Modeling Fate and Transport of Manure-borne Pathogens

Authors: Pachepsky, Yakov

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 1/27/2010
Publication Date: N/A
Citation: N/A

Interpretive Summary:

Technical Abstract: Manure contains pathogenic microorganisms that can cause serious illness and death in humans. The objective of this work is to review the status and challenges in modeling fate and water transport of manure-borne pathogens (MBP) and organisms-indicators of fecal contamination. Approaches are outlined and evaluated that are used to model (a) release of microorganisms from manure, (b) microorganism survival and inactivation in manure, soil, and surface water, (c) partitioning and attachment of pathogenic and indicator organisms to solid particles in runoff, soil, and sediment, and (d) transport with straining or entrapment in the overland flow and in streams. The current challenges and research needs are outlined that include (a) the paucity of experimental data about the transport of true pathogenic rather than indicator microorganisms, (b) the need to quantify potential and actual input of pathogens from wildlife, (c) uncertainty in background concentrations of indicator microorganisms, (d) better understanding of the effect of manure particulates on the MBP fate and transport, (e) relating the microorganism fate and transport parameters to environmental variables, such as soil and vegetation properties and weather parameters, (e) evaluating natural tracers with the transport behavior similar to microorganisms, e.g. manure-borne phosphorus, (f) understanding the uncertainty of the stream sampling data and the role of stream sediments as the pathogen reservoirs, (g) developing a process-based model of streambed microorganism resuspension during the rainfall events, (i) developing upscaling techniques to utilize small-scale measurements and models in the watershed modeling, (j) a better insight into filtering function of vegetated buffer strips and riparian zones. Ensembles of simulations have to be made to estimate the possible distribution of simulation results and risks associated with a specific allocation of manure and manure management practices.