参考文献
[1]Klemetsen A, Amundsen P , B. Dempson J, et al. Atlantic Salmon Salmo Salar L.,Brown Trout Salmo Trutta L. And Arctic Charr Salvelinus Alpinus (L.): A Review OfAspects Of Their Life Histories[J]. Ecology of Freshwater Fish, 2003, 12(1):1–59.
[2]C. Labbe and G. Maisse, “Characteristics and freezing tolerance of brown troutspermatozoa according to rearing water salinity,” Aquaculture, vol. 201, no. 3-4, pp.287-299, Oct.2001.
[3]K. Sarvi, H. Niksirat, B. Mojazi Amiri, S. M. Mirtorabi, G. R. Rafiee, and M.Bakhtiyari, “Cryopreservation of semen from the endangered Caspian brown trout(Salmo trutta caspius),” Aquaculture, vol. 256, no. 1-4, pp. 564-569, June2006.
[4]F. Lahnsteiner, T. Weismann, and R. A. Patzner, “Methanol as cryoprotectant and thesuitability of 1.2 ml and 5 ml straws for cryopreservation of semen from salmonidfishes,”Aquacult. Res., vol. 28, no. 6, pp. 471-479, June1997.
[5]MacCrimmon H R, Marshall T L, Gots B L. World distribution of brown trout, Salmotrutta: further observations[J]. Journal of the Fisheries Board of Canada, 1970, 27(4):811-818.
[6]MacCrimmon, H.R. and T.L. Marshall. 1968. World distrution of brown trout, Salmotrutta. J. Fish.Res. Board Can. 25:2527-2548
[7]豪富华。 亚东鲑的生物学和遗传多样性研究[D]. 中国科学院研究生院 (水生生物研究所), 2006.
[8]J. M. Elliott, Quantitative ecology and the brown trout. Oxford: Oxford UniversityPress, 1994, pp. 1-304.
[9]M. Coste, Instructions pratiques sur la pisciculture, suivies de mémoires et derapports sur le même sujet. Paris: Librairie Victor Masson, 1853, pp. 1-140.
[10]张春霖, 王文滨。 西藏鱼类初篇。 动物学报, 1962,14(4): 529-536.
[11]武云飞, 吴翠珍。 青藏高原鱼类[M]. 四川科学技术出版社, 1992.
[12]彭仕盛。西藏鱼类及其资源[M]. 北京: 中国农业出版社,1995.
[13]蒲德永, 王志坚, 赵海鹏, 等。 亚东鲑消化系统的形态学和组织学观察[J]. 四川动物, 2007, 25(4): 825-828.
[14]豪富华, 陈毅峰, 蔡斌。 西藏亚东鲑的胚胎发育[J]. 水产学报, 2006, 30(3):289-296.
[15]豪富华, 陈毅峰, 唐卫星, 等。 亚东鲑的年龄与生长的研究[J]. 水生生物学报,2007, 31(5): 731-737.
[16]孟玮, 杨天燕, 海萨, 等。 基于线粒体 COI 基因序列的亚东鲑 DNA 条形码研究[J]. 水产学杂志, 2010, 23(1): 6-10.
[17]李福贵, 邹曙明。 亚东鲑线粒体 COI 与 COⅡ基因遗传多样性分析[J]. 安徽农业科学, 2014, (23):7710-7713.
[18]郭秀明, 李福贵, 蒋霞云等。 亚东鲑基因组中Tc1-like转座子的序列歧化特征分析[J]. 上海海洋大学学报, 2014, 23(1):15-21.
[19] J. Schmidt, “Racial studies in fishes. III. Diallel crossings with trout (Salmo truttaL.),” J. Genet., vol. 9, pp. 61-67, 1919.
[20] J. M. Blanc, H. Poisson, and R. Vibert, “Variabilité génétique de la ponctuationnoire sur la truitelle fario (Salmo trutta L.),” Ann. Genet. Sel.Anim., vol. 14, pp.225-236, 1982.
[21]B. Chevassus, F. Krieg, R. Guyomard, J. M. Blanc, and E. Quillet, “The geneticsof brown trout: twenty years of French research,” Buvisindi Icel. Agric. Sci.,vol. 6, pp. 109-124, 1992.
[22]J. M. Blanc, “Inheritance of the number of red spots on the skin of the brown trout,”Aquat. Living Resour., vol. 7, pp. 133-136, 1994.
[23]J. M. Blanc, B. Chevassus, and P. Bergot, “Déterminisme génétique du nombrede caeca pyloriques chez la truite fario (Salmo trutta, Linné) et la truite arcenciel (Salmogairdneri, Richardson)。 III. Effet du génotype et de la taille des oeufs sur la réalisationdu caractère chez la truite fario,” Ann. Genet. Sel.Anim., vol. 11, pp. 93-103, 1979.
[24]J. M. Blanc and J. F. Toulorge, “Variabilité génétique de la performancede nage chez l'alevin de truite fario (Salmo trutta),”Ann. Genet. Sel.Anim.,vol. 13, pp. 165-176, 1981.
[25]B. Chevassus, E. Quillet, F. Krieg, M. G. Hollebecq, M. Mambrini, A. Faure, L.Labbe, J. P. Hiseux, and M. Vandeputte, “Enhanced individual selection for selectingfast growing fish: the ”PROSPER“ method, with application on brown trout (Salmotrutta fario),” Genet. Sel. Evol., vol. 36, pp. 643-661, 2004.
[26]B. Chevassus, E. Quillet, F. Krieg, M. G. Hollebecq, M. Mambrini, A. Faure,L. Labbe, J. P. Hiseux, and M. Vandeputte, “Improved mass selection for growth rate inbrown trout (Salmo trutta fario): the ”PROSPER“ process,”Aquaculture, vol. 247, p. 8,2005.
[27]M. Vandeputte, E. Quillet, and B. Chevassus, “Early development and survival inbrown trout (Salmo trutta fario L.): indirect effects of selectionfor growth rate and estimation of genetic parameters,” Aquaculture, vol. 204,pp. 435-445, 2002.
[28]P. D. Scheerer and G. H. Thorgaard, “Increased survival in salmonid hybrids byinduced triploidy,” Can. J. Fish. Aquat. Sci., vol. 40, pp. 2040-2044, 1983.
[29]K. Arai and N. P. Wilkins, “Triploidization of brown trout (Salmo trutta) byheat shocks,”Aquaculture, vol. 64, pp. 97-103, 1987.
[30]L. Bernatchez, “The evolutionary history of brown trout (Salmo trutta L.) inferredfrom phylogeographic, nested clade, and mismatch analyses of mitochondrialvariation,” Evolution, vol. 55, no. 2, pp. 351-379, Feb.2001.
[31]F. Krieg and R. Guyomard, “Population genetics of French brown trout (Salmotrutta L.): large geographical differentiation of wild populations and high similarity ofdomesticated stocks,” Genet. Sel. Evol., vol. 17, pp. 225-242, 1985.
[32]M. M. Hansen, E. E. Nielsen, D. E. Ruzzante, C. Bouza, and K. L. D. Mensberg,“Genetic monitoring of supportive breeding in brown trout (Salmo trutta L.),using microsatellite DNAmarkers,” Can. J. Fish. Aquat. Sci., vol. 57, pp. 2130-2139,2000.
[33]K. Gharbi, A. Gautier, R. G. Danzmann, S. Gharbi, T. Sakamoto, B. Hoyheim,J. B. Taggart, M. Cairney, R. Powell, F. Krieg, N. Okamoto, M. M. Ferguson, L.E. Holm, and R. Guyomard, “A Linkage Map for Brown Trout (Salmo trutta):Chromosome Homeologies and Comparative Genome Organization WithOther Salmonid Fish,” Genetics, vol. 172, no. 4, pp. 2405-2419, Apr.2006.
[34]曾国庆, 陈艺燕。 微卫星位点筛选方法综述[J]. 生态科学,2005,24: 368~ 372[35]Weber J L, Wong C. Mutation of human short tandem repeats. Hum. Mol. Genet.,1993, 2:1123-1128.
[36]Crawford A M, Cuthbertson R P. Mutations in sheep microsatellites. Genome Res.,1996, 6:876-879.
[37]刘伟,微卫星标记与 3 个鲤群体生长性状的相关分析[D]. 南京农业大学, 2011.
[38]O'Connell M, Wright J M. Microsatellite DNA in fishes. Rev. Fish Biol. Fish., 1997,7:331-363.
[39]全迎春,孙效文,梁利群,等。应用微卫星多态分析四个鲤鱼群体的遗传多样性[J].动物学研究,2005,26(6):595-602.
[40]葛会争。 德国镜鲤与黑龙江野鲤杂交组合的亲子鉴定及鲤鱼免疫功能基因SNP位点研究[D]. 上海海洋大学, 2012.
[41]刘伟。 微卫星标记与 3 个鲤群体生长性状的相关分析[D]. 南京农业大学, 2011.
[42]Andrews J W, Knight L H, Page J W, et al. Interactions of stocking density andwater turnover on growth and food conversion of channel catfish reared in intensivelystocked tanks [J]. The Progressive Fish-Culturist, 1971, 33(4): 197-203.
[43]Allen K O. Effects of stocking density and water exchange rate on growth andsurvival of channel catfish Ictalurus punctatus in circular tanks[J]. Aquaculture, 1974, 4:29-39.
[44]Fagerlund U H M, McBride J R, Stone E T. Stress-related effects of hatcheryrearing density on coho salmon[J]. Transactions of theAmerican Fisheries Society, 1981,110(5): 644-649.
[45]Suresh A V, Lin C K. Effect of stocking density on water quality and production ofred tilapia in a recirculated water system[J]. Aquacultural Engineering, 1992, 11(1):1-22.
[46]陈春娜, 黄颖颖, 陈先均。 养殖密度对长薄鳅稚鱼生长的影响[J]. 当代水产,2011 (2): 65-68.
[47]江仁党。 放养密度对虹鳟稚鱼生长的影响[J]. 水产学杂志, 2009, 22(4): 31-33.
[48]Marchand F and Boisclair D. Influence of fish density on the energy allocationpattern of juvenile brook trout (Salvelinus fontinalis) [J]. Can J Fish Aquat Sci,1998, 55:796-805
[49]李大鹏,庄平,严安生,等。光照、水流和养殖密度对施氏鲟幼鱼摄食、行为和生长的影响[J]. 水产学报,2004,28(1): 54 -61
[50]于淼。 拥挤胁迫对鲤生长和生理指标的影响:[硕士学位论文] . 武汉:华中农业大学,2005
[51]步艳。 养殖密度对大杂交鲟幼鱼生长与生理生化的影响[D]. 中国海洋大学,2013.
[52]Vijayan M M, Leatherland J F. High stocking dengsity affects cortisol secretion andtissuedistribution in brook charr (Salvenlinus fontinalis)[J].J Endocriol,1990,124:311-318
[53]王文博,汪建国,李爱华,等。 拥挤胁迫后鲫鱼血液皮质醇和溶菌酶水平的变化及对病原的敏感性。 中国水产科学,2004,11(5):408~412
[54] Rosenthal H, Hansen P D, Peters G, et al. Water quality in relation to simulatedstocking density and its effect on rainbow trout [M].
[55]王文博,李爱华,汪建国,等。拥挤胁迫对草鱼非特异性免疫功能的影响[J].水产学报,2004, 28(2) :139 -144
[56]张永安,孙宝剑,聂品。 鱼类免疫组织和细胞的研究概况[J]. 水生生物学报,2000,24(6) :648 -653
[57]Pickering AD, Stewart A.Acclimation of the interrenal tissue of the brown trout,Salmo trutta L,to chronic crowding stress[J].J Fish Biol,1984,24(6):731-740
[58]Espelid S,Lokken G B,Steiro K, et al.Effects of cortisol and stress on the immunesystem inatlantic Salmon (Salmo salar)[J].Fish Shellfish Immunol,1996,6(2):95-110
[59]Ellsaesser C F, Clem LW.Cortisol-induced hematologic and immunologic changesin channel catfish(Ictalurus punctatus)[J].Comp Biochem Physiol.1987,87(2)A:405-408
[60]王镜岩,朱圣庚,徐长法,等。生物化学[M].北京:高等教育出版社(第3版),2002.
[61]Halver J E, Hardy R W. Fish Nutrition (3th edited)[M]. San Diego: Academic Press,2002.
[62]Friedman M. Nutritional Value of Proteins from Different Food Sources. AReview[J]. Journal of Agriculture and Food Chemistry, 1996,44 (1): 6-29.
[63] 朱 圣 陶 , 吴 坤 .蛋 白质 营养 价 值评 价 -氨 基酸 比值 系 数法 [J]. 营 养学报,1988,10(2):187-190.
[64] Pellett P L, Young V R. Nutritional evaluation of protein foods. Tokyo: The UnitedNational University Press, 1980.
[65]中国预防医学科学院营养与食品卫生研究所编着。食物成分表(全国分省值)[M]. 北京:人民卫生出版社,1991.
[66]梁银铨, 崔希群, 刘友亮。 鳜肌肉生化成分分析和营养品质评价[J].水生生物学报, 1998,22(4): 386-388.
[67]张伟敏, 钟耕, 王炜。2005.单不饱和脂肪酸营养及其生理功能研究概况。粮食与油脂, 3:13-15
[68]吴时敏。2001.脂肪酸的膳食平衡研究进展。山东食品科技, 1:33- 34
[69]Saigent J R, Bell J Q McEvoy L,et al. Recent developments in the essential fattyacid nutrition of fish[J], Aquaculture, 1999b,177: 191-199.
[70]Sargent J R,Bell J G, Bell M V, et al. Requirement criteria for essential fattyacids[J], Journal of applied Ichthyology, 1995,11:183-198.
[71]Holman R T. Control of polyunsaturated fatty acids in tissue lipids[J]. Journal ofthe American College of Nutrition, 1986,5: 183-211.
[72]Cano R L ,Brown W M,Wilson AC. Polymorphic sites and the mechanism ofevolution in human mitochondrial DNA[J ] . Genetics,1984,106 :479-499.
[73]Maarten J N ,Franz J W. Constraints on Allele Size at microsatellite Loci :Implications for Genetic Differentiation [J]. Genetics,1996,(143):1 021-1 032.
[74]Yan J P ,Liu S J,Sun Y D ,et al. RAPD and microsatellite analysis of diploidgynogens from allotetraploid hybrids of red crucian carp ( Carassius auratus)× commoncarp (Cyprinus carpio ) [J].Aquaculture,2005(243):49-60.
[75]耿波,孙效文,梁利群,等。 利用 17 个微卫星标记分析鳙鱼的遗传多样性 [J ].遗传,2006,28(6):683-688.
[76]Yuea G H ,Hoa M Y ,Orbana L. Microsatellites within genes and ESTs ofcommon carp and their applicability in silver crucian carp [J]. Aquaculture,2004,(234):85-98.
[77]梁利群,常玉梅,董崇智。 微卫星 DNA 标记对乌苏里江哲罗鱼遗传多样性的分析[J]. 水产学报。 2004,28(3):241-244.
[78]Andrew P M ,Amanda T P,Leslie R N. Conservation of a dinucleotide simplesequence repeat locus in sharks [ J ] . Mol Phylogenet Evol ,2002(23):205-213.
[79]Apostolidis et al.Genetic divergence among native trout Salmo trutta populationsfrom southern Balkans based on mitochondrial DNA and microsatellite variation[ J ].Fish Biol., 79 (2011), . 1950–1960
[80]O'Reilly P T, Hamilton L C, McConnell S K, et al. Rapid analysis of geneticvariation in Atlantic salmon (Salmo salar) by PCR multiplexing of dinucleotide andtetranucleotide microsatellites[J]. Canadian Journal of Fisheries and Aquatic Sciences,1996, 53(10):2292-2298.
[81]A E, F R, Y M, et al. Comparative analysis of microsatellite and allozyme markers:a case study investigating microgeographic differentiation in brown trout ( Salmotrutta )[J]. Molecular Ecology, 1998, 7(3):339–353.
[82]Slettan A, Olsaker I, Lie . Polymorphic Atlantic salmon, Salmo salar L.,microsatellites at the SSOSL438, SSOSL439 and SSOSL444 loci.[J]. Animal Genetics,1996, 27(1):57–58.
[83]Presa P, Guyomard R. Conservation of microsatellites in three species ofsalmonids[J]. Journal of Fish Biology, 1996, 49(6):1326–1329.
[84]Bernatchez, L.; Guyomard, R.; Bonhomme, F., 1992: DNA sequence variation ofthe mitochondrial control region among geographi-cally and morphologically remote1
[85]Bernatchez, L., 2001: The evolutionary history of brown trout(Salmo trutta L.)inferred from phylogeographic, nested clade,and mismatch analyses of mitochondrialDNAvariation. Evol.55, 351–379
[86]蒙子宁,庄志猛,金显仕,等。 黄海和东海小黄鱼遗传多样性的 RAPD 分析[J].生物多样性。 2003(3): 197-203.
[87]张四明,邓怀,汪登强,等。7 种鲟形目鱼类亲缘关系的随即扩增多态性 DNA研究[J]. 自然科学进展,1999,9:20-26
[88] Dewoody J A, Avise J C. Microsatellite variation in marine, freshwater andanadromous fishescompared with other animals[J]. Journal of Fish Biology. 2000, 56(3): 461-473.
[89]Botstein D, White R L, Skolnick Met al. Construction of a genetic linkage map inman using restrictionf ragment length polymorphisms[J]. American Journal of HumanGenetics,1980,32(2):314-331.
[90]常青, 曹发华, 朱立峰,等。 长江下游地区夜鹭种群微卫星变异及遗传多样性[J].动物学报, 2005, 51(4): 657-663
[91]梁利群,冯国军,常玉梅,等。鲤野生和养殖群体遗传多样性分析中的微卫星(SSLP)分析[J].淡水渔业,2007, 37(2):38-40.
[92]Thorpe J P. The molecular clock hypothesis: biochemical evolution, geneticdifferentiation and systematics[J]. Annual Review of Ecology and Systematics. 1982, 13:139-168.
[93] BOTSTEIN D, WHITE R L, SKOLNICK M, et a1 . Construction of a geneticlinkage map in man using restriction fragment length polymorphism[ J] . Am J Hum Get,1980 , 32( 3 ) : 314- 331.
[94]汪桂玲, 袁一鸣, 李家乐。 中国五大湖三角帆蚌群体遗传多样性及亲缘关系的SSR 分析[J]. 水产学报, 2007, 31(2):152-158.
[95]李红蕾,宋林生, 刘保忠, 等。栉孔扇贝不同种群的遗传结构及其杂种优势[ J].海洋与湖沼, 2002,33( 2): 188- 194.
[96]Smith H T, Schreck C B, Maughan O E. Effect of population density and feedingrate on the fathead minnow (Pimephales promelas)[J]. Journal of Fish Biology, 1978,12(5): 449-455.
[97]庄平,李大鹏。 养殖密度对史氏鲟稚鱼生长的影响[J]. 应用生态学报, 2002,13(6): 735-738.
[98]Schreck C B, Patino R, Pring C K, et al. Effects of rearing density on indices ofsmoltification and performance of coho salmon, Oncorhynchus kisutch [J]. Aquaculture,1985, 45(1): 345-358.
[99]Vijayan M M, Leatherland J F. Effect of stocking density on the growth andstress-response in brook charr, Salvelinus fontinalis [J]. Aquaculture, 1988, 75(1):159-170.
[100]Jonsson S. Stocking of brown trout (Salmo trutta L.)[M]. Fisheries Managementand ecology,1999.
[101]V?llestad L A, Olsen E M, Forseth T. Growth‐rate variation in brown trout insmall neighbouring streams: evidence for density‐dependence?[J]. Journal of FishBiology, 2002, 61(6): 1513-1527.
[102]Jenkins Jr T M, Diehl S, Kratz K W, et al. Effects of population density onindividual growth of brown trout in streams[J]. Ecology, 1999, 80(3): 941-956.
[103]Asbj?rn V?llestad L, Moland Olsen E. Non‐additive effects ofdensity‐dependent and density‐independent factors on brown trout vital rates[J].Oikos, 2008, 117(11): 1752-1760.
[104]廖锐, 区又君, 勾效伟。 养殖密度对鱼类福利影响的研究进展 I. 死亡率,生长, 摄食以及应激反应[J]. 南方水产科学, 2006, 2(6): 76-80.
[105]刘文奎, 樊启学, 杜海明, 等。 养殖密度对杂交鳢仔鱼生长与存活的影响[J].淡水渔业, 2007, 37(4): 45-48.
[106]Martin R M, Wertheimer A. Adult production of chinook salmon reared at differentdensities and released as two smolt sizes[J]. The Progressive Fish-Culturist, 1989, 51(4):194-200.
[107]白庆利, 于洪贤, 张玉勇, 等。 养殖密度对哲罗鱼稚鱼生长和存活的影响[J].东北林业大学学报, 2009, 37(2): 63-64.
[108]Shelbourn J E, Brett J R, Shirahata S. Effect of temperature and feeding regime onthe specific growth rate of sockeye salmon fry (Oncorhynchus nerka), with aconsideration of size effect[J]. Journal of the Fisheries Board of Canada, 1973, 30(8):1191-1194.
[109]张永泉, 尹家胜, 王丙乾, 等。 养殖密度对白点鲑幼鱼生长, 存活以及行为的影响[J]. 大连水产学院学报, 2009, 24(6): 520-524.
[110]邵邻相, 谢炜, 叶菲菲。 养殖密度对地图鱼幼鱼生长发育的影响[J]. 水产科学,2005, 24(4): 7-9.
[111]黄宁宇, 夏连军, 么宗利。 养殖密度和温度对白斑狗鱼在设施养殖中生长的影响[J]. 水产学报, 2006, 30(1): 76-80.
[112]袁美云, 邹作宇, 刘双凤, 等。 养殖密度对网箱养殖匙吻鲟稚鱼生长的影响[J].渔业现代化, 2012 (4): 33-36.
[113]Celikkale M S, Memi? D, Ercan E, et al. Growth performance of juvenile Russiansturgeon (Acipenser gueldenstaedtii Brandt & Ratzenburg, 1833) at two stockingdensities in net cages[J]. Journal ofApplied Ichthyology, 2005, 21(1): 14-18.
[114]Fox M G, Flowers D D. Effect of fish density on growth, survival, and foodconsumption by juvenile walleyes in rearing ponds[J]. Transactions of theAmericanFisheries Society, 1990, 119(1): 112-121.
[115]King N J, Howell W H, Huber M, et al. Effects of Larval Stocking Density onLaboratory-Scale and Commercial‐Scale Production of Summer FlounderParaliehthys dentatus[J]. Journal of the WorldAquaculture Society, 2000, 31(3):436-445.
[116]Bj?rnsson B. Effects of stocking density on growth rate of halibut (Hippoglossushippoglossus L.) reared in large circular tanks for three years[J]. Aquaculture, 1994,123(3): 259-270.
[117]Petit G, Beauchaud M, Buisson B. Density effects on food intake and growth oflargemouth bass (Micropterus salmoides)[J]. Aquaculture Research, 2001, 32(6):495-497.
[118]邹雄, 章龙珍, 张涛, 等。 养殖密度对点篮子鱼生长性能的影响[J]. 水产科学,2013, 32(10): 601-604.
[119]张玉勇, 徐革锋, 金舒博, 等。 养殖密度对饵料驯化期细鳞鱼稚鱼生长的影响[J]. 上海水产大学学报, 2008, 17(3): 321-326.
[120]Poston H A, Williams R C. Interrelations of oxygen concentration, fish density,and performance of Atlantic salmon in an ozonated water reuse system[J]. TheProgressive Fish-Culturist, 1988, 50(2): 69-76.
[121]Blackburn J, Clarke W C. Lack of density effect on growth and smolt quality inzero-age coho salmon[J].Aquacultural engineering, 1990, 9(2): 121-130.
[122]Person-Le Ruyet J, Labbé L, Le Bayon N, et al. Combined effects of water qualityand stocking density on welfare and growth of rainbow trout (Oncorhynchus mykiss)[J].
Aquatic Living Resources, 2008, 21(02): 185-195.
[123]刘健康。 东湖生态学研究[M].北京:科学出版社, 1990. 307-311.
[124]丁玉庭。鲢鳙鳊鲫鱼肉的蛋白质组成及分离研究[J].水产科学, 1999,18 (3):21-25.
[125]过正乾, 蒋飞, 许祥,等。野生和养殖鲤鱼肌肉营养成分的比较研究[J].安徽农业科学,2012, 40(31): 15292-15294,15296.
[126]严安生,熊传喜,钟健旺,等。 鳜鱼含肉率及鱼肉营养成分的研究[J].华中农业大学学报,1995, 14(1):80-84.
[127]代应贵,范家佑,王晓辉。 瓣结鱼肌肉营养成分分析[J].营养学报, 2006, 28(4):361-363.
[128]张昌颖, 李亮, 李昌甫, 等。生物化学[ M].第2版。北京:人民卫生出版社,1988:305, 561.
[129]刘志皋。食品营养学[ M].北京:中国轻工业出版社,1997.
[130]李正忠。 花粉、灵芝与珍珠中必需氨基酸的定量测定与分析比较[J]. 氨基酸分析,1998, 4:41-43.
[131]林利民,王秋荣,王志勇,等。不同家系大黄鱼肌肉营养成分的比较[J].中国水产科学, 2006, 13(2): 286-291.
[132]程汉良,蒋飞,彭永兴,等。野生与养殖草鱼肌肉营养成分比较分析[J]. 食品科学, 2013, 34 (13): 266-270.
[133]周立斌。淡水石首鱼的含肉率和肌肉营养成分分析[J].水产科学, 2005, 24(4):18-20.
[134]王萍,张银波,江木兰。多不饱和脂肪酸的研究进展[J].中国油脂,2008, 33(12):42-46.
致 谢
又是毕业季,只不过,这一次轮到了我自己。我无法左右时间为我停留这难忘而美妙的时刻,只能报以最小心谨慎的心情,用论文中最后的语言纪念即将离我而去的硕士生活。一回头便是三年,经历过,才懂得。这三年,有恩师,有同学,有朋友,有家人,是你们一路伴我成长,伴我走过这不平凡的岁月!
感谢王炳谦老师,将我带入水产这片天地,给我机会进入更大的平台接触更多优秀的人;感谢恩师,不厌其烦,为我答疑解惑;感谢恩师,以儒雅谦和的风范,为我们营造温暖的氛围;感谢恩师,以亲力亲为的态度,为我们树立了榜样。
感谢户国博士,是你一次次为我指点迷津,一次次让我重拾信心,感谢科研路上有你!感谢研究所的谷伟老师,感谢给予我帮助的所有研究所工作人员,感谢你们给予的指导和帮助!感谢黑龙江水产研究所提供的科研平台,助力我的科研梦想!
感谢师兄姜再胜、姜海峰在实验中给予的帮助和支持!感谢同窗徐敏、韩冰、赵新春、郭媛、魏玉强、席庆凯、陈迪、李培伦、冬方等人给予的理解、帮助和支持!因为有你们,三年的科研生活美好而难忘!
感谢王楠、吴秀梅,感谢三年来你们听我唠叨,感谢你们的陪伴与支持,给予我无限的帮助以及前进的动力!在美丽的年纪遇到你们,是我人生一笔永远的财富!最后,衷心感谢我的家人和朋友,感谢他们无私而伟大的爱,他们的理解和支持是我不断前行的动力!