Regional Assessment of Soil Change in the Southwest Pacific

The Southwest Pacific region includes the 22 island nations of the Pacific1, New Zealand and Australia (Figure 15.1). The landscapes of the region are very diverse ranging from a large continental land mass through to tens of thousands of small islands across the enormous expanse of the southwest Pacific Ocean. There are extensive ancient flat lands through to some of the youngest and most tectonically active landscapes on the planet. Temperature and rainfall ranges are large because of the breadth of latitudes and elevations. As a consequence, the soils of the region are also diverse. The strongly weathered soils in humid tropical areas and the vast expanses of old soils across the Australian continent are particularly susceptible to disturbance and this is where some of the more intractable problems of soil management occur today

The most influential books in Australian sociology (MIBAS), 1963-2003

To mark the 40th anniversary of the Australian Sociological Association (TASA), a survey on the Most Influential Books in Australian Sociology (MIBAS) was conducted. In this article we discuss the MIBAS process, its findings, and provide some reflections on the top 10 most influential books. We also situate the MIBAS survey among other attempts to compile lists of the most influential books in the discipline of sociology, and discuss the benefits and limits of such endeavours. We argue that the MIBAS exercise was useful not only as a commemorative device, but as an opportunity to reflect on the breadth and influence of Australian sociological scholarship

Avaliação do transporte de atrazina em solos sob diferentes condições de manejo agrícola Evaluation of atrazine transport in soils under different agricultural managements

A pouca informação sobre o movimento de pesticidas em solos brasileiros com manejo de plantio direto torna o conhecimento desse assunto de grande relevância na avaliação de risco de contaminação do solo e de lençóis de água. Os experimentos simularam chuvas intensas com fluxo contínuo por meio de uma nova técnica para a determinação simultânea das propriedades de advecção, difusão e sorção, representando o transporte de contaminantes ao longo do perfil de solo estudado. Os resultados mostraram que as propriedades físico-químicas não se correlacionam com a permeabilidade do solo e a lixiviação da atrazina. A condutividade 10 vezes maior no plantio direto (PD) e sistema natural (SN) do que no sistema convencional (SC) e solo subsuperficial (SUB) sugere que o processo de advecção ocorre predominantemente através dos macroporos por fluxo preferencial, que são destruídos na aração do SC. Dessa forma, a condição de fluxo contínuo, representando fortes chuvas, faz com que a lixiviação em PD seja maior que em SC, contrariando dados da literatura em experimentos de campo com chuvas intermitentes, os quais mostraram menor lixiviação em PD comparado ao SC. Os riscos de contaminação dos lençóis de água não são determinados apenas pelo manejo do solo, mas também pelas condições pluviométricas intensas nos trópicos, com perspectivas de ainda serem maiores nos cenários de mudanças climáticas.<br>The scarcity of information on pesticide transport in tropical soils under no-tillage is disproportional to the relevance of knowledge in the evaluation of the risk of soil and ground water contamination. The experiments simulated strong rains with continuous water flow using a new method for simultaneous advection, diffusion and sorption measurement, representing pesticide transport along the different studied soil layers. Results showed no correlation between soil permeability and atrazine leaching. The ten times higher permeability in no-tillage (NT) and natural soils (SN) than in the conventional system (CS) and subsurface soil (SUB) indicated that advection occurs predominantly by preferential flow through macropores that are destroyed by tilling in the conventional system. The leaching under continuous flow representing strong rains was higher under NT than in the CS, opposite to reports in literature of field experiments with intermittent rain, stating lower leaching under NT than CS. The contamination risk of ground water is therefore not only determined by the management system but also by the intensive pluviometric conditions in the tropics, tending to increase in the scenario of climate changes