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Vvv 59(10):1937-1943.
[45] 赵巧玲.植物浮床对精养池塘水质及浮游藻类群落结构的效应[D],华中农业大学硕士学
位论文,2010.
[46] 刘淑媛,任久长,山文辉.利用人工基质无土栽培经济植物净化富营养化水体的研究[J].北
京大学学报(自然科学版),1997,35(4):518-522.
[47] 周晓红,王国祥,杨飞,等.空心菜对不同形态氮吸收动力学特性研究[J].水土保持
究,2008,15(5):84-87.
[48] 李文祥,李为,林明利,等.浮床水蕹菜对养殖水体中营养物质的去除效果研究[J].环境科学
学报,2011,31(8):1670-1675.
[49] 陈家长,孟顺龙,胡庚东,等.空心菜浮床栽培对集约化养殖鱼塘水质的影响[J].生态与农村
环境学报,2010,26(2):155-159.
[50] 胡绵好.水生经济植物浮床技术改善富营养化水体水质的研究[D],上海交通大学博士学
位论文,2008.
[51] 赵爽.水蕹菜浮床对精养鱼池浮游动物群落的影响[D],华中农业大学硕士学位论文,2013. [52] Stokstad E. Down on the shrimp farm [J].Science, 2010, 328:1504-1505.
[53] CRAB R, DEFOIRDT T, BOSSIER P, et al. Biofloc technology in aquaculture:Beneficial
effects and future challenges [J].Aquaculture,2012, 356(4):351-356.
[54] 龙丽娜,李源,管崇武,等.生物絮团技术在水产养殖中的作用研究综述[J].渔业现代
化,2013,40(5):28-32.
[55] 罗国芝,朱泽闻,潘云峰等.生物絮凝技术在水产养殖中的应用[J].中国水产,2010(2).62-63. [56] 毕喜婧,刘德华.絮凝在生物技术中的发展及应用[J].化工进展, 2002, 21(11):845-849. [57] De Schryver P, Crab R, Defoirdt T, et al. The basics of bio-flocs technology: The added value
for aquaculture [J].Aquaculture, 2008, 277(3-4):125-137.
[58] Pruder G. D. Biosecure Zero-Exchange System: Maturation and Grow out of Marine Animals.
The Oceanic Institute. Biotechnology-Aquaculture Interface: The Site of Maximum Impact Workshop, 2001.
[59] Goldman J C, Caron D A, Dennett M R. Regulation of gross growth efficiency and
ammonium regeneration in bacteria by substrate C:N ratio[J]. Limnol. Oceanogr, 1987, 32(6):1239-1252.
[60] Avnimelech Y. Carbon/nitrogen ratio as a control element in aquaculture systems
42
Vvv [J].Aquaculture, 1999, 176:225-235.
[61] Tupas L, Koike I. Amino acid and ammonium utilization by heterotrophic marine bacteria
grown in enriched seawater [J]. Limnology and Oceanography, 1990, 35(5):1145-1155. [62] 卢炳国,王海英,谢骏,等.不同C/N水平对草鱼池生物絮团的形成及其水质的影响[J].水产
学报,2013,37(8):1220-1228.
[63] Wilén B M. Properties of activated sludge flocs [J]. Chalmers University of Technology,
1999. 787.33-47.
[64] 王静,曾伯平.pH值的作用和调节措施[J].内陆水产,2006,9:41-42.
[65] 邓应能.不同养殖系统生物絮团模式调控研究[D],上海海洋大学硕士学位论文,2011. [66] 李彦,刘利平,赵广学,等.养殖水体中添加碳源对水质及罗非鱼生长的影响[J].大连海洋大
学学报,2013,28(2):55-60.
[67] 李朝兵.生物絮团作为鳙饵料的研究与应用[D],上海海洋硕士学位论文,2012.
[68] Yoram Avnimelech, Malka Kochba. Evaluation of nitrogen uptake and excretion by tilapia in
bio floc tanks, using 15N tracing [J].Aquaculture, 2009, 287(1-2):163-168.
[69] Kuhn David D, Lawrence Addison L, Boardman Gregory D, et al. Evaluation of two types of
bioflocs derived from biological treatment of fish effluent as feed ingredients for Pacific white shrimp, Litopenaeus vannamei [J]. Aquaculture, 2010, 303(1-4):28-33.
[70] Moss S M, Pruder G D. Characterization of organic particles associated with rapid growth in
juvenile white shrimp, Penaeus vannamei Boone, reared under intensive culture conditions [J]. Journal of Experimental Marine Biology and Ecology, 1995, 187:175-191. [71] 罗文.生物絮团技术在鲫养殖中的研究与应用[D].上海海洋大学硕士学位论文,2013. [72] Wille M, De Schryver P, Defoirdt T, et al. The effect of poly β-hydroxybutyrate on
larviculture of the giant freshwater prawn Macrobrachium rosenbergii [J]. Aquaculture, 2010, 302(1):76-81.
[73] Crab R, Chielens B, Wille M, et al. The effect of different carbon sources on the nutritional
value of bioflocs, a feed for Macrobrachium rosenbergii postlarvae [J]. Aquaculture Research, 2010, 41(4):559-567.
[74] 曹振杰,段登选,张庆河,等.盐碱池塘水质调技术[J].河北渔业,2003,131(5):28-43. [75] 黄宁宇,夏连军.微生物对西部盐碱地池塘氮、磷循环和浮游微藻种群演变的影响[J].现代
渔业信息,2005,20(4):29-36.
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