The Use of National Pollutant Inventory Data on Atmospheric Dispersion Modelling

Atmospheric dispersion modelling can be used to estimate the environmental impact of releases to air. The purpose of this paper is determine whether the National Pollutant Inventory (NPI), Australia's national database of pollutant releases, can be used for atmospheric dispersion modelling and, if so, the conditions that must be satisfied for it to be used effectively. The selection of emission estimation techniques (EETs) significantly affects the reliability of reported NPI emissions. The reliability of NPI data has improved as facilities gain a better understanding of the reporting process, as Industry Handbooks are reviewed and as facilities find beneficial uses for NPI data within their organisations. Although NPI data in isolation do not satisfy dispersion modelling requirements, it is likely that the necessary supporting information relating to variation in emissions and source characteristics will be obtained or calculated by industry as part of the NPI reporting process. Regulatory authorities may be able to obtain these data through other regulatory requirements. To lessen the burden on industry in collecting the necessary supporting information for regional dispersion modelling, environmental regulatory authorities could consider the coordinated collection, storage and updating of the necessary information. Dispersion modelling using NPI data may be associated with relatively large uncertainties. However, provided that the uncertainty in NPI emissions estimates is recognised and depending on the end use of the modelling, predictions based on these data could provide the basis for effective decision makin

Ground Truthing CALPUFF and AERMOD for Odor Dispersion from Swine Barns using Ambient Odor Assessment Techniques

A collaborative research effort by several institutions investigated the dispersion of odors from a swine production facility. Trained human receptors measured downwind odor concentrations from four tunnel-ventilated swine finishing barns near Story City, Iowa, during twenty measurement events conducted between June and November 2004. Odor concentrations were modeled for short time steps using CALPUFF and AERMOD atmospheric dispersion models to compare predicted and measured odor levels. Source emission measurements and extensive micrometeorological data were collected along with ambient odor measurements using the Nasal Ranger® device (St. Croix Sensory, St. Paul MN), Mask Scentometer, odor intensity ratings, and air sample analysis by dynamic triangular forced-choice olfactometry (DTFCO). AERMOD predictions fit the odor measurements slightly better than CALPUFF with predicted concentrations being about half those predicted by CALPUFF. The Mask Scentometer and Nasal Ranger® measurements related best to the dispersion model output, and scaling factors of 3.0 for CALPUFF and 2.4 for AERMOD suggested for the Nasal Ranger® and 0.5 for the Mask Scentometer (both models). Measurements obtained using the Nasal Ranger®, Mask Scentometer, and odor intensity ratings correlated well to each other, had the strongest linear relationships, and provided slopes (measured: modeled) closest to 1.0. Converting intensity ratings to a dilution to threshold concentration did not correlate and relate as well, and this method was deemed less desirable for ambient odor assessment. Collection of ambient air samples for analysis in a olfactometry laboratory displayed poor correlations with other methods and should not be used to assess ambient odors

Bending the curve of global freshwater biodiversity loss: an emergency recovery plan

Despite their limited spatial extent, freshwater ecosystems host remarkable biodiversity, including one-third of all vertebrate species. This biodiversity is declining dramatically: Globally, wetlands are vanishing three times faster than forests, and freshwater vertebrate populations have fallen more than twice as steeply as terrestrial or marine populations. Threats to freshwater biodiversity are well documented but coordinated action to reverse the decline is lacking. We present an Emergency Recovery Plan to bend the curve of freshwater biodiversity loss. Priority actions include accelerating implementation of environmental flows; improving water quality; protecting and restoring critical habitats; managing the exploitation of freshwater ecosystem resources, especially species and riverine aggregates; preventing and controlling nonnative species invasions; and safeguarding and restoring river connectivity. We recommend adjustments to targets and indicators for the Convention on Biological Diversity and the Sustainable Development Goals and roles for national and international state and nonstate actors

論説

“Ca. Homeothermaceae” population genome properties. (DOCX 19 kb

Assumption without representation: the unacknowledged abstraction from communities and social goods

We have not clearly acknowledged the abstraction from unpriceable “social goods” (derived from communities) which, different from private and public goods, simply disappear if it is attempted to market them. Separability from markets and economics has not been argued, much less established. Acknowledging communities would reinforce rather than undermine them, and thus facilitate the production of social goods. But it would also help economics by facilitating our understanding of – and response to – financial crises as well as environmental destruction and many social problems, and by reducing the alienation from economics often felt by students and the public