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Mitigation Efforts (mitigation + effort)

Distribution by Scientific Domains
Life Sciences50%
Business, Economics, Finance and Accounting33%

Selected Abstracts

Strategic issues in global climate change policy,

AUSTRALIAN JOURNAL OF AGRICULTURAL & RESOURCE ECONOMICS, Issue 2 2010
Harry Clarke
An analysis of prospects for deriving self-enforcing, global, greenhouse gas emission mitigation agreements is provided. Policy spillovers and carbon leakages are accounted for. Situations where mitigation effort should be concentrated in particular countries and where efficient outcomes can be fostered by international trade in emissions permits are discussed. The use of auxiliary policies to transform intractable Prisoner's Dilemma incentive problems to more tractable problems, the role of policy commitments and the strategic implications of ,no regret' and ,adaptation' policies are analysed. Dynamic and repeated game formulations are outlined. [source]

Geomorphic changes in a complex gully system measured from sequential digital elevation models, and implications for management

EARTH SURFACE PROCESSES AND LANDFORMS, Issue 10 2003
Harley D. Betts
Abstract High-resolution digital elevation models (DEMs) were derived from sequential aerial photography of an active ,uvio-mass movement (gully) complex in New Zealand's North Island East Coast region, to measure geomorphic changes over approximately one year. The gully showed a complex behaviour, combining ,uvial and mass movement erosion, deposition, and reworking of materials stored in an active debris fan. During the measurement period 5200 ± 1700 m3 of material were eroded from the 8·7 ha gully complex and 670 ± 180 m3 from the 0·8 ha depositional fan, giving a total of 5870 ± 1710 m3 for the entire gully complex,fan system. The results provide a high-resolution description of gully behaviour over a short time period, and also demonstrate that mass movement (slumping and debris ,ows) accounted for almost 90 per cent (4660 ± 200 m3) of the sediment generated. This erosional response is described in terms of gully evolution by comparing the gully complex to other systems in the region in various stages of development. The effect of gully evolution on geomorphic coupling between the gully complex and channel system is described, and coupling is also shown to vary with the magnitude and frequency of rainfall events. From a land management perspective the success of strategies, such as tree planting, to mitigate against gully erosion depends on the stage of gully development , particularly on whether or not mass movement erosion has begun. In contrast to gully rehabilitation efforts elsewhere, basin-wide afforestation in the early stages of gully incision is favoured over riparian planting, given that mass movement assisted by excessive groundwater pressure is the main process leading to uncontrollable gully expansion. To protect land effectively against continuing gully erosion of headwater catchments and resulting downstream aggradation, it is necessary for land managers to understand the spatial and temporal variability of gully development fully so that mitigation efforts can be targeted appropriately. Copyright © 2003 John Wiley & Sons, Ltd. [source]

Compensating for wetland losses in the United States

IBIS, Issue 2004
Joy B. Zedler
Impacts of climate change on US wetlands will add to those of historical impacts due to other causes. In the US, wetland losses and degradation result from drainage for agriculture, filling for urbanization and road construction. States that rely heavily on agriculture (California, Iowa, Illinois, Missouri, Ohio, Indiana) have lost over 80% of their historical area of wetlands, and large cities, such as Los Angeles and New York City, have retained only tiny remnants of wetlands, all of which are highly disturbed. The cumulative effects of historical and future degradation will be difficult to abate. A recent review of mitigation efforts in the US shows a net loss of wetland area and function, even though ,no net loss' is the national policy and compensatory measures are mandatory. US policy does not include mitigation of losses due to climate change. Extrapolating from the regulatory experience, one can expect additional losses in wetland areas and in highly valued functions. Coastal wetlands will be hardest hit due to sea-level rise. As wetlands are increasingly inundated, both quantity and quality will decline. Recognition of historical, current and future losses of wetland invokes the precautionary principal: avoid all deliberate loss of coastal wetland area in order to reduce overall net loss. Failing that, our ability to restore and sustain wetlands must be improved substantially. [source]

Painful Steps of Progress from Crisis Planning to Contingency Planning: Changes for Disaster Preparedness in Turkey

JOURNAL OF CONTINGENCIES AND CRISIS MANAGEMENT, Issue 1 2002
Murat Balamir
Excessive losses in natural disasters in Turkey are, to a large extent, a consequence of omissions and deficiencies in the structuring of ,disasters' and ,development' laws, as well as negligent land-use practices and avoidance of control in building processes. Two extreme forms of legal and organizational structures in disasters policy could be formulated as the ,fatalist' and ,self-reliance, models. Their contrasts can be investigated in terms of (a) the use of information concerning natural phenomena in formal planning procedures; (b) pre- or post-disaster emphasis in preparations; (c) the political or technical basis of decisions; (d) the extraordinary or routine nature of responses; (e) the general or specialized nature of financial sources used; (f) and their compatibility with the order of priorities in risk management. An evaluation of the conventional policy in Turkey clarifies a position closer to the ,fatalist' model and indicates the lines of action for improvements. However, after the 1999 earthquakes, the conventional approach in disaster policy has been restructured. With the newly introduced ,Obligatory Building Insurance', ,Building Control', and ,Professional Proficiency' systems, greater emphasis is now given to mitigation efforts, and the introduction of contingency planning practices is more likely to happen. [source]

A conceptual framework for comparing species assemblages in native and exotic habitats

OIKOS, Issue 3 2005
Dov F. Sax
Exotic (nonnative) species are known to have a wide variety of impacts on native biota. One potential set of impacts that have been poorly studied are the effects of replacing native habitat-providing species with exotic ones, e.g. when native trees that compose a woodland are replaced by an exotic tree plantation. Here we develop a graphical model that can be used to explore how multiple taxonomic components (such as birds, mammals and plants) respond to such changes. We suggest that four categorical responses are possible, with respect to changes in species richness (or other quantitative measures) of taxonomic groups within species assemblages. First, that each taxonomic group compared between habitats will be relatively unchanged, e.g. have equivalent values of species richness. Second, that a decrease (for example in species richness) of one group will be compensated for by an increase (in species richness) of another group. Third, that one or more groups will decrease without any compensated increases in other groups. Fourth, that one or more groups will increase without any compensated decreases in other groups. We provide empirical support for 3 of these 4 responses, with respect to measures of species richness, with much evidence for equivalency between habitats. These types of comparisons should provide a valuable tool for evaluating 1) the efficacy of environmental mitigation efforts that artificially create or restore habitats and 2) the types of changes that have occurred over time or across space as native habitat-producing species are replaced by exotic ones. Finally, this conceptual framework should help to broaden the range of possible changes considered by ecologists who study the impacts of exotic species. [source]

Managing the matrix for large carnivores: a novel approach and perspective from cheetah (Acinonyx jubatus) habitat suitability modelling

ANIMAL CONSERVATION, Issue 1 2006
J. R. Muntifering
Abstract Effective management within the human-dominated matrix, outside of formally protected areas, is of paramount importance to wide-ranging carnviores. For instance, the largest extant population of cheetahs Acinonyx jubatus currently persists on privately owned Namibian ranchlands, and provides an excellent case study to examine and design matrix conservation approaches. Although human-caused mortality is likely the principal threat to this population, ancedotal evidence suggests that ,bush encroachment', the widespread conversion of mixed woodland and savannah habitats to dense, Acacia -dominated thickets, is another probable threat. A better understanding of cheetah habitat use, outside of protected areas, could be used to directly influence habitat management strategies and design local restoration and conflict mitigation efforts. To identify specific habitat characteristics associated with cheetah use, we used radio-telemetry locations to identify areas used intensively by cheetahs on commercial Namibian farms. We then compared the habitat characteristics of these ,high-use' areas with adjacent ,low-use' areas. A binary logistic regression model correctly categorized 92% of plot locations as high or low use, and suggested that cheetahs may be utilizing ,rewarding patches' with better sighting visibility and greater grass cover. We discuss the possible reasons for kudu Tragelaphus strepsiceros, Namibian cheetahs' preferred prey, exhibiting significantly lower abundance in high-use areas. Using habitat characteristics to identify areas intensively utilized by cheetahs has important implications for guiding future habitat restoration and developing effective predator conflict mitigation efforts. [source]