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Using biofilm assemblages to develop a monitoring framework for regulated coastal rivers in south-eastern Australia

2010, Mascarenhas, Emilie, Ryder, Darren, Boulton, Andrew, Downes, Barbara

Increasing human demand on the world's water resources has led to the construction of dams and diversions that cause major alterations to natural flow regimes and threaten riverine ecosystems globally. Consequently, water resource management now recognises the need to establish the extent to which flow regimes can be altered while maintaining the integrity of the ecosystem. However, the ecological consequences of changing the physical regime are often difficult to predict and, therefore, a well-designed monitoring program, capable of detecting directional change in aquatic biota is critical for assessing human impacts and evaluating the effectiveness of restoration activities. Altered hydrology can affect biofilm assemblages by influencing two counteracting flow-related processes - mass-transfer leading to biomass accrual and shear stress leading to biomass loss. This study uses biofilm assemblages to investigate the biological condition of the regulated Nymboida River, south-eastern Australia, under current flow management practices and to design a monitoring program capable of detecting a change in this condition as flow management practices are altered in the future. The outcome of this study is a scientifically defensible monitoring program that provides meaningful outcomes in both an ecological and managerial context.

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Biofilm and flow regimes: developing a biological monitoring program for the Nymboida River, northern NSW

2007, Warner, Emilie, Ryder, Darren, Boulton, Andrew, Downes, Barbara

A well-designed monitoring program is critical for determining the extent of human impacts and the effectiveness of restoration activities in aquatic ecosystems. This project considers the Nymboida River, northern NSW, as a case study for developing a biological monitoring program. Water extraction from the Nymboida weir pool alters the flow regime to downstream habitats. Algal biofilms, which respond to local hydraulic conditions, are used in this project as biological indicators of response to the altered flow regime downstream of the weir. Longitudinal change on the Nymboida (the difference in biofilm assemblage attributes between upstream and downstream of the weir) was compared with longitudinal change on 'reference' rivers (rivers that do not have a weir and represent the desired condition for the Nymboida given current water and land-use constraints). This design allows us to determine if longitudinal change in biofilm on the Nymboida is greater than what we would generally find on equivalent rivers without a weir. The high variability in biofilm attributes (algal composition, biofilm mass, organic matter content and chlorophyll a at monitoring sites is assessed up-front in the design of the monitoring program so that optimum levels of sample replication can be determined. This will ensure that resources can be allocated efficiently while still providing enough information for managers to make informed decisions.