2009
DOI: 10.3354/meps07864
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Effect of Nereis diversicolor density on the erodability of estuarine sediment

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Cited by 29 publications
(22 citation statements)
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“…For example, herbivory and bioturbation by the polychaeate Nereis diversicolor reduces the abundance of marsh plants leading to increased erosion in marshes (Paramor & Hughes 2004). The presence of the diatom-grazing amphipod Corophium volutator significantly decreases sediment shear strength (Gerdol & Hughes 1994) and increases erosion rates (Widdows et al 2009) in marsh sediment.…”
Section: Resale or Republication Not Permitted Without Written Consenmentioning
confidence: 99%
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“…For example, herbivory and bioturbation by the polychaeate Nereis diversicolor reduces the abundance of marsh plants leading to increased erosion in marshes (Paramor & Hughes 2004). The presence of the diatom-grazing amphipod Corophium volutator significantly decreases sediment shear strength (Gerdol & Hughes 1994) and increases erosion rates (Widdows et al 2009) in marsh sediment.…”
Section: Resale or Republication Not Permitted Without Written Consenmentioning
confidence: 99%
“…For example, herbivory and bioturbation by the polychaeate Nereis diversicolor reduces the abundance of marsh plants leading to increased erosion in marshes (Paramor & Hughes 2004). The presence of the diatom-grazing amphipod Corophium volutator significantly decreases sediment shear strength (Gerdol & Hughes 1994) and increases erosion rates (Widdows et al 2009) in marsh sediment.On the Pacific coast of North America, over 93% of salt marshes have been lost as a result of human activities (Bromberg Gedan & Silliman 2009). The introduction of the non-native burrowing isopod (Sphaeroma quoianum) on the Pacific coast adds yet another stressor to the remaining saltmarshes.…”
mentioning
confidence: 99%
“…Some bivalves, snails, polychaete worms and ghost shrimp decrease the critical shear stress of the sediment and increase sediment resuspension through increased sediment surface roughness and loosened sediment, and the mass of resuspended sediment is significantly correlated with the densities of these animals (Widdows et al, 2000(Widdows et al, , 2009Sgro et al, 2005;Orvain et al, 2006;Amaro et al, 2007). However, the bivalve Mytilus edulis caused the highest sediment resuspension at a density of 25% of the sediment surface covered by the bivalve, and sediment resuspension decreased at bivalve densities above this level .…”
Section: Introductionmentioning
confidence: 99%
“…Some studies consider this species a stabilizer, as judged from its influence on the shear strength properties and an apparent increased erosion threshold of the sediment as a function of abundance (Meadows and Tait, 1989;Meadows et al, 1990;Fernandes et al, 2006). Other studies refer to the destabilizing effect of N. diversicolor from its influence on the colonization of benthic diatoms and surface topography by a high level of surface activity while searching for food (Underwood and Paterson, 1993;Widdows et al, 2009). However, the slight destabilizing effect of N. diversicolor in our experiment suggests that this species may have counteracting destabilizing and stabilizing behaviours.…”
Section: à2mentioning
confidence: 99%
“…Also sediment reworking by larger burrowing and deposit-feeding macrofauna (e.g. the polychaete Nereis diversicolor and the bivalve Scrobicularia plana) may change shear strength by altering sediment properties and destabilizing sediments beyond the surface layer (Botto and Iribarne, 2000;Widdows et al, 2009). Benthic animals may to a lesser extent also stabilize the sediment e.g.…”
Section: Introductionmentioning
confidence: 99%