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The effects of short-term increases in turbidity on sandflat microphytobenthic productivity and nutrient fluxes
Pratt, D.R.; Pilditch, C.A.; Lohrer, A.M.; Thrush, S.F. (2014). The effects of short-term increases in turbidity on sandflat microphytobenthic productivity and nutrient fluxes. J. Sea Res. 92: 170-177.
In: Journal of Sea Research. Elsevier/Netherlands Institute for Sea Research: Amsterdam; Den Burg. ISSN 1385-1101, more
Peer reviewed article  

Available in Authors 

Author keywords
    Benthic; Intertidal; Microphytobenthos; Nutrients; Primary Productivity; Turbidity

Authors  Top 
  • Pratt, D.R.
  • Pilditch, C.A.
  • Lohrer, A.M.
  • Thrush, S.F.

    Turbidity is a major limiting factor of benthic primary production and nutrient uptake on estuarine intertidal sandflats. Estuaries exhibit a wide range of suspended sediment concentrations (SSCs), however, few studies have quantified the effects of increasing SSC on ecosystem functioning. Here, we report on an in situ experiment examining the effects of short-term increases in SSC on intertidal sandflat benthic primary production and nutrient fluxes. Fine sediments (< 63 µm) were added to sunlit and darkened benthic chambers (0.25 m2) at concentrations ranging from 16 to 157 mg L- 1 and kept in suspension for a 4–5 h incubation period. In addition to solute fluxes we also measured sediment chlorophyll-a content and physical properties as covariables. In sunlit chambers, we observed a three-fold reduction in net primary production (NPP) with increasing SSC (NPP, R2 = 0.36, p = 0.01) and stronger reductions when NPP was standardised by sediment chlorophyll-a content (i.e., photosynthetic efficiency, NPPchl-a, R2 = 0.62, p < 0.01). Concurrent with reductions in photosynthetic efficiency, there was a four-fold increase in nutrient efflux from the sediment to the water column (NH4+, R2 = 0.44, p < 0.01). SSC had no effect on solute fluxes in darkened chambers. NPP was correlated with SSC and light intensity, whilst NH4+ efflux was solely correlated to SSC. The results of this study imply that increased exposure to SSC associated with the tidal exchange of sediments from far-field sources may severely impair benthic primary productivity and increase the flux of inorganic nutrients from benthic to pelagic systems.

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