis Crassostrea sikamea Tetrapioid DIPLOID Optimal induction conditions
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