Now showing 1 - 4 of 4
  • Publication
    Stage 2: Grazing / Landuse in the Macquarie Marshes and Gwydir Wetlands: Final Report to the New South Wales Department of Environment and Climate Change
    (University of New England, 2008) ;
    Berney, Peter
    ;
    ; ;
    NSW Department of Planning and Environment, NSW Wetland Recovery Program (WRP)
    The Gwydir Wetlands and Macquarie Marshes are both examples of variable and dynamic floodplain wetland ecosystems. Both systems have experienced a major alteration to their hydrology as a result of river regulation, and the two regions have a long history of floodplain grazing. As efforts are made to address the hydrological issues in these wetlands, there is also a need to better understand how other disturbances such as grazing may be impacting on the ecological functioning of these ecosystems. This study investigated five areas of wetland condition, namely vegetation composition, soil seed bank, soil chemistry, water quality and aquatic invertebrates, to determine the nature and the magnitude of any impacts that grazing by domestic stock may be having on these two wetland ecosystems.
  • Publication
    Disturbance governs dominance of an invasive forb in a temporary wetland
    Dominance of invasive species is often assumed to be due to a superior ability to acquire resources. However, dominance in plant communities can arise through multiple interacting mechanisms, including disturbance. Inter-specific competition can be strongly affected by abiotic conditions, which can determine the outcome of competitive interactions. We evaluated competition and disturbance as mechanisms governing dominance of 'Phyla canescens' (hereafter lippia), an invasive perennial forb from South America, in 'Paspalum distichum' (perennial grass, hereafter water couch) meadows in floodplain wetlands of eastern Australia. Water couch meadows (in the study area) are listed under the Ramsar Convention due to their significance as habitat for migratory waterbirds. In the field, we monitored patterns of vegetation boundaries between the two species in response to flooding. Under controlled glasshouse conditions, we explored competitive interactions between the native water couch and lippia subject to different soil moisture/inundation regimes. We did this using a pairwise factorial glasshouse experiment that manipulated neighbor density (9 treatments) and soil moisture/inundation (4 treatments). In the field trial, inundation increased the cover of water couch. Under more controlled conditions, the invader had a competitive effect on the native species only under dry soil conditions, and was strongly inhibited by inundation. This suggests that dry conditions favor the growth of the invader and wetter (more historical) conditions favor the native grass. In this system, invader dominance is governed by altered disturbance regimes which give the invader a competitive advantage over the native species.
  • Publication
    Stage 2: Grazing/Landuse in the Macquarie Marshes and Gwydir Wetlands: Final Report to the New South Wales Department of Environment and Climate Change
    (University of New England, 2008) ;
    Berney, Peter
    ;
    ; ;
    NSW Department of Planning and Environment, NSW Wetland Recovery Program (WRP)
    The Gwydir Wetlands and Macquarie Marshes are both examples of variable and dynamic floodplain wetland ecosystems. Both systems have experienced a major alteration to their hydrology as a result of river regulation, and the two regions have a long history of floodplain grazing. As efforts are made to address the hydrological issues in these wetlands, there is also a need to better understand how other disturbances such as grazing may be impacting on the ecological functioning of these ecosystems. This study investigated five areas of wetland condition, namely vegetation composition, soil seed bank, soil chemistry, water quality and aquatic invertebrates, to determine the nature and the magnitude of any impacts that grazing by domestic stock may be having on these two wetland ecosystems.
  • Publication
    Drivers of change in the Social-Ecological Systems of the Gwydir Wetlands and Macquarie Marshes in northern New South Wales, Australia
    (CSIRO Publishing, 2011) ; ;
    MacDonald, Matthew J
    ;
    Berney, Peter
    The Murray-Darling Basin is a Social-Ecological System (SES) of major importance to Australia and includes extensive wetland areas in the north-western parts of New South Wales. The Gwydir Wetlands and the Macquarie Marshes are the particular focus of this paper. These two wetland SES have undergone five successive adaptive cycles (phases) since they were first visited by Europeans in the early 19th century and the ecological, economic and social drivers initiating each transformation to a new cycle are described and analysed. The arrival of the European settlers with their domestic livestock rapidly displaced the Indigenous SES and the wetlands were extensively grazed; during wet periods the livestock were moved out of the wetlands and moved back in as the water receded. More recent land-use changes resulted from the building of major dams to enable storage of water for use in irrigated agriculture. A consequence of dam construction and water use has been a reduction in the frequency and extent of flooding, which has allowed many parts of the wetlands to be continually grazed. Furthermore, as machinery capable of cultivating the very heavy textured soils became available, dryland cropping became a major enterprise in areas of the floodplain where the likelihood of flooding was reduced. With the reduction in flooding, these wetland sites have been seriously degraded. The final phase has seen the invasion by an exotic weed, lippia ['Phyla canescens' (Kunth) Greene], which is a perennial that grows mat-like between other species of plants and spreads to produce a virtually mono-specific stand. The domestic livestock carrying capacity of the land becomes more or less zero and the conservation value of the wetlands is also dramatically decreased. Therefore, we suggest that lippia should be classed as an ecosystem engineer that has caused the latest transformation of these wetland SES and suggest research directions to investigate how they can be managed to revert to a state in which lippia is no longer dominant.