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331.
332.
Neubauer CP Hall GB Lowe EF Robison CP Hupalo RB Keenan LW 《Environmental management》2008,42(6):1101-1114
The St. Johns River Water Management District (SJRWMD) has developed a minimum flows and levels (MFLs) method that has been
applied to rivers, lakes, wetlands, and springs. The method is primarily focused on ecological protection to ensure systems
meet or exceed minimum eco-hydrologic requirements. MFLs are not calculated from past hydrology. Information from elevation
transects is typically used to determine MFLs. Multiple MFLs define a minimum hydrologic regime to ensure that high, intermediate,
and low hydrologic conditions are protected. MFLs are often expressed as statistics of long-term hydrology incorporating magnitude
(flow and/or level), duration (days), and return interval (years). Timing and rates of change, the two other critical hydrologic
components, should be sufficiently natural. The method is an event-based, non-equilibrium approach. The method is used in
a regulatory water management framework to ensure that surface and groundwater withdrawals do not cause significant harm to
the water resources and ecology of the above referenced system types. MFLs are implemented with hydrologic water budget models
that simulate long-term system hydrology. The method enables a priori hydrologic assessments that include the cumulative effects
of water withdrawals. Additionally, the method can be used to evaluate management options for systems that may be over-allocated
or for eco-hydrologic restoration projects. The method can be used outside of the SJRWMD. However, the goals, criteria, and
indicators of protection used to establish MFLs are system-dependent. Development of regionally important criteria and indicators
of protection may be required prior to use elsewhere. 相似文献
333.
Michael J. Mason Jeremy Mennis J. Douglas Coatsworth Thomas Valente Frank Lawrence Patricia Pate 《Journal of environmental psychology》2009
Geographic and substance use data were collected from 301 urban adolescents to compare the perceived and observed risk and safety associated with their home and activity space locations (routine locations). The geographic characteristics of the neighborhood surrounding each location was summarized according to features theorized to be risky, such as criminal activity and alcohol sales, and features theorized to be safe, such as recreation centers and churches. Data on socioeconomic status, derived from U.S. Bureau of the Census data, were also used to characterize locations. Adolescents' homes were typically perceived as safe despite observed measures of risk such as density of crimes and proximity to alcohol outlets. This held for both substance users and non-users. Differences in geographic characteristics for safe and risky activity spaces were observed for both substance users and non-users, with non-users appearing to be more sensitive to the presence of risky characteristics in the environment than substance users. Results highlight the need and provide a methodology to collect fine-grained activity space data instead of relying only on home residence when attempting to represent place and health behaviors with urban youth. 相似文献
334.
Stewart Lockie Susan Rockloff Danielle Helbers Maharlina Gorospe-Lockie Karen Lawrence 《Journal of Environmental Planning and Management》2009,52(4):437-455
Extensive forms of resource use are rarely subject to detailed environmental and social assessment. This paper outlines a potential methodology for assessment of the social impacts of extensive resource use activities based on the Pressure-State-Impact-Response (PSIR) model of integrated indicator development. It then tests this methodology through a case study of changed water flow regimes in Central Queensland's Fitzroy River catchment. While resource degradation associated with interruptions to flow was expected to force all resource users to face higher costs and greater uncertainty, negative social impacts were particularly concentrated among vulnerable groups and downstream industries. Extension of the PSIR framework and methodology proved useful in linking social and biophysical research and would thus appear to offer some potential as a model for incorporating social concerns within natural resource decision making. 相似文献
335.
Nitrogen fluxes through unsaturated zones in five agricultural settings across the United States 总被引:2,自引:0,他引:2
The main physical and chemical controls on nitrogen (N) fluxes between the root zone and the water table were determined for agricultural sites in California, Indiana, Maryland, Nebraska, and Washington from 2004 to 2005. Sites included irrigated and nonirrigated fields; soil textures ranging from clay to sand; crops including corn, soybeans, almonds, and pasture; and unsaturated zone thicknesses ranging from 1 to 22 m. Chemical analyses of water from lysimeters and shallow wells indicate that advective transport of nitrate is the dominant process affecting the flux of N below the root zone. Vertical profiles of (i) nitrogen species, (ii) stable isotopes of nitrogen and oxygen, and (iii) oxygen, N, and argon in unsaturated zone air and correlations between N and other agricultural chemicals indicate that reactions do not greatly affect N concentrations between the root zone and the capillary fringe. As a result, physical factors, such as N application rate, water inputs, and evapotranspiration, control the differences in concentrations among the sites. Concentrations of N in shallow lysimeters exhibit seasonal variation, whereas concentrations in lysimeters deeper than a few meters are relatively stable. Based on concentration and recharge estimates, fluxes of N through the deep unsaturated zone range from 7 to 99 kg ha(-1) yr(-1). Vertical fluxes of N in ground water are lower due to spatial and historical changes in N inputs. High N fluxes are associated with coarse sediments and high N application rates. 相似文献
336.
Radon-222 exhalation from the ground surface depends upon a number of variables such as the 226Ra activity concentration and its distribution in soil grains; soil grain size; soil porosity, temperature and moisture; atmospheric pressure, rainfall and temperature. In this study, 222Rn exhalation flux density measurements within and around the Ranger uranium mine in northern Australia were performed to investigate the effect of these variables within a tropical region. Measurements were taken at the waste rock dumps, ore stockpiles, mine pits, and at sites where effluent water with elevated 226Ra concentration has been spray irrigated over land, as well as at sites outside the mine. The sites selected represented a variety of geomorphic regions ranging from uranium-bearing rocks to ambient soils. Generally, wet season rains reduced 222Rn exhalation but at a few sites the onset of rains caused a step rise in exhalation flux densities. The results show that parameters such as 226Ra activity concentration, soil grain size and soil porosity have a marked effect on 222Rn flux densities. For similar geomorphic sites, 226Ra activity concentration is a dominant factor, but soil grain size and porosity also influence 222Rn exhalation. Surfaces with vegetation showed higher exhalation flux densities than their barren counterparts, perhaps because the associated root structure increases soil porosity and moisture retention. Repeated measurements over one year at eight sites enabled an analysis of precipitation and soil moisture effects on 222Rn exhalation. Soil moisture depth profiles varied both between seasons and at different times during the wet season, indicating that factors such as duration, intensity and time between precipitation events can influence 222Rn flux densities considerably. 相似文献
337.
Alexandra P. Pinho Lawrence A. Morris C. Rhett Jackson W. James White Parshall B. Bush Antônio T. Matos 《Journal of the American Water Resources Association》2008,44(6):1564-1577
Abstract: It is common practice in the United States and elsewhere to maintain vegetated filter strips adjacent to streams to retain contaminants in surface runoff. Most research has evaluated contaminant retention in managed agricultural field strips, while relatively few studies have quantified retention in forested filter strips, particularly for dissolved contaminants. Plot‐scale overland flow experiments were conducted to evaluate the efficiency of natural forested filter strips established as streamside management zones (SMZs) for retaining phosphorus (P), atrazine, and picloram transported in runoff. Retention was evaluated for five different slope classes: 1‐2, 5‐7, 10‐12, 15‐17, and 20‐22%; two cover conditions: undisturbed forest floor (O horizon intact) and forest floor removed by raking; and two periods with contrasting soil moisture conditions: summer‐dry and winter‐wet season. Surface flow was collected at 0, 2, 4, 6, and 10 m within the filter strip to evaluate changes in solution concentration as it moved through the O horizon and the surface soil horizon mixing zone. On average, a 10 m length of forested SMZ with an undisturbed forest floor reduced initial solution concentration of total dissolved P by 51%, orthophosphate P by 49%, atrazine by 28%, and picloram by 5%. Percentages of mass retention through infiltration of water plus concentration reductions in runoff were 64% for total dissolved P, 62% for orthophosphate P, 47% for atrazine, and 28% for picloram for undisturbed forest floor conditions. Lower retention occurred following forest floor removal, particularly for P. Average dissolved P retention was 16% lower following forest floor removal. For undisturbed sites, differences in retention were more closely related to forest floor depth than to slope or antecedent soil moisture. These results indicate that forested SMZ filter strips provide a significant measure of surface water protection from dissolved P and herbicide delivery to surface water. 相似文献
338.
Lake variability: key factors controlling mercury concentrations in New York State fish 总被引:2,自引:0,他引:2
Simonin HA Loukmas JJ Skinner LC Roy KM 《Environmental pollution (Barking, Essex : 1987)》2008,154(1):107-115
A 4year study surveyed 131 lakes across New York State beginning in 2003 to improve our understanding of mercury and gather information from previously untested waters. Our study focused on largemouth and smallmouth bass, walleye and yellow perch, common piscivorous fish shown to accumulate high mercury concentrations and species important to local fisheries. Fish from Adirondack and Catskill Forest Preserve lakes generally had higher mercury concentrations than those from lakes in other areas of the state. Variability between nearby individual lakes was observed, and could be due to differences in water chemistry, lake productivity or the abundance of wetlands in the watershed. We found the following factors impact mercury bioaccumulation: fish length, lake pH, specific conductivity, chlorophyll a, mercury concentration in the water, presence of an outlet dam and amount of contiguous wetlands. 相似文献
339.
Lyman A. Ripperton Lawrence Kornreich James J.B. Worth 《Journal of the Air & Waste Management Association (1995)》2013,63(9):589-592
Measurement of NO2 and NO has been carried out in Piedmont, N. C. and in the southern Appalachian Mountains. Average values for the Piedmont were: continuous NO2 measured 30 ft above surface, 0.76 pphm (14.3 μg/m3), 1 20 ft, 0.61 pphm (11.5 μg/m3); simultaneous values (also Piedmont) (2-hr discrete samples) taken at an earlier time at 4 ft, NO2, 0.56 pphm (10.6 μg/m3), NO, 0.19 pphm (2.34 μg/m3). The mountain top values (5120 ft, 1573 m) were: NO2, 0.46 pphm (6.4 μg/m3), NO, 0.26 pphm (2.72 μg/m3). The results of this study furnish further proof that tropospheric NO and NO2 are produced at the surface of the earth. Data obtained are consistent with the belief that a major sink for NOx is reaction with O3 and ultimate conversion to nitrate. Ozone values frequently increased and NOx values decreased ahead of cold fronts, probably as a result of deep vertical mixing. Also, in small scale turbulence the changes in NOx values and in the O3 values tended to be “out of phase,” i.e., as O3 concentration increased, NOx concentration decreased and vice versa. Values of NOx from Green Knob, N. C. (mountain top) also tended to be higher at times when O3 values were lowest. The NO2 hourly average values in Piedmont, N. C, demonstrated a diurnal cycle reminiscent of diurnal urban changes. An early morning peak was followed by a minimum in mid-afternoon. Next, the values rose to a broad evening peak and then decreased slowly during the night. Reported urban concentrations are usually about ten times those found in Piedmont, N. C. 相似文献
340.
Jack M. Leavîtt Lawrence A. George Robert E. Clark 《Journal of the Air & Waste Management Association (1995)》2013,63(12):1133-1140
TVA is conducting a program of intermittent control of SO2 emissions at nine of its coal-fired power plants.The program is designed to limit SO2 emissions by reducing generation during adverse atmospheric conditions to avoid exceeding ambient SO2 standards. Each is identified as a Class I or Class II program—based primarily on its design and operational complexity. The four Class I programs (Paradise, Cumberland, Allen, Gallatin) operate 7 days/week from early morning through mid-afternoon. The five Class II programs (Kingston, Widows Creek, Colbert, Johnsonville, Shawnee) operate 24 hours/day and 7 days/week. Environmental data stations (EDS) are located at each plant site; the staff has the responsibility for the collection and validation of the onsite meteorological data, the SO2 mobile and fixed monitoring network data, the plant operational data, and the meteorological forecast data from the Meteorological Forecast Center in Muscle Shoals, AL. At the EDS, the data are entered into a computer operating model for scheduling plant generation reductions. 相似文献