[1] Baguer Al, Jensen J, Krogh PH. 2000. Effects of the antibiotics oxytetracycline and tyrosine on soil fauna. Chemosphere, 40: 751 ~757 [2] Batchelder AR. 1981. Chlortetracycline and oxytetracycline effects on plant growth and development in liquid culture. J Environ Qual, 10: 515~ 518 [3] Bewick MW. 1978. Effect of tyrosine and tyrosine-fermentation waste on microbial activity of soil. Soil Biol Biochem, 10:403~407 [4] Carson RL 1962. Silent Spring. Boston: Houghton Mifflin. [5] Cater A, Keeney EA, Gutheir TF, et al. 1983. Heavy metals in earthworms in non-contaminated and contaminated agricultural soil from near Vancouver, Canada. In: Satchell JE ed. Earthworm Ecology. London: Chapman and Hall. 267 ~274 [6] Chang C, Sommerfeldt TG, Entz T. 1993. Barley performance under heavy application of cattle feedlot manure. Agron J, 85:1013~1018 [7] Chen Z-L(陈杖榴),Yang G-X(杨桂香),Sun Y-X(孙永学),et al. 2001. Advance of toxicities and ecotoxicology of veterinary drug residues J South China Agric Univ(华南农业大学学报),22(1):88~ 91 (in Chinese) [8] Dijck PV, van de Voorde H. 1976. Sensitivity of environmental microorganism to antimicrobial agents. Appl Environ Microbiol, 31:332~ 336 [9] Dong S-Y (董书芸). 1996. Advances of environmental pollutants on immunefunction of fish.J Environ Health(环境与健康杂志),13 (6): 282~ 284 (in Chinese) [10] Edwards CA, Thompson AR. 1973. Pesticides and the soil fauna.Residue Rev, 45: 1 ~ 79 [11] Edwards CA. 2000. Soil invertebrate controls and microbial interactions in nutrient and organic matter dynamics in natural and agroecosystems. In: Coleman DC, Hendrix PF eds. Vertebrate as Webmasters in Ecosystems. Oxford: CABI Publishing. 141 ~ 159 [12] Elmund GK, Morrison SM, Grant DW, et al. 1971. Role of excreted chlortetracycline in modifying the decomposition process in feedlot waste. Bull Environ Contamin Toxicol, 6:129~ 132 [13] Halley BA, Jacob TA, Lu AY. 1989a. The environmental impact of the use of ivermectine, environmental effects and fate. Chemosphere, 18:1543~ 1563 [14] Halling-Sorensen B, Nielsen N, Lansky PF, et al. 1998. Occurrence, fate and effects of pharmaceuticals in the environment-A review. Chemosphere, 36; 357~ 394 [15] Heberer T. 2002. Occurrence, fate, and removal of pharmaceutical residues in the aquatic environment: A review of recent research data. Toxicol Letter, 131: 5 ~ 17 [16] Hirsch R, Ternes T, Haberer K, et al. 1999. Occurrence of antibiotics in the aquatics environment. Sci Total Environ, 36; 3573 ~3593 [17] Holten L, Liitzhoft HC, Hailing-Sorensen B, et al. 1999. Algal toxicity of antibacterial agents applied in Danish fish farming. Arch Environ Contam Toxicol, 36: 1 ~ 6 [18] Ingerslev F, Holten Lutzhoft HC, Halling-Sorensen B. 1999. Humant anvendte lagemidlers vej til miljoet er gannem rensningsanlagget. Dansk Kemi, 80(6~7):222~225(in Danish) [19] Jacobsen P, Berglind L. 1988. Persisitence of oxytetracycline in sediments from fish farm. Aquaculture, 70: 365~ 370 [20] Jemba PK. 2002. The potential impact of veterinary and human therapeutic agents in manure and biosolid on plant grow on arable land: A review. Agric Ecosyst Environ, 93: 267~ 278 [21] Jorgensen SE, Halling-Sorensen B. 2000. Drugs in the environment.Chemosphere, 40: 691 ~ 699 [22] Kuhne M, Ihnen D, Moller G, et al. 2000. Stability of tetracycline in water and liquid manure. J Vet Med Ser A - Physiol Pathol Clin Med, 47: 379~ 384 [23] Kiimmerer K, Hartmanm T, Meyer M. 1997. Biodegradability of the anti-tumor agent ifosfamide and its occurrence in hospital effluents and sewage. Water Res, 31: 2705~ 2710 [24] Lerch RN, Barbarick KA, Westfall DG, et al. 1990. Sustainable rates of sewage sludge for dry land winter wheat production. Part Ⅱ. Production and income. J Prod Agric, 3: 66 ~ 71 [25] Loke MT, Tjornelund J, Hailing-sorensen B. 2002. Determination of the distribution coefficient (log Kd) of oxytetracycline, tylosine A, olaquindox and metronidazole in manure. Chemosphere, 48:351~361 [26] Migliore L, Brambilla G, Cozzolino S, et al. 1995. Effects on plants of sulfphadimethoxine used in intensive farming (Panicum milieceum, Pisum sativum and Zea mays ). Agric Ecosyst Environ,52:103~ 110 [27] Migliore L, Brambilla G, Casoria P, et al. 1996. Effects of sulfphadimethoxine on barley in Laboratory terrestrial models. Agric Ecosyst Environ, 60:121 ~ 128 [28] Miyazaki A, Amano T, Seito H, Nakano Y. 2002. Acute toxicity of chlorophenols to earthworms using a simple paper contact method and comparison with toxicities to fresh water organisms, Chemosphere, 47: 65 ~ 69 [29] Nimenya H, Delaunosis, A, La duong D, et al. 1999. Short-term toxicity of various pharmacological agents on the in vitro nitrification process in a simple closed aquatic system. Alta-Alter Lab Anim, 27:121~ 135 [30] Qiu J-P(邱江平). 1999. The application of earthworm in environmental protection.Acta Shanghai Agric Coll(上海农学院学报),17(3) :227~232 (in Chinese) [31] Rabolle M, Spliid NH. 2000. Sorption and mobility of metronidazole,olaquindox, oxytetracycline and tylosin in soil. Chernosphere,40:715~712 [32] Radix P, Leonard M, Papantoniou C, et al. 2000. Comparison of four chronic toxicity tests using algae, bacteria, and invertebrates asseseed with sixteen chemicals. Ecotoxicol Environ Safety, 47:186~ 194 [33] Richardson ML, Bowron JM. 1985. The fate of pharmaceutical chemicals in the aquatic environment--A review. J Phar Pharmaco,37:1~12 [34] Samuelsen OB, Torsvik A. 1992. Long-range changes in oxytetracycline concentration and bacterial resistance toward oxytetracycline in a fish sediment after medication. Soil Total Environ, 114:25~36 [35] Smith SR. 1996. Agricultural Recycling of Sewage Sludge and the Environment. Wallingford, Oxon, UK: CAB International. [36] Warman PR. 1980. The effect of amprolium and auromycin antibiotics on the nitrification of poultry manure-amended soil. J Soil Sci Am, 44:1333~ 1334 [37] Wollenberger L, Hailing-Sorensen B, Kusk KO. 2000. Acute and chronic toxicity of veterinary antibiotics to Daphnia magna. Chemosphere, 40: 723 ~ 730 [38] Young HK. 1993. Antimicrobial resistance spread in aquatic environments. J Antimicrob Chemother, 31: 627~ 635 [39] Yang J-Y(杨居荣),GE J-E(葛家二),et al.1982.The effect of arsenic and heavy metal on soil microbials.J Environ Sci(环境科学学报),2(2):190~197(in Chinese) [40] Yang J-Y(杨居荣),RanY(任燕),LiuH(刘虹).1996.The effect of arsenic on soil microbial and biochemical activity.Soils(土壤),28(2):101~104(in Chinese) [41] Zhang Y-H(张跃华),Luo Z-W(罗志文),Zhao Y-X(赵永勋).2002. The effect of averment on the activity of soil microbiology. J Jiamusi Univ(Natural ScienceEdition)(佳木斯大学学报)(自然科学版),20(1):49~51(in Chinese) |