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Water pollution | EPA needs to set priorities for water quality criteria issues
1994
Pollution prevention | EPA should reexamine the objectives and sustainability of state programs
1994
Water pollution | Information on the use of alternative wastewater treatment systems
1994
Plant responses to atmospheric CO2 enrichment with emphasis on roots and the rhizosphere
1994
Rogers, H.H. | Runion, G.B. | Krupa, S.V.
Empirical records provide incontestable evidence of global changes: foremost among these changes is the rising concentration of CO(2) in the earth's atmosphere. Plant growth is nearly always stimulated by elevation of CO(2). Photosynthesis increases, more plant biomass accumulates per unit of water consumed, and economic yield is enhanced. The profitable use of supplemental CO(2) over years of greenhouse practice points to the value of CO(2) for plant production. Plant responses to CO(2) are known to interact with other environmental factors, e.g. light, temperature, soil water, and humidity. Important stresses including drought, temperature, salinity, and air pollution have been shown to be ameliorated when CO(2) levels are elevated. In the agricultural context, the growing season has been shortened for some crops with the application of more CO(2); less water use has generally, but not always, been observed and is under further study; experimental studies have shown that economic yield for most crops increases by about 33% for a doubling of ambient CO(2) concentration. However, there are some reports of negligible or negative effects. Plant species respond differently to CO(2) enrichment, therefore, clearly competitive shifts within natural communities could occur. Though of less importance in managed agro-ecosystems, competition between crops and weeds could also be altered. Tissue composition can vary as CO(2) increases (e.g. higher C: N ratios) leading to changes in herbivory, but tests of crop products (consumed by man) from elevated CO(2) experiments have generally not revealed significant differences in their quality. However, any CO(2)-induced change in plant chemical or structural make-up could lead to alterations in the plant's interaction with any number of environmental factors-physicochemical or biological. Host-pathogen relationships, defense against physical stressors, and the capacity to overcome resource shortages could be impacted by rises in CO(2). Root biomass is known to increase but, with few exceptions, detailed studies of root growth and function are lacking. Potential enhancement of root growth could translate into greater rhizodeposition, which, in turn, could lead to shifts in the rhizosphere itself. Some of the direct effects of CO(2) on vegetation have been reasonably well-studied, but for others work has been inadequate. Among these neglected areas are plant roots and the rhizosphere. Therefore, experiments on root and rhizosphere response in plants grown in CO(2)-enriched atmospheres will be reviewed and, where possible, collectively integrated. To this will be added data which have recently been collected by us. Having looked at the available data base, we will offer a series of hypotheses which we consider as priority targets for future research.
Показать больше [+] Меньше [-]Pollution prevention research programs
1994
Air pollution and climate change
1994
Wellburn, Alan
Air pollution is an issue of enormous importance throughout the world. In recent years there have been changes in our perception of problems associated with air pollution, with new threats being identified and remaining problems becoming worse. Air Pollution and Climate Change, second edition, adopts a unique approach to the problem of air pollution, concentrating on the mechanisms of action of air pollutants and acid rain on biological tissues. This new edition retains relevant and revised information from the first edition and includes much fresh material on important aspects of climate change. The chapters are arranged in three parts, beginning with an outline of the physical events that create and modify pollutants, followed by a detailed consideration of the impact of pollution on plant and animal life forms. Key new topics in this edition include global warming, stratospheric ozone depletion, reduced air pollutants such as ammonia and volatile sulphides, and atmospheric lead and radon. The text focuses on the effects of pollutants on flora and fauna directly and on a global scale, as many problems now affect the global system upon which the biosphere depends. Fully illustrated, this is a key text for undergraduate and postgraduate students of biology, toxicology, environmental sciences and physical geography. It will also prove an excellent resource for administrators, consultants and legislators handling environmentally sensitive topics who need to know more about the biological consequences of atmospheric pollution.
Показать больше [+] Меньше [-]Water pollution | Poor quality assurance and limited pollutant coverage undermine EPA's control of toxic substances
1994
Pollution in livestock production systems
1994
Ap Dewi, I (Ioan)
Riparian forest buffer system research at the Coastal Plain Experiment Station, Tifton, GA
1994
Hubbard, R.K. | Lowrance, R.R.
Recent attention has focused on riparian forest buffer systems for filtering sediment, nutrients, and pesticides entering from upslope agricultural fields. Studies in a variety of physiographic areas have shown that concentrations of sediment and agrichemicals are reduced after passage through a riparian forest. The mechanisms involved are both physical and biological, including deposition, uptake by vegetation, and loss by microbiological processes such as denitrification. Current research by USDA-ARS and University of Georgia scientists at Tifton, GA is focusing on managing riparian forest buffer systems to alleviate agricultural impacts on the environment. The underlying concept for this research is that agricultural impact on streams is best protected by a riparian forest buffer system consisting of three zones. In consecutive upslope order from the stream these zones are (1) a narrow band of permanent trees (5-10 m wide) immediately adjacent to the stream channel which provides streambank stabilization, organic debris input to streams, and shading of streams, (2) a forest management zone where maximum biomass production is stressed and frees can be harvested, and (3) a grass buffer strip up to 10 m wide to provide control of coarse sediment and to spread overland flow. Several ongoing projects at Tifton, GA are focusing on using riparian forest buffer systems as filters. A forest management project is testing the effects of different management practices on surface and ground water quality. This project includes three different forest management practices: mature forest, selectively thinned forest, and clearcut. In a different study a natural wetland is being restored by planting frees. The effectiveness of this wetland on filtering nutrients from dairy wastes which are being applied upslope is being evaluated. At this same site, a pesticide study is being conducted on the side opposite to where dairy wastes are applied. An overland flow-riparian buffer system using swine lagoon waste is evaluating the effectiveness of different vegetative treatments and lengths of buffer zones on filtering of nutrients. In this study three vegetative treatments are compared: (1) 10 m grass buffer and 20 m riparian forest, (2) 20 m grass buffer and 10 m riparian forest, (3) 10 m grass buffer and 20 m of the recommended wetland species maidencane. Waste is applied at the upper end of each plot at either a high or low rate, and then allowed to flow downslope. The three zone riparian forest buffer system is being used for the Riparian Ecosystem Management Model (REMM). This model, which is currently under development at Tifton, GA, is a computer simulation model designed to reduce soil and water degradation by aiding farmers and land use managers in decision making regarding how best to utilize their riparian buffer system. Both information currently being collected in field studies and development of the REMM are innovative farm-level and forestry technologies to protect soil and water resources.
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