Animal Feeding Operations - Best Management Practices (BMPs)
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Animal Feeding Operations Highlights
- Beef Cattle and Environmental Stewardship (PDF) (6 pp, 1.2MB)
- Dairies and Environmental Stewardship (PDF) (6 pp, 1.3MB)
- Poultry Production and Environmental Stewardship (PDF) (6 pp, 1.1MB)
- Swine Production and Environmental Stewardship (PDF) (6 pp, 1.1MB)
- Production
- Best Management Practices
- Education & Training
- Laws
- Research
- Compliance & Enforcement
- Related Publications
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Operating procedures, schedules of activities, maintenance procedures, and other management practices that animal feeding operations can use to prevent or reduce pollution.
- Managing Nonpoint Source Pollution in Coastal Waters
- Methane
- AgSTAR Program (methane recovery from CAFOs)
- The Ruminant Livestock Efficiency Program
- Nutrient/Manure Management
- Using the Clean Water State Revolving Fund to Reduce Animal Feeding Operation Pollution
- Odors
- Photographs of BMPs (some specific to livestock)
- Livestock Environmental Stewardship Brochures
- AFO Virtual Center Best Management Practices and Controls
- Livestock and Poultry Environmental Learning Center
Related topics
Biosecurity
Homeland Security for AgricultureMore information from the states
Montana State University: Environmental Self-Assessment for Beef Operations (PDF) (34 pp, 233K)More information from other organizations
CLEANmp-EAST - offers technical assistance to livestock and poultry operations in the Eastern United States to help operators identify and address environmental challenges
CLEANmp-WEST - offers technical assistance to livestock and poultry operations in the Western project area
Managing Nonpoint Source Pollution in Coastal Waters
EPA specifies management measures to protect coastal waters from agricultural animal sources of non-point pollution.Management measures: "Management measures" are defined in section 6217 of the Coastal Zone Act Reauthorization Amendments of 1990 (CZARA) as economically achievable measures to control the addition of pollutants to our coastal waters, which reflect the greatest degree of pollutant reduction achievable through the application of the best available non-point pollution control practices, technologies, processes, sifting criteria, operating methods or other alternatives.
These management measures will be incorporated by states into their coastal non-point programs, which under CZARA are to provide for the implementation of management measures that are "in conformity" with this guidance. Under CZARA, states are subject to requirements as they develop and implement their Coastal Non-point Pollution Control Programs, and will have some flexibility as they conform with this guidance.
Management practices: In addition to specifying management measures, EPA also lists and describes management practices for illustrative purposes only. While state programs are required to specify management measures in conformity with this guidance, state programs need not specify or require implementation of the particular management practices described by EPA. However, as a practical matter, EPA anticipates that the management measures will be implemented by applying one or more management practices appropriate to the site, location, type of operation, and climate. The practices have been found by EPA to be representative of the types of practices that can be applied successfully to achieve the management measures. EPA has also used some of these practices, or appropriate combinations of these practices, as a basis for estimating the effectiveness, costs, and economic impacts of achieving the management measures.
Agriculture Nonpoint Source Pollutants: The primary agricultural non-point source pollutants are nutrients (particularly nitrogen and phosphorus), sediment, animal wastes, pesticides, and salts. Agricultural non-point sources enter surface water through direct surface runoff or through seepage to ground water that discharges to a surface water outlet. Various farming activities result in the erosion of soil particles. The sediment produced by erosion can damage fish habitat and wetlands and often transports excess agricultural chemicals resulting in contaminated runoff. This runoff affects aquatic habitat by increasing temperature and decreasing oxygen.
More information from EPA
Guidance Specifying Management Measures for Sources of Non-Point Pollution in Coastal Water
Agriculture Chapter Fact Sheet
Chapters Related to Confined Agricultural Animals - Management Measure for Facility Wastewater and Runoff from Confined Animal Facility Management (Small Units)
Coastal Non-Point Source Pollution Control Program
Fact Sheet: Protecting Coastal Waters from Nonpoint Source Pollution
Best Nonpoint Source Documents - Agriculture, January 2001
Methane
Ruminant livestock such as cattle and sheep are the largest source of methane emissions resulting from human activity. Scientists estimate that global ruminant livestock industries produce about 20 percent of the world's methane emissions associated with human activity. Methane, produced as part of the animals' normal digestive process, is a potent greenhouse gas that contributes to global climate change. By improving livestock production efficiency, producers can both increase profits and reduce methane emissions.One method of reducing methane emissions from livestock is to supplement the animal's diet. Scientists have found that supplementing a cow's diet with substances such as urea increase the animal's ability to digest food. With improved digestion, less fermentation takes place during digestion, and methane emissions per unit of forage have been reduced 25-75 percent. In addition, as digestion improves, productivity also improves, as dairy cows produce more milk and beef cattle fatten faster.
The Methane to Markets Partnership is an action-oriented initiative that will reduce global methane emissions to enhance economic growth, promote energy security, improve the environment, and reduce greenhouse gases. Other benefits include improving mine safety, reducing waste, and improving local air quality. The initiative focuses on cost-effective, near-term methane recovery and use as a clean energy source. It will be done internationally through collaboration between developed countries, developing countries, and countries with economies in transition — together with strong participation from the private sector. The Methane to Markets Partnership initially targets three major methane sources: landfills, underground coal mines, and natural gas and oil systems.
Related publications from the Ag Center
Sector Notebooks - Industry Sector ProfilesMore information from EPA
Methane
Climate Change
AgSTAR Program
The AgSTAR Program is a voluntary program jointly sponsored by EPA, USDA, and the U.S. Department of Energy. The program encourages the use of methane recovery (biogas) technologies at concentrated animal feeding operations (CAFOs) that manage manure as liquids or slurries to reduce greenhouse gas (methane) while achieving other environmental benefits including odor control and nutrient management opportunities.The AgSTAR Program provides important tools, guidance, and methods that allow participating livestock producers to comprehensively assess the applicability of various biogas systems for their livestock production facility. Utilizing these services provides producers with the information needed to make "go" or "no go" business and environmental decisions based on technology choice, operational ability, and financial performance.
More information from EPA
The AgSTAR Program
AgSTAR Documents, Tools, and Resources
AgSTAR Handbook
FarmWare Software (scroll down)
AgSTAR Hotline: 1-800-95-AgSTAR (1-800-952-4782)
The Ruminant Livestock Efficiency Program
Ruminant animals, such as cattle, sheep, buffalo, and goats, are unique. Because of their special digestive systems, they can convert otherwise unusable plant materials into nutritious food and fiber. This same helpful digestive system, however, produces methane, a potent greenhouse gas that can contribute to global climate change. Livestock production systems can also emit other greenhouse gases such as nitrous oxide and carbon dioxide.Globally, ruminant livestock produce about 80 million tons of methane annually, accounting for about 22% of global methane emissions from human-related activities. An adult cow may be a very small source by itself, emitting only 80-120 kgs of methane, but with about 100 million cattle in the U.S. and 1.2 billion large ruminants in the world, ruminants are one of the largest methane sources. In the U.S., cattle emit about 6 million metric tons of methane per year into the atmosphere, which is equivalent to about 36 million metric tons of carbon.
More information from EPA
The Ruminant Livestock Efficiency Program
Frequently Asked Questions: Ruminant Livestock Efficiency
Resources and Tools: Ruminant Livestock EfficiencyPublications and Software from EPA
Livestock Analysis Model (LAM) Software
Small Steps Make A Difference Booklet (PDF) (16 pp, 158K)
Global Climate Change and Environmental Stewardship by Ruminant Livestock Producers (PDF) (19 pp, 161K)
Opportunities To Reduce Anthropogenic Methane Emissions in the United States (available only in hard copy - scroll down to order)
Nutrient/Manure Management
Animal Feeding Operations (AFOs) are livestock-raising operations, such as hog, cattle, dairy, sheep, and poultry farms, that congregate animals, feed, waste, and production operations on a small land area. In these operations, food is brought to the animals rather than having them graze or otherwise seek food in pastures or fields. Manure and wastewater from AFOs have the potential to impact nearby water bodies and cause serious water quality and public health risks. AFOs can range from livestock production facilities with a small number of animals to extremely large production facilities that generate as much animal manure and wastewater as the amount of biosolids generated by a medium-sized city. Improperly managed manure and wastewater from AFOs have been associated with significant environmental and public health concerns, including nutrient over-enrichment of surface water and groundwater, contamination of drinking water supplies and fish kills.EPA is presenting a national strategy which describes the approach the Agency will follow in developing nutrient information and working with states and tribes to adopt nutrient criteria as part of state water quality standards. The strategy presents over enrichment assessment tools and recognizes current capabilities for conducting these assessments at the regional watershed and waterbody levels. The major focus of this strategy is the development of waterbody-type technical guidance and region-specific nutrient criteria by the year 2000. Once waterbody-type guidance and nutrient criteria are established, EPA will assist states and tribes in adopting numerical nutrient criteria into water quality standards by the end of 2003.
The major elements of this strategy include:
- Use of a regional and waterbody-type approach for the development of nutrient water quality criteria.
- Development of waterbody-type technical guidance documents (i.e., documents for streams and rivers; lakes and reservoirs; estuaries and coastal waters; and wetlands) that will serve as "user manuals" for assessing trophic state and developing region-specific nutrient criteria to control overenrichment.
- Establishment of an EPA National Nutrient Team with Regional Nutrient Coordinators to develop Regional databases and to promote state and tribal involvement.
- Development by EPA of nutrient water quality criteria guidance in the form of numerical regional target ranges, which EPA expects states and tribes to use in implementing state management programs to reduce overenrichment in surface waters, i.e., through the development of water quality criteria, standards, NPDES permit limits, and total maximum daily loads (TMDLs).
- Monitoring and evaluation of the effectiveness of nutrient management programs as they are implemented.
More information from EPA
EPA Region 3 Clean Bays Agreement with Perdue Farms, Inc. - EPA and Perdue Farms, Inc. have signed an agreement that will set up a program to help minimize the environmental impact that poultry farms have on the Chesapeake Bay and coastal bays around the Delmarva peninsula. The program initially focuses on the largest farms that supply Perdue with chickens. Under the formal Memorandum of Agreement known as the Clean Bays agreement, beginning in 2007 trained flock supervisors from Perdue will visit the farms to evaluate how they are controlling runoff and addressing litter disposal. The supervisors will use a checklist to examine how well the farms are complying with nutrient management regulations related to their poultry operations and identify areas for improvement.
Perdue Clean Bays Environment Management Initiative MOA (PDF) (5 pp, 224K)
Perdue Clean Bays Environment Management Initiative Fact Sheet (1 pg, 218K)
Region 3's AFO pageManaging Manure Guidance for CAFOs
National Strategy for the Development of Regional Nutrient Criteria
EPA Region 4: Section 319 Non-point Source Pollution Projects Related to Nutrient Contamination
Water Quality Trading
GreenScapes - provides cost-efficient and environmentally friendly solutions for large-scale landscaping.
GreenScaping for Homeowners: The Easy Way to a Greener, Healthier Yard - GreenScaping encompasses a set of landscaping practices that can improve the health and appearance of your lawn and garden while protecting and preserving natural resources.
Environmentally Preferable Purchasing - a federal-wide program that encourages and assists Executive agencies in the purchasing of environmentally preferable products and services.
AFO Virtual Information Center Nutrient Management - Information and tools to help develop nutrient management plans, including state technical standards.
Available software
Milking Center Wastewater Treatment
EPA Software for Environmental Awareness
Idaho One Plan - An innovative approach to conservation planning that enables farmers and ranchers in Idaho to identify and address multiple environmental agency requirements while ensuring a viable and sustainable approach.Information from USDA
U.S. Pork Center of Excellence
Assessments to Reduce Nitrogen and Phosphorus Nonpoint Source Pollution of Iowa's Surface Waters
USDA Agricultural Research Service: Composting
Manure Nutrients Relative to the Capacity of Cropland and Pastureland to Assimilate Nutrients
NRCS Planning Tool -- estimates the production of manure in an operation (no cost to download)
NRCS Manure Master Decision Support System -- online software that compares nutrient content in animal manure with nutrients removed from fields where manure was applied
NRCS AFO Pro -- on line software allows the user to plan manure and commercial fertilizer allocation decisions in compliance with the NRCS’s 590 StandardInformation from Canada
Research Strategy for Hog Manure Management in Canada (PDF) (37 pp, 98.2K)
ManureNetComprehensive Nutrient Management Planning Resource from NASDA
Northeast Recycling Council's Manure Management Education -- provides assistance to small and hobby farmers/livestock owners to understand and adopt best management practices for handling and using manure. Key manure management resources include:
- Manure Management Handbook for Small and Hobby Farms (PDF) (27 pp, 586 KB)
- Quick Reference Guide (PDF) (26 pp, 868 KB)
- Manure Generation Calculator (29 KB)
- Guide to Providing Manure Management Education to Small Farm and Livestock Operations (PDF) (32 pp, 359 KB)
California
California Dairy Quality Assurance Program - The Do's and Don'ts of Manure Management and Clean Water (PDF) (2 pp, 1MB)Clemson University
Land Application of Animal Manure (PDF) (8 pp, 294K)Cornell University
Composting ManureUniversity of Illinois
Manure Storage Entering Procedures
Illinois Certified Livestock Manager TrainingIowa State University
Iowa Manure Management Action Group (IMMAG)
Manure/Odor Management PublicationsUniversity of Maryland
Nutrient Resources NetworkMichigan
Generally Accepted Agricultural and Management Practices for Manure Management and UtilizationUniversity of Minnesota
Manure and Odor Education and Research
Feedlot and Manure Management Directory
Manure Management and Air QualityUniversity of Missouri
Manure Management Action GroupUniversity of Nebraska
Manure Matters
Manure Nutrient Inventory Spreadsheet
Educational Videos: How to Install and use a Low Water Stream Crossing for Cattle (Real Player is required to view this) and How to Properly Decommission an Earthen Lagoon or Holding PondNorth Carolina State University
Nutrient Management
Waste Management ProgramOhio State University
Best Management Practices: Land Application of Animal Manure
Ohio Livestock Manure And Wastewater Management GuidePennsylvania State University
Nutrient ManagementUniversity of Pennsylvania
Center for Animal Health and Productivity
Dairy Nutrition and Management (scroll down)
Milk Urea NitrogenPurdue University
Runoff Control Systems for Open Livestock Feedlots
Purdue Manure Management Planner (no cost to download)
Purdue Animal Manure Solutions
Purdue University Extension - Indiana Manure Locator NetworkTexas A & M
Texas Animal Manure Management IssuesInformation from Other Organizations
Anaerobic Digester Technology Applications in Animal Agriculture - A National Summit proceedings (June 2-4, 2003)Swine Manure Management
Fertilizing Cropland with Swine ManureDairy Manure Management
National Dairy Manure Management Database
Fertilizing Cropland with Dairy ManureCattle Manure Management
Fertilizing Cropland with Beef ManureHorse Manure Management
Clemson University (PDF) (2 pp, 120K)
British Columbia Ministry of Agriculture and Food (PDF) (4 pp, 1MB)Poultry Manure Management
Fertilizing Cropland with Poultry ManureAlternative Treatment Technologies
Information from States
Iowa Department of Natural Resources Updated design standards for Open Feedlot Structures (includes vegetative treatment systems)Information from Academic Institutions
Heartland Water Quality Project on Manure Management
Alternative Technologies
Feeding Strategies
Methane Digesters
Overview
Solids Separation
Vegetative Treatment Systems Resources
VTS GuidanceSouth Dakota State University
Research on vegetative treatment systems for dealing with manure from small afosUniversity of Nebraska
Case studies on vegetative treatment systemsOhio State University
Farmstead Runoff ControlNational Center for Manure and Animal Waste Management
Proceedings from the State of the Science Symposium on Animal Manure and Waste Management January 5-7, 2005, San Antonio, TXAgriculture Research Service
Vegetative Treatment SystemsNatural Resources Conservation Service
Vegetative Treatment Systems
Using the Clean Water State Revolving Fund to Reduce Animal Feeding Operation Pollution
The 25th anniversary of the Clean Water Act in October 1997 sparked the development of the Clean Water Action Plan (CWAP), which calls for a renewed commitment to providing "fishable and swimmable" waters to all Americans. In creating the Clean Water State Revolving Fund (CWSRF), Congress ensured that it would be able to fund a wide range of water quality projects, including non-point source, wetlands, estuary, and watershed projects, as well as municipal wastewater treatment systems. The 51 funding programs (one in each state and Puerto Rico) work like banks. Federal and state contributions are used to provide capital or set up the programs. These assets, in turn, are used to make low-interest loans (as low as 0%) for important water quality projects. Loan repayments are then recycled to fund other important water quality projects.Who is eligible? Loan recipients are community groups, individuals, and agricultural and nonprofit organizations. Since the program is managed largely by the states, project funding may vary according to the priorities within each state. To obtain the funding, a project must be in a state's Non-point Source Management Plan or Estuary Conservation and Management Plan. Contact your state's Clean Water Act program for details.
Restrictions on eligibility. Animal Feeding Operations that meet certain specified criteria in the National Pollutant Discharge Elimination System (NPDES) regulations are referred to as concentrated animal feeding operations (CAFOs). Under the Clean Water Act, CAFOs are point sources. Point sources can only receive CWSRF funding if publicly owned. However, a privately owned agricultural operation that includes a CAFO may still be eligible for CWSRF funding for a non-point source project if:
- The proposed remediation takes place outside the CAFO.
- The agricultural operation has a Comprehensive Nutrient Management Plan (CNMP) developed by a public official or certified private party and is implementing it.
- The proposed project is consistent with the Comprehensive Nutrient Management Plan.
At these facilities, for example, stormwater runoff from land application areas may be viewed as a non-point source discharge and eligible for the funding.
How much funding is available? The Clean Water State Revolving Fund has in excess of $27 billion in assets. Currently, it is funding approximately $3 billion in water quality projects each year. Funding for polluted runoff projects (including AFOs) is gaining momentum as the Clean Water Action Plan initiatives get under way.
Animal feeding operation success stories.
- The Missouri Agricultural and Small Business Development Authority (MASBDA) is borrowing CWSRF funds and lending the money to farmers so they can purchase animal waste collection equipment and construct animal waste storage and distribution facilities. The animal waste is used to irrigate row crops and pastures, providing both water and nutrients. The Missouri SRF lends funds to MASBDA at an interest rate of 3 percent, which in turn lends them to farmers at interest rates of 5 percent to 6 percent. The farmers use the revenues from selling their livestock to pay back their loans.
- Minnesota's Department of Agriculture operates a Best Management Practices (BMP) loan program which has successfully funded a large number of AFO projects. The State lends counties and soil and water conservation districts CWSRF monies at 0 percent interest. The county or district, through banks that act as agents, lends the money at up to 3 percent interest (maximum) for a 10-year term. This financial framework demonstrates a unique and effective public/private partnership. Local governments determine environmental priorities and the banks determine the financial feasibility of the targeted projects. The counties and districts pay the principal back to the State within 20 years. Minnesota has issued $7.1 million in loans to fund 366 AFO projects.
- Delaware has developed an Agricultural Non-point Source Loan Program (AgNPSLP) as part of their Water Pollution Control Revolving Loan Fund Program. Loans are made available to producers, underwriting up to 90 percent of the producer's share of the cost of building manure and composting structures. The AgNPSLP also provides loans to purchase front end loaders, manure spreaders, and outside composters.
More information from EPA
Cleaning Up Polluted Runoff with the Clean Water State Revolving Fund (PDF) (4 pp, 42.5K)
Financing Clean Water Action Plan Activities (PDF) (29 pp, 838K)
How to Fund Nonpoint Source & Estuary Enhancement Projects (PDF) (24 pp, 980K)
Funding Estuary Projects Using the Clean Water State Revolving Fund (PDF) (4 pp, 289K)
The Clean Water State Revolving Fund: Financing America's Clean Water Since 1987 - A Report of Progress (PDF) (20 pp, 294K)
State Revolving Fund Newsletter (PDF) (12 pp, 503K)
Clean Water State Revolving Fund: National Information Management System Reports (2006)
Clean Water State Revolving Fund Annual ReportsContact information
EPA Clean Water State Revolving Fund Program
Washington, DC 20004
Phone: (202) 564-0752 Fax: (202) 501-2403
State Revolving Fund Regional Contacts (PDF) (1 pg, 19K)
State Revolving Fund Contacts
Odors
Concentrated Animal Feeding Operations (CAFOs) confine livestock production in buildings or feedlots, producing large volumes of waste water. New or expanding CAFOs must apply for permit coverage under EPA's National Pollutant Discharge Elimination System (NPDES) for wastewater. EPA must prepare environmental assessments or environmental impact statements, as required by the National Environmental Policy Act (NEPA), to assess the potential for impacts. Environmental assessments or environmental impact statements utilize information submitted by permit applicants in their Environmental Information Documents.CAFOs, wastewater, and odors. Wastewater handling during animal housing, storage, treatment, and land application can cause odors which can impact neighbors if CAFOs are not managed to minimize odor production. Complaints by neighbors may lead to legal actions seeking court injunctions against EPA and others, including the applicants. To minimize odor impacts and minimize legal conflicts, EPA's environmental assessments need to consider potential odor pollution impacts from wastewater handling and discharge. However, applicants' Environmental Information Documents often contain little information on potential odor impacts, and if information is available the connection between management practices and odor may not be readily apparent to the permit reviewer.
Sources. Most notable about odor sources is that there are so many compounds potentially involved. Compounds may have their own odors, or they may combine with other compounds to produce different odors. The main classes of odor-causing chemicals are: volatile fatty acids, indols and phenols, ammonia and volatile amines, and volatile sulfur-containing compounds. Offensive odors can be generated by several parts of a CAFO, especially:
- confinement buildings and open feedlots
- manure storage and treatment
- land application of wastes
For example, dust can carry odors from confinement building exhausts, and aerosols can carry odors from lagoons and from land application sprinklers.
Measurement. It is possible to measure some specific odor-causing chemicals. However, a measured value of ammonia may have little to do with an actual perceived odor at a downwind location, which is more likely to result from a combination of chemicals. As a result, odors are often measured using human panelists fitted with devices (olfactometers) which control panelists' intake of air in order to provide a consensus of sensory impact. Such field measurements form the basis for property-line odor regulations in several states and localities. Another way to measure odor is to use mathematical models to predict odor potential based on environmental characteristics such as terrain and wind speed. Modeling has not been developed to the point where compliance standards can be set.
Management. Management is the key to controlling odors. Odor-reducing management practices are available for all aspects of a CAFO, including site selection, building design, waste processing and disposal, and daily operation and maintenance. Often, good waste water management and control of odors go hand in hand, in that a clean, efficient CAFO produces less odor and more income at the same time.
Additives. It may be possible to reduce odors by modifying animal diet and wastewater treatment processes. Most feed and waste additives are commercial, odorant-specific, expensive, and require persistence. Their uses may best address short-term problems. The limited capability of additives to control odors makes it especially important that effective engineering and management practices be part of the original project design.
More information from EPA
Swine CAFO Odors: Guidance for Environmental Impact Assessments (PDF) (54 pp, 216K)More information from the States
Illinois
Swine Odor and Waste ManagementIndiana
Purdue University - PAAQL: Purdue Agricultural Air Quality LaboratoryIowa
Livestock Odor Reduction Demonstration Project (PDF) (2 pp, 54.7K)
Measuring Odors (PDF) (2 pp, 291K)
Manure/Odor Management PublicationsMinnesota
Feedlots Livestock Odor FAQ
Biofilters for Odor Control (PDF) (2 pp, 217K)
Effective Use of Solid-Liquid Separation and Aeration to Control Swine Manure Odor (PDF) (3 pp, 13K)
Feedlot Hydrogen Sulfide Initiative (PDF) (2 pp, 20.7K)North Carolina
NCSU - Swine Odor Management
NCSU - Cooperative Extension Service
NCSU - College of Agriculture and Life SciencesOhio
Ohio State University - Ohio Livestock Manure and Wastewater Management Guide (PDF) (127 pp, 1.6MB)South Carolina
Confined Swine Feeding Operations (PDF) (106 pp, 329K) - See SECTION 100.150 for Odor
Livestock Environmental Stewardship Brochures
EPA developed pictorial brochures for four agriculture sectors (poultry, beef, dairy, and swine) to be used as compliance assistance tools. The brochures present management practices found at agricultural facilities. The goal of the brochures is to benefit the producer by identifying and promoting best management practices and environmental stewardship.Related information
Livestock Environmental Stewardship Brochures
Livestock and Poultry Environmental Learning Center
Livestock and Poultry Environmental Learning Center is a project sponsored by CSREES and dedicated to the vision that individuals involved in public policy issues, animal production, and delivery of technical services for confined animal systems should have on-demand access to the nation's best science-based resources.
The LPE Learning Center offers a free monthly webcast on a variety of issues related to animal manure management. The LPE Learning Center also offers a free monthly newsletter that includes information on the webcast series, new content, and innovative manure management resources and programs from across the country.
The Livestock and Poultry Environmental Stewardship Curriculum contains a series of lessons, CAFO fact sheets, Small Farm fact sheets, and Ag EMS publications. Continuing Education Units are available to Certified Crop Advisers (CCA) and members of the American Registry of Professional Animal Scientists (ARPAS).