Sustainable Grazing in the Channel Country Floodplains. A technical report on findings between June 1999 and August 2002

The project "Sustainable Grazing in the Channel Country Floodplains" was initiated by the cattle industry to document the current knowledge of the Channel Country, to address gaps in existing research and to ensure the use of sustainable grazing practices within the floodplains. The Natural Heritage Trust, Meat and Livestock Australia, cattle producers and state agencies provided funding between 1998 and 2002. Current knowledge was documented through 39 members of the grazing community contributing a total of 641 years combined experience of natural resource management. Seventeen on-going soil and pasture monitoring sites provided detailed soil moisture and nutrient levels as well as pasture yield and nutrient levels. This information has led to the development of prototype tools to enhance natural resource management decisions. The publications resulting from this work have allowed land managers new to the Channel Country to quickly understand the accepted industry management practices. The knowledge documented within the project is also of interest to the broader community who have a desire to better understand Lake Eyre and its major river systems, and who wish to ensure the sustainable management of the unique natural resources within the Channel Country

A quantitative state and transition model for the Mitchell grasslands of Central Western Queensland

Concerns of reduced productivity and land degradation in the Mitchell grasslands of central western Queensland were addressed through a range monitoring program to interpret condition and trend. Botanical and edaphic parameters were recorded along piosphere and grazing gradients, and across fenceline impact areas, to maximise changes resulting from grazing. The Degradation Gradient Method was used in conjunction with State and Transition Models to develop models of rangeland dynamics and condition. States were found to be ordered along a degradation gradient, indicator species developed according to rainfall trends and transitions determined from field data and available literature. Astrebla spp. abundance declined with declining range condition and increasing grazing pressure, while annual grasses and forbs increased in dominance under poor range condition. Soil erosion increased and litter decreased with decreasing range condition. An approach to quantitatively define states within a variable rainfall environment based upon a time-series ordination analysis is described. The derived model could provide the interpretive framework necessary to integrate on-ground monitoring, remote sensing and geographic information systems to trace states and transitions at the paddock scale. However, further work is needed to determine the full catalogue of states and transitions and to refine the model for application at the paddock scale

Response and Recovery of the Comanche Carbonate Platform Surrounding Multiple Cretaceous Oceanic Anoxic Events, Northern Gulf of Mexico

The ubiquity of carbonate platforms throughout the Cretaceous Period is recognized as a product of high eustatic sea-level and a distinct climatic optimum induced by rapid sea-floor spreading and elevated levels of atmospheric carbon-dioxide. Notably, a series of global oceanic anoxic events (OAEs) punctuate this time-interval and mark periods of significantly reduced free oxygen in the world's oceans. The best records of these events are often from one-dimensional shelf or basin sections where only abrupt shifts between oxygenated carbonates and anoxic shales are recorded. The Comanche Platform of central Texas provides a unique opportunity to study these events within a well-constrained stratigraphic framework in which their up-dip and down-dip sedimentologic effects can be observed and the recovery of the platform to equilibrium states can be timed and understood. Stable isotope data from whole cores in middle Hauterivian through lower Campanian mixed carbonate-siliciclastic strata are used to construct a 52-myr carbon isotope reference profile for the northern Gulf of Mexico. Correlation of this composite curve to numerous global reference profiles permits identification of several anoxic events and allows their impact on platform architecture and fades distribution to be documented. Oceanic anoxic events la, 1b, 1d, and 2 occurred immediately before, after, or during shale deposition in the Pine Island Member, Bexar Member, Del Rio Formation, and Eagle Ford Group, respectively. Oceanic anoxic event 3 corresponds to deposition of the Austin Chalk Group. Platform drowning on three occasions more closely coincided with globally recognized anoxic sub-events such as the Fallot, Albian-Cenomanian, and Mid-Cenomanian events. This illustrates that the specific anoxic event most affecting a given carbonate platform varied globally as a function of regional oceanographic circumstances. Using chemo- and sequence-stratigraphic observations, a four-stage model is proposed to describe the changing fades patterns, fauna, sedimentation accumulation rates, platform architectures, and relative sea-level trends of transgressive-regressive composite sequences that developed in response to global carbon-cycle perturbations. The four phases of platform evolution include the equilibrium, crisis, anoxic, and recovery stages. The equilibrium stage is characterized by progradational shelf geometries and coralrudist phototrophic faunal assemblages. Similar phototrophic fauna typify the crisis stage; however, incipient biocalcification crises of this phase led to retrogradational shelf morphologies, transgressive facies patterns, and increased clay mineral proportions. Anoxic stages of the Comanche Platform were coincident with back-ground deposition of organic-rich shale on drowned shelves and heterotrophic fauna dominated by oysters or coccolithophorids. Eustatic peaks of this stage were of moderate amplitude (similar to 30 m), yet relative sea-level rises were greatly enhanced by reduced sedimentation rates. In the recovery stage, heterotrophic carbonate factories re-established at the shoreline as progradational ramp systems and sediment accumulation rates slowly increased as dysoxia diminished. Full recovery to equilibrium conditions may or may not have followed. Geochemical and stratigraphic trends present in the four stages are consistent with increased volcanism along mid-ocean ridges and in large-igneous provinces as primary drivers of Cretaceous OAEs and the resulting transgressive-regressive composite sequences. (C) 2014 Elsevier Ltd. All rights reserved.BHP-BillitonReservoir Characterization Research Laboratory, the Bureau of Economic GeologyJackson School of Geosciences at the University of Texas at AustinBureau of Economic Geolog

Identifying state and transition models in the mitchell grasslands

The Mitchell grasslands are the most extensive and productive native pastures of semi -arid western Queensland. The grasslands are dominated by the long -lived perennial Astrebla spp. (Mitchell grasses). Rainfall is highly variable, leading to fluctuations in both pasture yield and composition, particularly of annual and ephemeral species growing between these perennial tussocks (Orr and Holmes 1984). These fluctuations create problems when attempting to assess rangeland condition and trend which is often based upon single, or short term, data. Furthermore, Everist and Webb (1975) concluded "the extrapolation from observations made at any one time can be misleading and inaccurate". This paper summarises an approach by which State and Transition theory (Westoby et al. 1989) and the Degradation Gradient Method (Bosch and Kellner 1991) were used to develop models of vegetation change which were able to account for this inherent variability

The detection of tethered and rising bubbles using multiple acoustic techniques

There exists a range of acoustic techniques for characterizing bubble populations within liquids. Each technique has limitations, and complete characterization of a population requires the sequential or simultaneous use of several, so that the limitations of each find compensation in the others. Here, nine techniques are deployed using one experimental rig, and compared to determine how accurately and rapidly they can characterize given bubble populations. These are, specifically (i) two stationary bubbles attached to a wire; and (ii) injected, rising bubble

The use of a combination frequency technique to measure the surf zone bubble population

There are great benefits to sizing bubbles using a two frequency technique, which examines the appearance of sum-and-difference signals generated by the interaction between a resonant bubble pulsation and a much higher frequency imaging beam. This paper presents the results from using the technique to size bubbles in the ocean surf zone, and details the pulsation model used to calibrate the returned data such that the height of the bubble scattered signal can be related to the number of resonant bubbles of that size. It also shows how ambiguities and inaccuracies (brought on through turbulence and the substantial off-resonance nature of the signal) which affected earlier oceanic tests using the same method can be identified in the returned signal or removed from the estimate during the data processin

Central West Mitchell Grasslands livestock production systems. Preparing for, responding to, and recovering from drought

Helping grazing businesses become more profitable and drought resilient is the aim of a Queensland Department of Agriculture and Fisheries project funded by the Queensland Government’s Drought and Climate Adaptation Program. Economic analyses are being conducted for a number of regions across Queensland. A range of management strategies and technologies aimed at making grazing businesses more profitable and drought resilient are being assessed. In addition, the project is examining options in the drought response and recovery phases. For Central West Mitchell Grassland region, an integrated pasture and beef herd modelling approach was developed to allow the impact of climate variability on a range of grazing management scenarios to be modelled. Tactical strategies that may be applied in response to drought were also assessed in this report