Team Coordinator
Mike Smolen
218 Ag Hall
405-744-8414
Team Administrator
Ron Elliott
111 Ag Hall
405-744-5431
Environmental Quality and Waste Management Team Priority Areas
The following list of priorities is presented unranked. Order in the list is not an indication of level of concern or importance of the topic.
Air quality is a continuing priority concern for animal production systems and for human residences. Research and extension programs are needed to address the control of odor emissions from swine facilities and other animal operations and to improve and protect indoor air quality.
Reclamation of Hazardous waste disposal sites such as the Tar Creek super fund site, denuded oil and gas production and processing sites is a continuing concern in Oklahoma for both public health and quality of the environment. In many cases management of the site hydrology and soil characteristics can be addressed through use of soil amendments, vegetation, and engineered structures.
Impact of alternative production practices and conservation tillage on water quality is a concern because the public often perceives organic production as a guarantee of improvement in environmental quality. However such practices have many side-effects that require attention. Clear examples exist in the use of manure as fertilizer in organic vegetable production, where phosphorus build-up in soils will generally be a concern. Conservation tillage, too, has both positive and negative effects that need to be addressed through both research and extension programs.
Stream restoration is a priority for urban and rural environment. The consequences of previous generations of agricultural production, urban construction, and oil and gas development have left many of Oklahoma’s streams in dreadful condition. Creeks are often deeply incised and separated from their flood plains; flood plains are often diverted from their natural function of flood relief and energy dissipation to production of crops or development of homes sites and commercial enterprises. The result is unstable stream channels with degraded or nonexistent aquatic communities. Many times the consequences are also expressed miles down stream from the original site, in the form of flooding and silting in of lakes. Research and extension programs are needed to develop systems to restore stream function and mitigate the impact of previous abuses, and teach future developers and ag producers how to avoid similar problems in the future. Phosphorus removal from nutrient enriched watersheds. In Eastern Oklahoma and other areas of the state where manure have been used extensively as fertilizer for pasture, grain, vegetable, or horticultural crops, there has been a substantial buildup of P in the soil. Excessively high P in soils makes them sources of pollution for area lakes and rivers. Crops and cropping systems to mine P from high P-soils and alternative management can reduce the impact of these soils on water quality. This area needs significant attention from both research and extension. Improved management practices and management decision tools such as the PPM Calculator are needed to maintain crop production, utilizing excess phosphorus, and protecting water quality.
Emerging contaminates is an area of research that can help determine cause and effect relationships for pollutants. Specific contaminates like caffeine, antibiotics, plasticizers, hormones and hormone derivatives, and human health and beauty products, can help researchers determine the source of more conventional pollutants like bacteria, phosphates, nitrates, toxic materials, and carcinogens. The identification of these contaminates and interpreting results of their detection can provide information necessary for fair rules affecting agriculture and watershed management in general. Also included in this topic would be research and interpretation of microbial source tracking and interpretation of the distribution of bacterial species, which could have significant impact on the water quality standards affecting agriculture throughout the state.
Poultry Waste. Manure and other by-products of poultry production are significant sources of phosphorus, nitrogen, organic matter, and other potential pollutants in Eastern Oklahoma watersheds. Currently this area has more than 700 broiler farms with capacity for more than 56 million birds and producing about 300,000 tons of litter annually. This litter can be either a liability or a benefit, depending on whether it must be disposed as a waste or utilized as a soil amendment or energy resource, or feedstock for some other process. There is strong evidence that the production of forage in Northeastern Oklahoma has been enhanced by poultry waste by-products. These potential benefits need to be utilized more safely in conservation systems and the waste needs to be transported to other areas and utilized where soils are deficient in both phosphorus and organic matter. Research needs include studies of the economics of transportation, disposal, and recycling to the land. Generally the impact of nitrogen from poultry litter is ignored in light of the bigger issue of phosphorus; however, high nitrogen concentration in ground water is also a concern in Northeastern Oklahoma.
Although these materials are viewed as pollutants, they also have considerable potential for raising the fertility of Oklahoma soils. Research is needed to provide practical guidelines for landowners and applicators and identify management practices that will assure the nutrients and organic matter can be recycled without degradating the environment.
Water Management and Water Policy. Water supply and water use is an area growing in importance to Oklahoma and other states of the region. It will require significant investment for research and public policy education with emphasis in the areas of public policy and economics as well as the physical and engineering sciences. Pressures on Oklahoma’s water resource come from competing interests of both rural and urban sectors. Significant changes are expected due to global climate change, population growth, and rural development. The public policy issues is complicated by the longstanding tradition that ground water ownership is a personal property right and, therefore, different from surface water, which can be allocated by the state. Such issues along with conservation, pollution control, and water supply development may be the predominant issues for the economic future of rural Oklahoma.
Low Impact Development, or LID, is a concept gaining favor around the country to reduce the environmental impact of construction and development of urban and rural infrastructure. In recent years, urban and suburban pollution associated with construction and development has been identified as one of the most important sources of pollution of water bodies. Using the LID approach, vegetation and improved hydrologic design promote infiltration and remove pollutants near the source, replacing large engineered stormwater structures with smaller, more natural pollution control units that fit the landscape and require less maintenance and attention from public officials. The LID approach is expected to improve both aesthetics and performance, reducing many of the negative impacts on urban streams and other water bodies. Improved stormwater management systems such as LID could be a significant advantage to protection and proper utilization of rural and urban Oklahoma
Solid Waste Management and Recycling Over the past ten years Oklahoma has made significant advances in control and management of its solid waste problems. Many substandard landfills have been closed and many roadside dumps have been identified and cleaned up. Some counties have instituted a “trash” cop program that has significantly reduced roadside dumping. Extension has played an important role assisting communities with education and planning, but a great deal of continuing education is still needed. In addition new waste management problems must be addressed in the future such as biomedical wastes, electronic wastes, and the problem of disposal of hazardous materials. The pesticide container recycling program, essential to proper management of agricultural chemicals, recycles 30,000 to 80,000 lb of plastic each year at no cost to producers. It is thought this could double in the near future.