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31.
Occurrence of perfluorinated organic acids in the North and Baltic Seas. Part 2: distribution in sediments 总被引:1,自引:0,他引:1
Theobald N Caliebe C Gerwinski W Hühnerfuss H Lepom P 《Environmental science and pollution research international》2012,19(2):313-324
Purpose
The distribution of polar perfluorinated compounds (PFCs) in sea water of the North and Baltic Seas has been described in part 1 of this study. In part 2, their occurrence in sediments is described in order to further investigate their distribution routes and possible sinks. 相似文献32.
33.
Nemitz E. Flynn M. Williams P. I. Milford C. Theobald M. R. Blatter A. Gallagher M. W. Sutton M. A. 《Water, Air, & Soil Pollution: Focus》2001,1(5-6):189-202
A continuous relaxed eddy accumulation system ispresented for the automated measurement of surface/atmosphere exchange fluxes of atmospheric ammonia (NH3) at a single height. The new system features sampling by parallel plate denuder inlets, online chemical analysis using the conductivity cell of a commercially available NH3 analyzer and online flux calculation. The effective detection limit of the system for air concentrations is 0.2 g m-3 and it is estimated to resolve fluxes > ± 20 ng m-2 s-1, depending on the NH3 concentration and turbulence. The performance of the system was tested in two measurement campaigns above agricultural grassland, in which it was compared with a 3-point continuous gradient system. During the first campaign, after urea application of 47 kg N ha-1 in autumn, the REA system derived fluxes which were on average twice as large as the gradient fluxes, while concentrations agreed closely (on average within 4%). Possible reasons include differences in the footprint and an over-correction of the gradient flux in stable conditions. Due to wet and cold conditions, only 0.3% of the fertilizer N was volatilized as NH3 during the first week. Results from the deployment of an improved system are presented for a summer day, 6 days after fertilization with calcium ammonium nitrate. The agreement of both concentrations (on average within 13%) and fluxes (26%) was very encouraging and similar to the agreement found between two state-of-the-art gradient systems with online analysis. 相似文献
34.
Werner Theobald 《Environmental Sciences Europe》2004,16(4):219-222
This paper discusses the discrepancy of attitude and behaviour in an environmental protection from the point of view of philosophy. Coming from the classical thesis of moral philosophy, that someone who infringes the ‘good’ has no secure knowledge, it examines how ethical arguments can contribute to get such a knowledge. The result of this study is that the logical power of persuasion alone is not able to acquire such a knowledge; and in order to obtain practical efficiency, ethical arguments should converse to emotional stratifications of personality. Based on the examination of positive feelings for nature, the paper discusses how this can happen. 相似文献
35.
This paper focuses on the issues arising from Local Agenda 21 where the role of local authorities is seen as vital in promoting and achieving sustainable development. The implications of the current forms of public sector restructuring for local authorities, and in particular the consequences of the requirement to contract out the delivery and management of traditional environmental services such as grounds maintenance are considered. The paper concludes that the ongoing processes of local government restructuring, together with the removal of many functions from local democratic control, are reducing the capacity of local communities to respond positively to the demands of Local Agenda 21. 相似文献
36.
Spatial statistical models that use flow and stream distance 总被引:6,自引:1,他引:6
Jay M. Ver Hoef Erin Peterson David Theobald 《Environmental and Ecological Statistics》2006,13(4):449-464
We develop spatial statistical models for stream networks that can estimate relationships between a response variable and
other covariates, make predictions at unsampled locations, and predict an average or total for a stream or a stream segment.
There have been very few attempts to develop valid spatial covariance models that incorporate flow, stream distance, or both.
The application of typical spatial autocovariance functions based on Euclidean distance, such as the spherical covariance
model, are not valid when using stream distance. In this paper we develop a large class of valid models that incorporate flow
and stream distance by using spatial moving averages. These methods integrate a moving average function, or kernel, against
a white noise process. By running the moving average function upstream from a location, we develop models that use flow, and
by construction they are valid models based on stream distance. We show that with proper weighting, many of the usual spatial
models based on Euclidean distance have a counterpart for stream networks. Using sulfate concentrations from an example data
set, the Maryland Biological Stream Survey (MBSS), we show that models using flow may be more appropriate than models that
only use stream distance. For the MBSS data set, we use restricted maximum likelihood to fit a valid covariance matrix that
uses flow and stream distance, and then we use this covariance matrix to estimate fixed effects and make kriging and block
kriging predictions.
Received: July 2005 / Revised: March 2006 相似文献
37.
U. Dragosits M.R. Theobald C.J. Place H.M. ApSimon M.A. Sutton 《Environmental Science & Policy》2006,9(7-8):626-638
Ammonia (NH3) is emitted mainly from agricultural practices, with NH3 concentrations decreasing rapidly away from sources. As a consequence there is a high spatial variability in nitrogen deposition and its consequent ecological effects in agricultural landscapes that is in addition to differences in sensitivity between habitat types. This variability points to the potential to include spatial planning measures as part of strategies to protect sensitive vegetation from ammonia deposition.National abatement policies typically include uniform recommendations for technical abatement measures, such as ploughing in manures after land spreading. In this study, the complementary potential of spatial planning to reduce effects on target locations is analysed through model scenarios for an example landscape in central England. Scenarios included defining buffer zones of low-emission agriculture and establishing tree belts surrounding either emission sources or priority areas for the protection of semi-natural habitats.The analysis showed that tree belts can reduce deposition to sensitive areas, with trees surrounding the sensitive habitats being more effective than trees around the sources. Low emission buffer zones around sink areas also result in useful reductions in N deposition. Smaller nature reserve sites benefit to a greater degree from such spatial planning measures, as large reserves can provide their own buffer zone to some degree. Similarly, relocating point sources or using planning policies to ensure the location of large NH3 point sources are at least 2–3 km from the sensitive habitats results in substantial reductions in N deposition. 相似文献
38.
Patterns of Spatial Autocorrelation in Stream Water Chemistry 总被引:2,自引:0,他引:2
Peterson EE Merton AA Theobald DM Urquhart NS 《Environmental monitoring and assessment》2006,121(1-3):569-594
Geostatistical models are typically based on symmetric straight-line distance, which fails to represent the spatial configuration, connectivity, directionality, and relative position of sites in a stream network. Freshwater ecologists have explored spatial patterns in stream networks using hydrologic distance measures and new geostatistical methodologies have recently been developed that enable directional hydrologic distance measures to be considered. The purpose of this study was to quantify patterns of spatial correlation in stream water chemistry using three distance measures: straight-line distance, symmetric hydrologic distance, and weighted asymmetric hydrologic distance. We used a dataset collected in Maryland, USA to develop both general linear models and geostatistical models (based on the three distance measures) for acid neutralizing capacity, conductivity, pH, nitrate, sulfate, temperature, dissolved oxygen, and dissolved organic carbon. The spatial AICC methodology allowed us to fit the autocorrelation and covariate parameters simultaneously and to select the model with the most support in the data. We used the universal kriging algorithm to generate geostatistical model predictions. We found that spatial correlation exists in stream chemistry data at a relatively coarse scale and that geostatistical models consistently improved the accuracy of model predictions. More than one distance measure performed well for most chemical response variables, but straight-line distance appears to be the most suitable distance measure for regional geostatistical modeling. It may be necessary to develop new survey designs that more fully capture spatial correlation at a variety of scales to improve the use of weighted asymmetric hydrologic distance measures in regional geostatistical models. 相似文献
39.
Jessica A. Salo David M. Theobald Thomas C. Brown 《Journal of the American Water Resources Association》2016,52(3):632-647
Riparian zones in semi‐arid, mountainous regions provide a disproportionate amount of the available wildlife habitat and ecosystem services. Despite their importance, there is little guidance on the best way to map riparian zones for broad spatial extents (e.g., large watersheds) when detailed maps from field data or high‐resolution imagery and terrain data are not available. Using well‐established accuracy metrics (e.g., kappa, precision, computational complexity), we evaluated eight methods commonly used to map riparian zones. Focusing on a semi‐arid, mountainous watershed, we found that the most accurate and robust method for mapping riparian zones combines data on upstream drainage area and valley topography. That method performed best regardless of stream order, and was most effective when implemented with fine resolution topographic and stream line data. Other commonly used methods to model riparian zones, such as those based on fixed‐width buffers, yielded inaccurate results. We recommend that until very‐high resolution (<1 m) elevation data are available at broad extents, models of riparian zones for semi‐arid mountainous regions should incorporate drainage area, valley topography, and quantify uncertainty. 相似文献
40.
Biogeochemical indicators of elevated nitrogen deposition in semiarid Mediterranean ecosystems 总被引:1,自引:0,他引:1
Raúl Ochoa-Hueso María Arróniz-Crespo Matthew A. Bowker Fernando T. Maestre M. Esther Pérez-Corona Mark R. Theobald Marta G. Vivanco Esteban Manrique 《Environmental monitoring and assessment》2014,186(9):5831-5842
Nitrogen (N) deposition has doubled the natural N inputs received by ecosystems through biological N fixation and is currently a global problem that is affecting the Mediterranean regions. We evaluated the existing relationships between increased atmospheric N deposition and biogeochemical indicators related to soil chemical factors and cryptogam species across semiarid central, southern, and eastern Spain. The cryptogam species studied were the biocrust-forming species Pleurochaete squarrosa (moss) and Cladonia foliacea (lichen). Sampling sites were chosen in Quercus coccifera (kermes oak) shrublands and Pinus halepensis (Aleppo pine) forests to cover a range of inorganic N deposition representative of the levels found in the Iberian Peninsula (between 4.4 and 8.1 kg N ha?1 year?1). We extended the ambient N deposition gradient by including experimental plots to which N had been added for 3 years at rates of 10, 20, and 50 kg N ha?1 year?1. Overall, N deposition (extant plus simulated) increased soil inorganic N availability and caused soil acidification. Nitrogen deposition increased phosphomonoesterase (PME) enzyme activity and PME/nitrate reductase (NR) ratio in both species, whereas the NR activity was reduced only in the moss. Responses of PME and NR activities were attributed to an induced N to phosphorus imbalance and to N saturation, respectively. When only considering the ambient N deposition, soil organic C and N contents were positively related to N deposition, a response driven by pine forests. The PME/NR ratios of the moss were better predictors of N deposition rates than PME or NR activities alone in shrublands, whereas no correlation between N deposition and the lichen physiology was observed. We conclude that integrative physiological measurements, such as PME/NR ratios, measured on sensitive species such as P. squarrosa, can provide useful data for national-scale biomonitoring programs, whereas soil acidification and soil C and N storage could be useful as additional corroborating ecosystem indicators of chronic N pollution. 相似文献