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Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
Intensity of Land Use in the Catchment Influences Ecosystem Functioning Along a Freshwater-Marine Continuum
Ecosystems, Volume 15, No. 4, Year 2012
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Description
Intensification of catchment land use often adversely affects ecosystem health in rivers and estuaries via changes to physicochemistry and ecosystem functioning, but whether such land-use effects differ along a freshwater-marine continuum has not been studied. We investigated relationships between intensity of land use and two measures of ecosystem function in freshwater, estuarine and near-marine habitats. Standardized bioassays to determine cellulose breakdown (cotton and canvas strips) and algal accrual rates (ceramic tiles) were deployed in 10 river-to-marine continua whose catchment areas ranged from 2. 6 to 99. 6% developed. Using general linear models and an information-theoretic approach to select the best predictive models for our response variables, we found that higher dissolved phosphorus concentrations, linked with highly developed catchments, were associated with greater rates of cellulose decomposition (both tensile strength loss and mass loss). Furthermore, after controlling for the contribution of phosphorus or salinity, decomposition rates in freshwater and near-marine habitats generally responded curvilinearly to catchment development, indicating the involvement of additional unmeasured, land-use-related physicochemical or biological variables. The strength and shape of relationships between percentage developed land area and algal biomass accrual rates also contrasted among freshwater (strongest, curvilinear), mid-estuary (intermediate, positive), and near-marine sites (weakest, no obvious shape). Because land-use intensity can influence ecosystem functioning along the entire continuum from streams and rivers to estuaries and coasts, resource managers should adopt an integrated approach to decisions affecting catchment land use. © 2012 Springer Science+Business Media, LLC.
Authors & Co-Authors
Bierschenk, Antje M.
New Zealand, Dunedin
University of Otago
Savage, Candida
New Zealand, Dunedin
University of Otago
Townsend, Colin R.
New Zealand, Dunedin
University of Otago
Matthaei, Christoph D.
New Zealand, Dunedin
University of Otago
Statistics
Citations: 25
Authors: 4
Affiliations: 1
Identifiers
Doi:
10.1007/s10021-012-9536-0
ISSN:
14350629