Preliminary development of a sewerage infrastructure buffer assessment tool for engineering risk and strategic land use planning

Urban expansion continues to encroach on once isolated sewerage infrastructure. In this context,legislation and guidelines provide limited direction to the amenity allocation of appropriate buffer distances for land use planners and infrastructure providers. Topography, wind speed and direction,temperature, humidity, existing land uses and vegetation profiles are some of the factors that require investigation in analytically determining a basis for buffer separations. This paper discusses the compilation and analysis of six years of Logan sewerage odour complaint data. Graphically,relationships between the complaints, topographical features and meteorological data are presented. Application of a buffer sizing process could assist planners and infrastructure designers alike, whilst automatically providing extra green spaces. Establishing a justifiable criterion for buffer zone allocations can only assist in promoting manageable growth for healthier and more sustainable communities

A review of chemical control options for invasive social insects in island ecosystems

Social insects present unique challenges to chemically based management strategies, especially because fast-acting compounds commonly applied for many pest insects may not be the most effective for colony elimination. The reproductive caste of a colony is the most protected from direct damage by insecticides, and compounds that cause rapid mortality among foragers frequently do not impact the reproductive members or even markedly reduce overall colony size. With recent bans on persistent insecticides that previously have been used to control social insects, especially termites, new compounds must be used. Island and coastal ecosystems are particularly sensitive to the effects of widespread pesticide use and concerns about unintentional water pollution and runoff are common, and international attention is being paid to developing sustainable pesticide options for agricultural and urban pest insects in particularly sensitive environments. Given the precarious status of many native insects and arthropods care must be taken to minimize exposure to potentially harmful insecticides and the non-target impacts of these chemicals. However, recent developments in the synthesis and discovery of highly selective insecticides with low mammalian and non-target toxicity provide viable alternatives to the broad-spectrum persistent organochlorine insecticides that have been largely deregistered. Novel technologies, particularly synthetic analogues of biologically active compounds, yield new chemical control options and management strategies for island and other sensitive ecosystems; case studies from Australia, the Galapagos Islands and New Zealand highlight current challenges and successes