[1]曹善茂,汪健,王谦,等. 岩扇贝人工育苗的初步研究[J]. 大连海洋大学学报,2017,32(1):1-6.
[2]曹善茂,王昊,陈炜,等. 岩扇贝闭壳肌营养成分的分析及与中国 3 种扇贝的比较[J]. 大连海洋大学学报,2016,31(5):544-550.
[3]曹善茂,梁伟锋,汪健,等. 岩扇贝幼贝滤食率的基础研究[J]. 大连海洋大学学报,2016,31(6):612-617.
[4]Phleger C F,Holtz R B,Grimes P W,et al.Chemical and sensory analysis of the purple-hinge rock scallo Hinnites multirugosus Gale[J]. Journal of Food Science,1978,43(6):1793-1796.
[5]Maxwell-Miller G,Josephson R V,Spindler A A,et al.Chilled(5 ℃)and frozen(-18 ℃) storage stability of the purple-hinge rock scallop,Hinnites multirugosus Gale[J]. Journal of Food Science,1982,47(5):1654-1661.
[6]Monical James B. Comparative studies on growth of the purple-hinge rock scallop Hinnites multirugosus (Gale) in southern California[J]. Journal of the World Aquaculture Society,1979,10(1/2/3/4):648.
[7]Laurén D J.Oogenesis and protandry in the purple-hinge rock scallop,Hinnites giganteus,in upper Puget Sound,Washington,U.S.A.[J]. Canadian Journal of Zoology,1982,60(10):2333-2336.
[8]Cary S C,Leighton D L,Phleger C F.Food and feeding strategies in culture of larval and early juvenile purple -hinge rock scallops,Hinnites multirugosus (Gale)[J]. Journal of the World Aquaculture Society,1981,12(1):156-169.
[9]Culver C S,Richards J B,Page H M.Plasticity of attachment in the purple-hinge rock scallop,Crassadoma gigantea:implications for commercial culture[J]. Aquaculture,2006,254(1/2/3/4):361-369.
[10]Bernard F R. Crassadoma gen. nov. for “Hinnites”giganteus (Gray,1825) from the North-eastern Pacific Ocean (Bivalvia:Pectinidae)[J]. Venus 1986,45:70-74
[11]Waller T R. The evolution of “Chlamys” (Mollusca:Bivalvia:Pectinidae) in the tropical western Atlantic and eastern Pacific[J]. Am Malacol Bull,1993,10:195-249.
[12]Saavedra C,Pea J B. Phylogenetics of American scallops (Bivalvia:Pectinidae) based on partial 16S and 12S ribosomal RNA gene sequences[J]. Marine Biology,2006,150:111-119.
[13]Hebert P D N,Ratnasingham S,de Waard J R . Barcoding animal life:cytochrome c oxidase subunit 1 divergences among closely related species[J]. Proceedings of the Royal Society B:Biological Sciences,2003,270(S1):96-99.
[14]Ball S L,Hebert P D N,Burian S K,et al. Biological identifications of mayflies (Ephemeroptera) using DNA barcodes[J]. Journal of the North American Benthological Society,2005,24(3):508-524.
[15]程希婷,王爱民,顾志峰,等. DNA条形码研究进展[J]. 基因组学与应用生物学,2011,30(6):748-758.
[16]Feng Y W,Li Q,Kong L F,et al. DNA barcoding and phylogenetic analysis of Pectinidae (Mollusca:Bivalvia) based on mitochondrial COⅠ and 16S rRNA genes[J]. Molecular Biology Reports,2011,38(1):291-299.
[17]宋乔乔,柴志欣,钟金城. 禽流感病毒基因的密码子偏好性及聚类分析[J]. 生物技术,2014,24(2):48-53.
[18]孔晓瑜,刘亚军,喻子牛,等. 栉孔扇贝和海湾扇贝线粒体16S rRNA基因片段的比较研究[C]// 中国动物学会、中国海洋湖沼学会贝类学分会代表大会暨学术讨论会,1999.
[19]胡丽萍,姜黎明,黄晓婷,等. 基于16S rDNA基因序列探讨引进物种紫扇(Argopecten purpuratus)在海湾扇贝属(Argopecten)中的分类地位[J]. 海洋与湖沼,2016,47(6):1149-1157.
[20]朱立静,陈淑吟,许晓风,等. 四角蛤蜊江苏群体线粒体COⅠ基因片段序列研究[J]. 江苏农业科学,2010,38(4):33-35.
[21]程汉良,夏德全,吴婷婷,等. 6种帘蛤科贝类及4个地理种群文蛤线粒体COⅠ基因片段序列分析[J]. 海洋学报,2007,29(5):109-116.
[22]Howland D E,Hewitt G M. Phylogeny of the colepters based on mitochondrial cytochrome oxidase Ⅰ sequence data[J]. Insect Mol Bio,1995,4:203-205.
[23]Spicer G S . Phylogenetic utility of the mitochondrial cytochrome oxidase gene:molecular evolution of the Drosophila buzzatiispecies complex[J]. Journal of Molecular Evolution,1996,41(6):749-759.
[24]Thompson J D,Plewniak F,Poch O . A comprehensive comparison of multiple sequence alignment programs[J]. Nucleic Acids Research,1999,27(13):2682-2690.
[25]Ogdenw T H,Rosenberg M S. Multiple sequence alignment accuracy and phylogenetic inference[J]. Systematic Biology,2006,55(2):314-328.
[1]花婧,郑斯竹,安榆林,等.基于线粒体COⅠ基因的大小蠹属昆虫DNA条形码研究[J].江苏农业科学,2014,42(03):30.
Hua Jing,et al.Study on DNA barcodes of Dendroctonus insects based on mitochondrial cytochrome oxidaseⅠ gene[J].Jiangsu Agricultural Sciences,2014,42(07):30.
[2]王桢璐,姚东林,谢少林,等.基于线粒体Cyt b 和COⅠ基因序列的华南鲤群体遗传结构分析[J].江苏农业科学,2018,46(18):179.
Wang Zhenlu,et al.Analysis of population genetic structure of Cyprinus carpio rubrofuscus based on mitochondrial Cyt b and COⅠ gene sequences[J].Jiangsu Agricultural Sciences,2018,46(07):179.
[3]牛宝珍,李娜,刘艳红,等.基于线粒体COⅠ基因序列分析5个巨 群体的遗传多样性[J].江苏农业科学,2019,47(10):56.
Niu Baozhen,et al.Analysis of genetic diversity of five Bagarius yarrelli populations based on mitochondrial COⅠ gene[J].Jiangsu Agricultural Sciences,2019,47(07):56.
[4]杨吕娟,张子俊,张卫红.新疆农牧区拟蛹螺属2种蜗牛形态特征和分子数据的比较研究[J].江苏农业科学,2020,48(04):121.
Yang Lyujuan,et al.Comparative study on morphological characteristics and molecular data of two species of Pseudonapaeus in Xinjiang agricultural and pastoral areas[J].Jiangsu Agricultural Sciences,2020,48(07):121.