Abu-Ashour J, Joy DM, Lee H, Whiteley HR, Zelins S. Movement of bacteria in unsaturated columns with macro pores. Trans ASAE, 1998, 41: 1043-1050

Ahmed W, Tucker J, Bettelheim KA, Neller R, Katouli M. Detection of virulence genes in Escherichia coli of an existing metabolic fingerprint database to predict the sources of pathogenic E. coli in surface waters. Water Res, 2007, 41: 3785-3791

Allaire SE, Sylvain C, Lange SF, Theriault G, Lafrance P. Potential efficiency of riparian vegetated buffer strips in intercepting soluble compounds in the presence of subsurface preferential flows. PLoS ONE, 2015, 10: e0131840

Asbornsen H Targeting perennial vegetation in agricultural landscapes for enhancing ecosystem services. Renewable Agric Food Syst, 2013, 29: 101-125

Bicknell BR, Imhoff JC, Kittle JL Jr, Donigan AS Jr, Johansson RC (1997) Hydrological simulation program-FORTRAN user’s manual for version 11. Environmental protection agency report no. EPA/600/R-97/080. US Environmental Protection Agency, Athens, GA, USA

Bicudo JR, Goyal SM. Pathogens and manure management systems: a review. Environ Technol, 2003, 24: 115-130

Bitton G, Harvey RW. Mitchell R. Transport of pathogens through soils and aquifers. Environmental microbiology, 1992 New York Wiley 103-124

Blaustein RA, Pachepsky YA, Hill RL, Shelton DR. Solid manure as a source of fecal indicator microorganisms: release under simulated rainfall. Environ Sci Technol, 2015, 49: 7860-7869

Blaustein RA, Pachepsky YA, Shelton DR, Hill RL. Release and removal of microorganisms from land-deposited animal waste and animal manures: a review of data and models. J Environ Qual, 2015, 44: 1338-1354

Blaustein RA, Hill RL, Micallef SA, Shelton DR, Pachepsky YA. Rainfall intensity effects on removal of fecal indicator bacteria from solid dairy manure applied over grass-covered soil. Sci Total Environ, 2016, 539: 583-591

Blount ZD. The unexhausted potential of E. coli. Elife, 2015, 4: 6956

Bond B. Evaluating the cost and performance of vegetative treatment systems on open beef feedlots in the Midwestern United States, 2010 Ames Iowa State University

Bonetta S, Borelli E, Bonetta S, Conio O, Palumbo F, Carraro E. Development of a PCR protocol for the detection of Escherichia coli O157:H7 and Salmonella spp. in surface water. Environ Monit Assess, 2011, 177: 493-503

Boxall AB Impacts of climate change on indirect human exposure to pathogens and chemicals from agriculture. Environ Health Perspect, 2009, 117: 508-514

Bradford SA, Schijven J. Release of Cryptosporidium and Giardia from dairy calf manure: impact of solution salinity. Environ Sci Technol, 2002, 36: 3916-3923

Bradford SA, Segal E. Fate of indicator microorganisms under nutrient management plan conditions. J Environ Qual, 2009, 38: 1728-1738

Brennan FP, O’Flaherty V, Kramers G, Grant J, Richards KG. Long-term persistence and leaching of Escherichia coli in temperate maritime soils. Appl Environ Microbiol, 2000, 76: 1449-1455

Brennan FP, Abram F, Chinalia FA, Richards KG, O’Flaherty V. Characterization of environmentally persistent Escherichia coli population leached from an Irish soil. Appl Environ Microbiol, 2010, 76(7): 2175-2180

Byappanahalli MN, Shively DA, Nevers MB, Sadowsky MJ, Whitman RL. Growth and survival of Escherichia coli and enterococci populations in the macro-alga Cladophora (Chlorophyta). FEMS Microbiol Ecol, 2003, 46: 203-211

Cardoso F, Shelton D, Sadeghi A, Shirmohammadi A, Pachepsky Y, Dulaney W. Effectiveness of vegetated filter strips in retention of Escherichia coli and Salmonella from swine manure slurry. J Environ Manage, 2012, 110: 1-7

Casey JA, Kim BF, Larsen J, Price LB, Nachman KE. Industrial food animal production and community health. Curr Environ Health Rep, 2015, 2: 259-271

Chao KK, Chao CC, Chao WL. Evaluation of Colilert-18 for detection of coliforms and Escherichia coli in subtropical freshwater. Appl Environ Microbiol, 2004, 70: 1242-1244

Characklis WG, Marshall KC. Biofilms, 1990 New York Wiley 110-112

Characklis GW, Dilts MJ, Simmons OD III, Likirdopulos CA, Krometis LAH, Sobsey MD. Microbial partitioning to settle able particles in storm water. Water Res, 2005, 39: 1773-1782

Chiang LC, Chaubey I, Hong NM, Lin YP, Huang T. Implementation of BMP strategies for adaptation to climate change and land use change in a pasture-dominated watershed. Int J Environ Res Public Health, 2012, 9: 3654-3684

Collins RP, Rutherford K. Modelling bacterial water quality in streams draining pastoral land. Water Res, 2004, 38: 700-712

Correll DL, Weller DE. Sharitz RR, Gibbons JW. Factors limiting processes in freshwater wetlands: an agricultural primary stream riparian forest. Freshwater wetlands and wildlife, 1989 Oak Ridge USDOE 9-23

Davies CM, Long JAH, Donald M, Ashbolt NJ. Survival of faecal microorganisms in marine and freshwater soil. Appl Environ Microbiol, 1995, 61(5): 1888-1896

Davis A, Hunt W, Traver R, Clar M. Bioretention technology: overview of current practice and future needs. J Environ Eng, 2009, 135(3): 109-117

Dawson MP, Humphrey BA, Marshall KC. Adhesion: a tactic in the Survival strategy of a marine vibrio during starvation. Curr Microbiol, 1981, 6(4): 195-199

Dick LK, Stelzer EA, Bertke EE, Fong DL, Stoeckel DM. Relative decay of Bacteroidales microbial source tracking markers and cultivated Escherichia coli in freshwater microcosms. Appl Environ Microbiol, 2010, 76: 3255-3262

Dombek PE, Johnson LK, Zimmerley ST, Sadowsky MJ. Use of repetitive DNA sequences and the PCR to differentiate Escherichia coli isolates from human and animal sources. Appl Enviro. Microbiol, 2000, 66: 2572-2577

Doran JW, Linn DM. Bacteriological quality of runoff water from pastureland. Appl Environ Microbiol, 1979, 37: 985-991

Douglas-Mankin KR (2011) Field assessment of bacteria and nutrient removal by vegetated filter strips. Int J Agric Biol Eng 4(21):1–7. http://www.ijabe.org

Duchemin M, Hogue R. Reduction in agricultural non-point source pollution in the first year following establishment of an integrated grass/tree filter strip system in southern Quebec (Canada). Agric Ecosyst Environ, 2009, 131(1–2): 85-97

Dumetre A, Aubert D, Puech PH, Hohweyer J, Azas N, Villena I. Interaction forces drive the environmental transmission of pathogenic protozoa. Appl Environ Microbiol, 2012, 78: 905-912

Edwards DR, Larson BT, Linn TT. Overland nutrient and faecal coliform content from cattle manure application to fescue fields. J Am Water Resour Assoc, 2000, 36: 711-724

Epstein SS, Rossel J. Enumeration of sandy sediment bacteria: search for optimal protocol. Mar Ecol Prog Ser, 1995, 117(1–3): 289-298

Epstein SS, Alexander D, Cosman K, Dompe A, Gallagher S, Jarsobski J, Laning E, Martinez R, Panasik G, Peluso C, Runde R, Timmer E. Enumeration of Sandy sediment bacteria: are the counts quantitative or relative?. Mar Ecol Prog Ser, 1997, 151: 11-16

Fajardo JJ, Bauder JW, Cash SD. Managing nitrate and bacteria in overland from livestock contamination areas with vegetated filter strips. J Soil Water Conserv, 2001, 56: 185-191

Ferguson C, De Roda Husman A, Altavilla N, Deere D, Ashbolt N. Fate and transport of surface water pathogens in watersheds. Crit Rev Environ Sci Technol, 2003, 33(3): 299-361

Fox GA, Muñoz-Carpena R, Sabbagh GJ. Influence of flow concentration on input factor importance and uncertainty in predicting pesticide surface overland reduction by vegetated filter strips. J Hydrol, 2010, 384: 164-173

Fox GA, Matlock EM, Guzman JA, Sahoo D, Stunkel KB. Escherichia coli load reduction from runoff by vegetative filter strips: a laboratory-scale study. J Environ Qual, 2011, 40: 980-988

Francy DS, Darner RA. Comparison of methods for determining Escherichia coli concentrations in recreational waters. Water Res, 2000, 34(10): 2770-2778

Gallagher DL, Lago K, Hagedorn C, Dietrich AM. Effects of strain type and water quality on soil-associated Escherichia coli. Intl J Environ Sci Dev, 2013, 4: 23-31

Gannon JT, Manilal VB, Alexander M. Relationship between cell surfaces properties and transport of bacteria through soil. Appl Microbiol, 1991, 57: 190-193

Gannon JT, Mingelgrin U, Alexander M, Wagnet RT. Bacteria transport through homogeneous soil. Soil Biol Biochem, 1991, 23(12): 1155-1160

Gerba CP, Smith JE. Sources of pathogenic microorganisms and their fate during land application of wastes. J Environ Qual, 2004, 34: 42-48

Gerber PJ, Vellinga TV, Steinfeld H. Issues and options in addressing the environmental consequences of livestock sector’s growth. Meat Sci, 2010, 84: 244-247

Gordon DM, Bauer S, Johnson JR. The genetic structure of Escherichia coli populations in primary and secondary habitats. Microbiology, 2002, 148: 1513-1522

Goss MJ, Richards C. Development of a risk-based index for source water protection planning, which supports the reduction of pathogens from agricultural activity entering water resources. J Environ Manage, 2008, 87: 623-632

Guber AK, Shelton DR, Pachepsky YA. Effect of manure on Escherichia coli attachment to soil. J Environ Qual, 2005, 34(6): 2086-2090

Guber AK, Shelton DR, Pachepsky YA. Transport and retention of manure-borne coliforms in soil. Vadose Zone J, 2005, 4(3): 828-837

Guber A, Pachepsky Y, Shelton D, Yu O. Rainfall-induced release of faecal coliforms and other manure constituents: comparison and modelling. Appl Environ Microbiol, 2006, 72: 7531-7539

Guber AK, Karns JS, Pachepsky YA, Sadeghi AM, Van Kessel JS, Dao TH. Comparison of release and transport of manure-borne Escherichia coli and enterococci under grass buffer conditions. Lett Appl Microbiol, 2007, 44: 161-167

Guber AK, Yakirevich AM, Sadeghi AM, Pachepsky YA, Shelton DR. Uncertainty evaluation of coliform bacteria removal from vegetated filter strip under overland flow condition. J Environ Qual, 2009, 38: 1636-1644

Harwood VJ, Levine AD, Scott TM, Chivukula V, Lukasik J, Farrah SR, Rose JB. Validity of the indicator organism paradigm for pathogen reduction in reclaimed water and public health protection. Appl Environ Microbiol, 2005, 71: 3163-3170

Haydon S, Deletic A. Development of a coupled pathogen-hydrologic catchment model. J Hydrol, 2006, 328: 467-480

Hazen TC. Fecal coliforms as indicators in tropical waters: a review. Toxic Assess, 1988, 3: 461-477

Hickey MB, Doran B. A review of efficiency of buffer strips for the maintenance and enhancement of riparian ecosystems. Water Qual Res J Can, 2004, 39: 311-317

Himathongkham S, Bahari S, Riemann H, Cliver D. Survival of Escherichia coli O157:H7 and Salmonella typhimurium in cow manure and cow manure slurry. FEMS Microbiol Lett, 1999, 178(2): 251-257

Hubbard RK, Newton GL, Hill GM. Water quality and the grazing animal. J Anim Sci, 2004, 82(13-Suppl): 255-263

Huysman F, Verstraete W. Water-facilitated transport of bacteria in unsaturated soil columns: influence of inoculation and irrigation methods. Soil Biol Biochem, 1993, 25: 91-97

Jamieson RC, Gordon RJ, Sharples KE, Stratton GW. Movement and persistence of fecal bacteria in agricultural soils and subsurface drainage water: a review. Can Biosyst Eng, 2002, 44: 1-9

Jamieson R, Gordon R, Joy DM, Lee H. Assessing microbial pollution of rural surface waters: a review of current watershed scale modeling approaches. Agric Water Manag, 2004, 70: 1-17

Kao TY, Barfield BJ. Prediction of flow hydraulics for vegetated channels. Trans ASAE, 1978, 22: 489-494

Kaper JB. Pathogenic Escherichia coli. Int J Med Microbiol, 2005, 295: 355-356

Kaper JB, Nataro JP, Mobley HL. Pathogenic Escherichia coli. Nat Rev Microbiol, 2004, 2: 123-140

Karanis P, Kourenti C, Smith H. Waterborne transmission of protozoan parasites: a worldwide review of outbreaks and lessons learnt. J Water Health, 2007, 5: 1-38

Keewok K Rainfall runoff model parameter estimation and uncertainty evaluation on small plots. Hydrol Process, 2014, 28: 5220-5235

Kei W, Yee-Chung J, Viraraghavan T. Transport of bacteria in heterogeneous media under leaching conditions. J Environ Eng Sci, 2002, 1: 383-395

Kouznetsov MY, Roodsari R, Pachepsky YA, Shelton DR, Sadeghi AM, Shirmohammadi A, Starr JL. Modeling manure-borne bromide and fecal coliform transport with runoff and infiltration at a hillslope. J Environ Manage, 2007, 84: 336-346

Kuczynska E, Pachepsky Y, Rouhi S, Shelton D. Transport of manure-borne Cryptosporidium parvum oocysts through saturated and saturated soil columns. Int Agrophys, 2005, 19: 1-17

Lalancette C Changes in Escherichia coli to Cryptosporidium ratios for various fecal pollution sources and drinking water intakes. Water Res, 2014, 55: 150-161

Lewis DJ, Atwill ER, Lennox MS, Pereira MD, Miller WA, Conrad PA, Tate KW. Management of microbial contamination in storm runoff from California coastal dairy pastures. J Environ Qual, 2010, 39: 1782-1789

Lim TT, Edwards DR, Workman SR, Larson BT, Dunn L. Vegetated filter strip removal of cattle manure constituents in runoff. Trans ASAE, 1998, 41: 1375-1381

Ling TY, Achberger EC, Drapcho CM, Bengtson RL. Quantifying adsorption of indicator bacteria in a soil-water system. Trans ASAE, 2002, 45(3): 669-674

Liu X, Zhang X, Zhang M. Major factors influencing the efficacy of vegetated buffers on sediment trapping: a review and analysis. J Environ Qual, 2008, 37: 1667-1674

Liu YJ, Zhang CM, Wang XC. Simultaneous detection of enteric bacteria from surface waters by QPCR in comparison with conventional bacterial indicators. Environ Monit Assess, 2009, 158: 535-544

Lovell ST, Sullivan WC. Environmental benefits of conservation buffers in the United States: evidence, promise, and open questions. Agric Ecosyst Environ, 2006, 112: 249-260

Mango LM, Melesse AM, McClain ME, Gann D, Setegn SG. Land use and climate change impacts on the hydrology of the upper Mara River Basin, Kenya: results of a modeling study to support better resource management. Hydrol Earth Syst Sci, 2011, 15: 2245-2258

Martinez G, Pachepsky YA, Whelan G, Yakirevich AM, Guber A, Gish TJ. Rainfall-induced fecal indicator organisms transport from manured fields: model sensitivity analysis. Environ Int, 2014, 63: 121-129

Mawdsley JL, Bardgett RD, Merry RJ, Pain BF. Pathogens in livestock waste, their potential for movement through soil and environmental pollution. Appl Soil Ecol, 1995, 2: 1-15

Mawdsley JL, Brooks AE, Merry RJ. Movement of the protozoan pathogen cryptosporidium parvum through three contrasting soil types. Biol Fertil Soils, 1996, 21: 30-36

Mayer PM, Reynolds SK Jr, McCutchen MD, Canfield TJ. Meta-analysis of nitrogen removal in riparian buffers. J Environ Qual, 2007, 36: 1172-1180

McDaniel JA, Capone DG. A comparison of procedures for the separation of aquatic bacteria from soil for subsequent direct enumeration. J Microbiol Methods, 1985, 3(5–6): 291-302

McMurry SW, Coyne MS, Perfect E. Faecal coliform transport through intact soil blocks amended with poultry manure. J Environ Qual, 1998, 27: 86-92

Meals DW, Braun DC. Demonstration of methods to reduce E. coli runoff from dairy manure application sites. J Environ Qual, 2006, 35: 1088-1100

Millner P, Ingram D, Mulbry W, Arikan OA. Pathogen reduction in minimally managed composting of bovine manure. Waste Manag, 2014, 34: 1992-1999

Mohanty SK, Saiers JE, Ryan JN. Colloid mobilization in a fractured soil: effect of pore-water exchange between preferential flow paths and soil matrix. Environ Sci Technol, 2016, 50: 2310-2317

Moore JA, Grismer ME, Crane SR, Miner JR (eds) (1982) Evaluating dairy waste management systems’ Influence on fecal coliform concentration on runoff. In: Agricultural Experiment Station Bulletin 658. Oregon State University, Corvallis, OR

Moore JA, Grismer ME, Crane SR, Miner JR. Modelling dairy waste management systems influence on coliform concentration in overland. Trans ASAE, 1983, 26: 1194-1200

Moore JA, Smyth J, Baker S, Miner JR (1988) Evaluating coliform concentrations in overland from various animal waste management systems. Special report 817, Agricultural Experiment Station, Oregon State University, Corvallis, OR, USA

Moore J, Smyth J, Baker E, Miner J, Moffitt D. Modeling bacteria movement in livestock manure systems. Trans ASAE, 1989, 32: 1049-1053

Moreira CG, Palmer K, Whiteley M, Sircilli MP, Trabulsi LR, Castro AFP, Sperandico V. Bundle-forming pili and EspA are involved in biofilm formation by enteropathogenic Escherichia coli. J Bacteriol, 2006, 188(11): 3952-3961

Mostaghimi S, Park SW, Cooke RA, Wang SA. Assessment of management alternatives a small agricultural watershed. Water Res, 1997, 31: 1867-1878

Mubiru DN, Coyne MS, Grove JH. Mortality of Escherichia coli O157:H7 in two soils with different physical and chemical properties. J Environ Qual, 2000, 29: 1821-1825

Muirhead RW, Collins RP, Bremer PJ. Erosion and subsequent transport state of Escherichia coli from cowpats. Appl Environ Microbiol, 2005, 71: 2875-2879

Muirhead RW, Collins RP, Bremer PJ. Erosion and subsequent transport state of Escherichia coli from cowpats. Appl Environ Microbiol, 2006, 71: 2875-2879

Muirhead RW, Collins RP, Bremer PJ. Numbers and transported state of Escherichia coli in runoff direct from fresh cowpats under simulated rainfall. Lett Appl Microbiol, 2006, 42: 83-87

Mukamolova GV, Kaprelyants AS, Kell DB, Young M. Adoption of the transiently non-culturable state—a bacterial survival strategy, 2003 San Diego Academic Press

Muñoz-Carpena MR, Parsons JE. A design procedure for vegetated filter strips using VFSMOD-W. Trans ASAE, 2004, 47: 1933-1941

Muñoz-Carpena MR, Parsons JE (2011) VFSMOD-W, vegetated filter strips modelling system, model documentation & User’s Manual Version 6.x. Agricultural & Biological Engineering, University of Florida 287 Frazier Rogers Hall Gainesville, FL 32611 – 0570

Muñoz-Carpena R, Parsons JE, Gillian JW. Modeling hydrology and sediment transport in vegetative filter strips. J Hydrol, 1999, 214: 111-129

Noble RT, Weisberg SB. A review of technologies for rapid detection of bacteria in recreational waters. J Water Health, 2005, 3: 381-392

Odonkor ST, Ampofo JK. Escherichia coli as an indicator of bacteriological quality of water. Microbiol Res, 2013, 4: 5-11

Olandi PA, Lampel KA. Extraction-free, filter-based template preparation for rapid and sensitive PCR detection of pathogen parasitic protozoa. J Clin Microbiol, 2000, 38(6): 2271-2277

Olilo CO, Onyando JO, Moturi WN, Muia AW, Ombui P, Shivoga WA, Amber FR. Effect of vegetated filter strips on transport and deposition rates of Escherichia coli in overland flow in eastern escarpment of the Mau Forest, Njoro River Watershed, Kenya. Energy Ecol Environ, 2016, 1(3): 157-182

Oliver DM, Clegg CD, Haygarth PM, Heathwaite AL. Assessing the potential for pathogen transfer from grassland soils to surface waters. Adv Agron, 2005, 85: 125-180

Oliver DM, Haygarth PM, Clegg CD, Heathwaite AL. Differential E. coli die-off patterns associated with agricultural matrices. Environ Sci Technol, 2006, 40: 5710-5716

Oliver DM, Clegg CD, Heathwaite AL, Haygarth PM. Preferential attachment of Escherichia coli to different particle size fractions of an agricultural grassland soil. Water Air Soil Pollut, 2007, 185(1–4): 369-375

Overcash MR, Bingham SC, Westerman PW. Predicting overland pollutant reduction in buffer zones adjacent to land treatment sites. Trans ASAE, 1981, 24(2): 430-435

Pachepsky Y, Sadeghi A, Bradford S, Shelton D, Guber A, Dao T. Transport and fate of manure-borne pathogens: modelling perspective. Agric Water Manag, 2006, 86: 81-92

Pandey PK, Kass PH, Soupir ML, Biswas S, Singh VP. Contamination of water resources by pathogenic bacteria. AMB Exp, 2014, 4: 51

Paterson E, Kemp JS, Gammack SM, Fitz-Patrick E, Adisl C, Malcom S, Mullins CE, Kilham K. Leaching of genetically modified pseudomonas fluorescents through intact soil microcosms: influence of soil type. Biol Fertil Soils, 1992, 15: 308-314

Paul S, Haan PK, Matlock MD, Mukhtar S, Pillai SD. Analysis of the HSPF water quality parameter uncertainty in predicting peak in-stream faecal coliform concentrations. Trans ASAE, 2004, 47(1): 69-78

Quero GM, Fasolato L, Vignaroli C, Luna GM. Understanding the association of Escherichia coli with diverse macroalgae in the lagoon of Venice. Sci Rep, 2015, 5: 10969

Rahmana A, Rahmana S, Cihacek L. Influence of soil pH in vegetative filter strips for reducing soluble nutrient transport. Environ Technol, 2014, 35: 1744-1752

Ram S, Vajpayee P, Dwivedi PD, Shanker R. Culture-free detection and enumeration of STEC in water. Ecotoxicol Environ Saf, 2011, 74: 551-557

Ramirez-Castillo FY, Loera-Muro A, Jacques M, Garneau P, Avelar-Gonzalez FJ, Harel J, Guerrero-Barrera AL. Waterborne pathogens: detection methods and challenges. Pathogens, 2015, 4: 307-334

Randolph TF Invited review: role of livestock in human nutrition and health for poverty reduction in developing countries. J Anim Sci, 2007, 85: 2788-2800

Rippy M. Meeting the criteria: Linking biofilter design to faecal indicator bacteria removal. Wiley Interdiscip Rev Water, 2015

Roberts WM, Stutter MI, Haygarth PM. Phosphorus retention and remobilization in vegetated buffer strips: a review. J Environ Qual, 2012, 41: 389-399

Rochelle-Newall E, Nguyen TM, Le TP, Sengtaheuanghoung O, Ribolzi O. A short review of fecal indicator bacteria in tropical aquatic ecosystems: knowledge gaps and future directions. Front Microbiol, 2015, 6: 308

Sabbagh GJ, Fox GA, Kamanzi A, Roepke B, Tang JZ. Effectiveness of vegetated filter strips in reducing pesticide loading: quantifying pesticide trapping efficiency. J Environ Qual, 2009, 38: 762-771

Sadeghi AM, Arnold JG (2002) A SWAT/microbial sub-model for protecting pathogen loadings in surface and groundwater at watershed and basin scales. In: Proceedings of the total maximum daily load (TMDL) environmental regulations, March 11–13, 2002 conference at Fort Worth, Texas USA. ASAE publications 701P0102, pp 56–63

Sambrook J, Fritsch EF, Maniatis T. Molecular cloning: a laboratory manual, 1989 2 Cold Spring Harbor Cold Spring Harbor Laboratory Press

Savichtcheva O, Okabe S. Alternative indicators of fecal pollution: relations with pathogens and conventional indicators, current methodologies for direct pathogen monitoring and future application perspectives. Water Res, 2006, 40: 2463-2476

Shelton DR Impact of microbial diversity on rapid detection of enterohemorrhagic Escherichia coli in surface waters. FEMS Microbiol Lett, 2006, 261: 95-101

Shih CM Paper-based ELISA to rapidly detect Escherichia coli. Talanta, 2015, 145: 2-5

Sinclair A Growing season surface water loading of fecal indicator organisms within a rural watershed. Water Res, 2009, 43: 1199-1206

Sinclair RG, Rose JB, Hashsham SA, Gerba CP, Haas CN. Criteria for selection of surrogates used to study the fate and control of pathogens in the environment. Appl Environ Microbiol, 2012, 78: 1969-1977

Soupir ML (2007) Fate and transport of pathogen indicators from pasturelands. PhD Dissertation, The Faculty of Virginia Polytechnic Institute and State University, USA, pp 315

Soupir ML, Mostaghimi S, Dillaha T. Attachment of Escherichia coli and enterococci to particles in runoff. J Environ Qual, 2010, 39: 1019-1027

Stocker MD, Pachepsky YA, Hill RL, Shelton DR. Depth-dependent survival of Escherichia coli and enterococci in soil after manure application and simulated rainfall. Appl Environ Microbiol, 2015, 81: 4801-4808

Stout WL, Pachepsky YA, Shelton DR, Sadeghi AM, Saporito LS, Sharpley AN. Runoff transport of faecal coliforms and phosphorus released from manure in grass buffer conditions. Lett Appl Microbiol, 2005, 41: 230-234

Tan Y, Bond WJ, Rovira AD, Brisbane PG, Griffin DM. Movement through soil of a biological control agent, Pseudomonas fluorescence. Soil Biol Biochem, 1991, 23: 821-825

Tate KW, Atwill ER, Bartolome JW, Nader G. Significant Escherichia coli attenuation by vegetative buffers on annual grasslands. J Environ Qual, 2006, 35: 795-805

Thelin R, Gifford GF. Faecal coliform release patterns from faecal material of cattle. J Environ Qual, 1983, 12: 57-63

Tian YQ, Gong P, Radke JD, Scarborough J. Spatial and temporal modeling of microbial contaminants on grazing farmlands. J Environ Qual, 2002, 31: 860-869

Tran NH, Gin KY, Ngo HH. Fecal pollution source tracking toolbox for identification, evaluation and characterization of fecal contamination in receiving urban surface waters and groundwater. Sci Total Environ, 2015, 538: 38-57

Tyrrel SF, Quinton JN. Overland flow transport of pathogens from agricultural land receiving faecal wastes. J Appl Microbiol, 2003, 94(Suppl): 87S-93S

Unc A, Goss MJ. Movement of faecal bacteria through the vadose zone. Water Air Soil Pollut, 2003, 149: 327-337

U.S. EPA (1994) National primary drinking water standards. EPA 810 F-94-001A. Office of Water, USEPA, Washington, DC

U.S. EPA (2002) Method 1604: Total coliforms and Escherichia coli in water by membrane filtration using a simultaneous detection technique (MI medium), Agency 20460, EPA 821-R-02-024. Office of Water Environmental Protection, Washington, DC

Vadas PA, Kleinman PJA, Sharpley AN. A simple method to predict dissolved phosphorus in runoff from surface applied manures. J Environ Qual, 2004, 33: 749-756

Van Elsa’s JD, Trevors JT, Van Overbeek LS. Influence of soil properties on the vertical movement of genetically—marked pseudomonas 132 fluorescents through large soil microorganisms. Biol Fertil Soils, 1991, 10: 249-255

Walker SE, Mostaghimi S, Dillaha TA, Woeste FE. Modeling animal waste management practices: impacts on bacteria levels in overland from agricultural lands. Trans ASAE, 1990, 33: 807-817

Wang L, Mankin KR, Marchin GL. Survival of faecal bacteria in dairy cow manure. Trans ASAE, 2004, 47: 1239-1246

Yoon WB, Rosson RA. Improved method of enumeration of attached bacteria for study of fluctuation in the abundance of attached and free-living bacteria in response to diel variation in seawater turbidity. Appl Environ Microbiol, 1990, 56(3): 595-600

Zhai Q, Coyne MS, Barnhisel RI. Mortality rates of faecal bacteria in subsoil amended with poultry manure. Bioresour Technol, 1995, 54: 165-169

Zhang X, Liu X, Zhang M, Dahlgren RA, Eitzel M. A review of vegetated buffers and a meta-analysis of their mitigation efficacy in reducing nonpoint source pollution. J Environ Qual, 2010, 39: 76-84