The volatile organic carbon (VOC) and odours emitted during the aerobic biological processing of municipal solid waste (MSW) was studied in a pilot-scale reactor. VOCs were detected by different techniques on solid waste samples and the outlet air stream, before and after a biofilter. Organic compounds (alpha-pinene, beta-myrcene, D-limonene) were also measured in condensate water and leachate from the process. Results showed uniformity in the composition of the air in the solid waste samples, air sampled during the process and condensed water, indicating a matrix-derived origin of these compounds. Leachates, however, contained substances with a quite different molecular structure from the compounds identified in the gaseous fraction. Most of the substances in the gaseous effluent had a hydrocarbon-like structure, mainly terpenoids. The odour produced and detected through olfactometry agreed with GC-MS analyses. This was true above all for terpenes. 相似文献
Weight-specific rates of individual production, total metabolic expenditure and assimilation, and net production efficiencies were estimated forCalanus pacificus Brodsky of selected body weights cultured at various phytoplankton concentrations and temperatures. The weight-specific rate of individual production increased hyperbolically with food concentration, and the maximum rate of individual production decreased logarithmically with a linear increase in body weight propotionally more at high than at low temperature. The weight-specific rate of total metabolic expenditure decreased logarithmically with increasing body weight and was unaffected by changes in food concentration. The effects of food concentration and temperature on the weight-specific rate of assimilation were similar to those on the rate of individual production, but the effect of body size differed considerably. The diversity in the temperature and body-size dependence of the maximum weight-specific rates of various physiological processes suggest (1) that, except for the metabolic rate, the allometric model (log-log relation) is inadequate for describing relationships between maximum rates of physiological processes and body size within species, and (2) that the common assumption that temperature affects the rates of various physiological processes in similar ways is not justified. Net production efficiency increased hyperbolically with food concentration, and the maximum production efficiency first increased slightly and then decreased gradually with increasing body weight. Small copepods attained higher efficiency at high temperature but larger ones did so at low temperature. The critical food concentrations for production efficiency and for the rate of individual production increased with increasing temperature and body size. Because of the effects of interactions among critical food concentration, temperature, and body size on the rates of growth and individual production and on net production efficiency, early development stages ofC. pacificus optimized growth and food conversion efficiency at high temperature, but late stages, particularly at low food concentrations, grew best and transformed food more efficiently at low temperature.Contribution No. 1130 From the Department of Oceanography, University of Washington, Seattle, Washington 98195, USA 相似文献
Emissions of volatile chemicals control the hydroxyl radical (OH), the atmosphere's main cleansing agent, and thus the production of secondary pollutants. Accounting for all of these chemicals can be difficult, especially in environments with mixed urban and forest emissions. The first direct measurements of the atmospheric OH reactivity, the inverse of the OH lifetime, were made as part of the Southern Oxidant Study (SOS) at Cornelia Fort Airpark in Nashville, TN in summer 1999. Measured OH reactivity was typically 11 s(-1). Measured OH reactivity was 1.4 times larger than OH reactivity calculated from the sum of the products of measured chemical concentrations and their OH reaction rate coefficients. This difference is statistically significant at the 1sigma uncertainty level of both the measurements and the calculations but not the 2sigma uncertainty level. Measured OH reactivity was 1.3 times larger than the OH reactivity from a model that uses measured ambient concentrations of volatile organic compounds (VOCs), NO, NO2, SO2, and CO. However, it was within approximately 10% of the OH reactivity from a model that includes hydrocarbon measurements made in a Nashville tunnel and scaled to the ambient CO at Cornelia Fort Airpark. These comparisons indicate that 30% of the OH reactivity in Nashville may come from short-lived highly reactive VOCs that are not usually measured in field intensive studies or by US EPA's Photochemical Assessment Monitoring Stations. 相似文献
Based on a theoretical revision of the social vulnerability concept, this article proposes a scheme of vulnerability indicators within the human environment focused on different aetiology risks. An adaptation of this generic scheme of vulnerability factors is set for the specific field of aquifer contamination risk, as well as a methodology for its analysis. Finally, model application examples are given for the Sierra de Líbar and Sierra de Mijas carbonate aquifers and the Vélez River detrital aquifer, all of which are located in the south of Spain. Obtained cartography results show a range of utilities for risk mitigation and permit appropriate spatial discrimination for its performance over different scales. The exposure and vulnerability of the groundwater contamination risk concept is evaluated in specific maps, taking into account the resident population as well as their assets. 相似文献
In this article, we show how a disease could bias stable isotope analyzes of trophic networks and propose a strategy in the
choice of tissues to be analyzed. In the past few years, a new pathology (brown muscle disease or BMD) affecting the posterior
adductor muscle of Ruditapes philippinarum has emerged in Arcachon Bay. BMD induces a necrosis of muscle tissues which become infused by conchiolin and hence calcified.
As muscle of mollusks are often used for trophic food webs studies through stable isotopic analyzes, this work investigated
the effect of BMD on carbon and nitrogen isotopic ratios of anterior and posterior adductor muscles of clams collected in
February and August 2007. Infected clams displayed a lower condition index and a posterior adductor muscle δ13C enrichment of 1.2‰ in February and 0.7‰ in August. δ15N of posterior muscles was however not affected by the disease. Anterior muscle of diseased clams remained healthy and displayed
the same isotopic signature as both posterior and anterior muscular tissues of healthy clam. Acidification significantly depleted
δ13C in posterior muscles of infected clams, suggesting calcification, contrary to anterior muscles of infected clam and to both
muscles of healthy clams, where no effect was observed. An X-ray diffractometry analysis confirmed the presence of CaCO3 (aragonite). Trophic food web studies relying on stable isotope ratios should utilize only healthy animals or anterior adductor
muscles when expertise in mollusk pathology is lacking. 相似文献
Food quality is a relevant characteristic to be transferred within eusocial insect colonies because its evaluation improves
the collective foraging efficiency. In honeybees, colony mates could directly acquire this resource characteristic during
trophallactic encounters with nectar foragers. In the present study, we focused on the gustatory responsiveness of bees that
have unloaded food from incoming foragers. The sugar sensitivity of receiver bees was assessed in the laboratory by using
the proboscis extension response paradigm. After unloading, hive bees were captured either from a colony that foraged freely
in the environmental surroundings or from a colony that foraged at an artificial feeder with a known sucrose solution. In
the first situation, the sugar sensitivity of the hive bees negatively correlated with the sugar concentration of the nectar
crops brought back by forager mates. Similarly, in the controlled situation, the highest sucrose concentration the receivers
accepted during trophallaxis corresponded to the highest thresholds to sucrose. The results indicate that first-order receivers
modify their sugar sensitivity according to the quality of the food previously transferred through trophallaxis by the incoming
foragers. In addition, trophallaxis is a mechanism capable of transferring gustatory information in honeybees. Its implications
at a social scale might involve changes in the social information as well as in nectar distribution within the colony. 相似文献
Remediation strategies using soil amendments should consider the time dependence of metal availability to identify amendments that can sustainably reduce available pollutant concentrations over time. Drying-wetting cycles were applied on amendments, soils and soil + amendment mixtures, to mimic ageing at field level and investigate its effect on extractable Cd, Cu, Ni, Pb and Zn concentrations from three contaminated soils. The amendments investigated were municipal waste organic compost and biochars. The amendments, soils and mixtures were characterised by their physicochemical properties at different ageing times. The amendments were also characterised in terms of sorption capacity for Cd and Cu. The sorption capacity and the physicochemical properties of the amendments remained constant over the period examined. When mixed with the soils, amendments, especially the compost, immediately reduced the extractable metals in the soils with low pH and acid neutralisation capacity, due to the increase in pH and buffering capacity of the mixtures. The amendments had a relatively minor impact on the metal availability concentrations for the soil with substantially high acid neutralisation capacity. The most important changes in extractable metal concentrations were observed at the beginning of the experiments, ageing having a minor effect on metal concentrations when compared with the initial effect of amendments.
We present a synoptic, participatory vulnerability assessment tool to help identify the likely impacts of climate change and human activity in coastal areas and begin discussions among stakeholders on the coping and adaptation measures necessary to minimize these impacts. Vulnerability assessment tools are most needed in the tropical Indo-Pacific, where burgeoning populations and inequitable economic growth place even greater burdens on natural resources and support ecosystems. The Integrated Coastal Sensitivity, Exposure, and Adaptive Capacity for Climate Change (I-C-SEA Change) tool is built around a series of scoring rubrics to guide non-specialists in assigning scores to the sensitivity and adaptive capacity components of vulnerability, particularly for coral reef, seagrass, and mangrove habitats, along with fisheries and coastal integrity. These scores are then weighed against threat or exposure to climate-related impacts such as marine flooding and erosion. The tool provides opportunities for learning by engaging more stakeholders in participatory planning and group decision-making. It also allows for information to be collated and processed during a “town-hall” meeting, facilitating further discussion, data validation, and even interactive scenario building.
Electronic supplementary material
The online version of this article (doi:10.1007/s13280-015-0652-x) contains supplementary material, which is available to authorized users. 相似文献