[Amin M.M.G., Forslund A, Bui X.T., Juhler R.K., Petersen S.O., Laegdsmand M (2013). Persistence and leaching potential of microorganisms and mineral N in animal manure ap plied to intact soil columns. Appl. Environ. Microbiol., 79: 535-542.]Search in Google Scholar
[Boes J., Alban L., Bagger J., Mogelmose V. Baggesen D.L., Olsen J.E. (2005). Sur vival of Escherichia coli and Salmonella Tvphimurium in slurry applied to clay soil on a Danish swine farm Prev. Vet. Med., 69: 213-228.]Search in Google Scholar
[Buczyńska A., Szadkowska-Stańczyk L (2010). Occupational hygiene and health hazards related to concentrated animal feeding operations (in Polish). Med. Pracy, 61: 323-331.]Search in Google Scholar
[Gessel P.D., Hansen N.C., Goyal S.M, Johnston L.J., Webb J. (2004). Persistence of zoonotic pathogens in surface soil treated with different rates of liquid pig manure. Appl. Soil. Ecol., 25: 237-243.]Search in Google Scholar
[Habteselassie M., Bischoff M, Blume E., Applegate B. Reuhs B.: Brouder S., Tur c o R.F. (2008). Environmental controls on the fate of Escherichia coli in soil. Water, Air and Soil Pollution. 190: 143-155.]Search in Google Scholar
[Heinonen-Tanski H., Mohaibes M, Karinen P., Koivunen J. (2006). Methods to re duce pathogen microorganisms in manure. Livest. Sci., 102: 248-255.]Search in Google Scholar
[Hoelzer K, Switt Wiedmann M (2011). Animal contact as a source of human non typhoidal salmonellosis. Vet. Res. 42: 34-65.]Search in Google Scholar
[Jayasnighe B.AT.D. Parkinson D. (2008). Actinotnycetes as antagonists of Utter decomposer fungi. Appl. Soil. EcoL, 38: 109-118.]Search in Google Scholar
[Jurek A, S ze j niu k B., Wit B. Michalska M. (2006). Microbiological air contamination dur ing piglet rearing (in Polish). Pr. Kom. Nauk Roi. i Biol. BTN. s. B. 61: 33-38.]Search in Google Scholar
[Kiers J.L.,Nout M.J.R. Rombouts F.M.,Nabuurs M.J.A., Van Der Moulen J. (2007). A high molecular weight soluble fraction of tempeh protects against fluid losses in Escheiichia coli- -infected piglet small intestine. Brit. J. Nutr. 98: 320-325.]Search in Google Scholar
[Kluczek S. Kluczek J.P (1999). The microflora of bacteria and sick building syndrome (in Polish). Pr. Kom. Nauk Roi. i BioL BTN, s. B. 45: 65-71.]Search in Google Scholar
[Kluczek S., K1 u c z e k J.P. (2000). The microflora of breeding habitats and animal behaviorism (in Polish). Pr. Kom. Nauk Roi. i BioL BTN, s. B. 46: 43-48.]Search in Google Scholar
[Kluczek S. (2002). Population of microorganisms in the air of piggery in the course of breeding of sows with piglets and weaners (in Polish). Pr. Kom Nauk Roi. i Biol. BTN, s. B, 50: 33-48.]Search in Google Scholar
[Lenehan N.A., De Roushey J.M., Marston T.T., Marchin G.L. (2005). Concentration of fecal bacteria and nutrients in soil surrounding round-bale feeding sites. J. Anim. Sci., 83: 1673-1679.]Search in Google Scholar
[Letellier A., Messier S.,Pare J., Menard J., Qessy S. (1999). Distribution of Salmonella in swine herds in Quebec. Vet. Microbiol., 67: 299-306.]Search in Google Scholar
[Nayak R.Kenney P.B.,Keswani J.Ritz C. (2003). Isolation and characterization of Salmo. nella in a turkey production facility. Brit. Poultry' Sci., 44: 192-202.]Search in Google Scholar
[Ngole V.,Mpuchane S.,Totolo 0.(2006). Survival of faecal colifomis in four different types of sludge-amended soils in Botswana. Eur. J. SoiL BioL, 42: 208-218.]Search in Google Scholar
[Nowak B., Von Muffling T., Chaunchom S.,Hartung J. (2007). Salmonella contamina. tion in pigs at slaughter and on the farm A field study using an antibody ELISA test and a PCR technique. Int. J. Food Microbiol., 115: 259-267.]Search in Google Scholar
[Oliver D.M., Page T., Heathwaite A. L., Haygarth P.M. (2010). Re-shaping models of E. coli population dynamics in livestock faeces: increased bacterial risk to humans? Environ. Inter. nat., 36: 1-7.]Search in Google Scholar
[Petkov G.S., Kostadinova G.S., Denev S.A, Mihalyova G.S., Pavlov D.C. (2006). Microbial pollution of soil around slurry storage lagoons at a pig farm. Appl. Soil. EcoL, 34: 10-18.]Search in Google Scholar
[Plaza C., Hernandez D. Gracia-Gil J.C., P o 1 o A. (2004). Microbial activity in pig shirry. amended soils under semiarid conditions. Soil. Biol. Biochem. 36: 1577-1585.]Search in Google Scholar
[Rajic A,Keenliside J.,Me Fall M.E.,Deckert A.E.,Muckle A.C.,O’Connor B.P, Manninen K, Devey C.E., Me Even S.A. (2005). Longitudinal study on Salmonella spe. cies in 90 Alberta swine finishing farms. Vet. Microbiol., 105: 47-56.]Search in Google Scholar
[Sandvang D., Jensen L.B. B aggesen Dl., B a loda S.B. (2000). Persistence of a Salmonel. la enterica serotype Typhimurium clone in Danish pig production units and farmhouse environment studied by pulsed field gel electrophoresis (PFGE). FEMS MicrobioL Letters, 187: 21-25.]Search in Google Scholar
[Sargeant J.M., Sanderson M.W., Smith RA., Griffin D.D. (2004). Associations between management, climate, and Escheiichia coli 0157 in the faeces of feedlot cattle in the Midwestern USA>rev. Vet. Med., 66: 175-206.]Search in Google Scholar
[Takahashi E., Furka w a C., Yamoto A., Oka da K, Oka da M, Wat an a be S., Furu. y a S.U., K i m o t o H. (2000). Seasonal changes of bacterial flora in an activated sludge system for swine wrastewrater. Jap. J. Zootechnic. Sci., 71: 362-369.]Search in Google Scholar
[Tombarkiewicz B., Niedziółka J., Migdał W, Lis M., Pawlak K, Podgórni Z, Lubkiew'iczM (2000). The attempt to evaluate a range of microbiological contamination of the environment of a pig farm (in Polish). Pr. Kom. Nauk Roi. i Biol. BTN, s. B. 46: 37-42.]Search in Google Scholar
[Topp E., Welsh M, Tien Y, Dang A, Lazarovits G., Conn K, Zhu H. (2003). Strain dependent variability in growth and survival of Escheiichia coli in agricultural soil. FEMS Micro bioL EcoL, 44: 303-308.]Search in Google Scholar
[Tymczyna L.,Trawińska B. Saba L. (1999). Microbiological pollution of some environmen tal components around the pig farm. Ann. Anim. Sci., 26: 133-142.]Search in Google Scholar
[Weiner M., Dacko J., Osek J. (2004). Molecular analysis of enterotoxigenic, shigatotoxigenic and enteroaggregative Escherichia coli strains isolated from suckling piglets with diarrhoea by the use of pulsed-field electrophoresis. Bull. Vet. Inst. Pulawy, 48: 225-231. ]Search in Google Scholar
