The effects of bioturbation and herbivory by the polychaete <i>Nereis diversicolor</i> on loss of saltmarsh in south‐east England

Paramor, Odette; Hughes, R. G.

doi:10.1111/j.0021-8901.2004.00916.x

Cited by 81 publications

(86 citation statements)

References 30 publications

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“…salinity, temperature, dehydration during low-tide air exposure). They have a range of feeding behaviours, including deposit feeding, grazing on microphytobenthos and macrophytes, filter feeding, scavenging and predation on other macro-and meiofauna (Vedel & Riisgård 1993, Paramor & Hughes 2004, Engelsen & Pihl 2008.…”

Section: Introductionmentioning

confidence: 99%

Effect of Nereis diversicolor density on the erodability of estuarine sediment

Widdows¹,

Brinsley²,

Pope³

2009

Mar. Ecol. Prog. Ser.

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Section: Introductionmentioning

confidence: 99%

Effect of Nereis diversicolor density on the erodability of estuarine sediment

Widdows¹,

Brinsley²,

Pope³

2009

Mar. Ecol. Prog. Ser.

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“…The study of these processes is of crucial importance to understand marsh functioning given that (1) many marshes are inhabited by bioturbators (e.g. Bertness 1985, Iribarne et al 1997, Paramor & Hughes 2004, Jefferies et al 2006; and (2) pioneer plants (such as S. perennis) play a key role in the dynamics of disturbancegenerated patches (Bertness & Ellison 1987) reducing physical stress and thus permitting the course of successions and closure of these patches (Bertness 1991, Pennings & Bertness 2001.…”

Section: Discussionmentioning

confidence: 99%

“…The polychaete Nereis diversicolor is found in Northern Europe and is an important source of mortality and erosion of Salicornia spp. salt marshes (Paramor & Hughes 2004, but see Morris et al 2004). And it has been suggested that they can delay the colonization of bare surfaces through seed burial (Paramor & Hughes 2005).…”

Section: Potential Effects Of Bioturbators On the Germination And Seementioning

confidence: 99%

Crab bioturbation and herbivory reduce pre- and post-germination success of Sarcocornia perennis in bare patches of SW Atlantic salt marshes

Alberti

Escapa²,

Daleo³

et al. 2010

Mar. Ecol. Prog. Ser.

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“…Mar Ecol Prog Ser 419: [129][130][131][132][133][134][135][136] 2010 consumers, or biostabilizers (Belanger & Bedard 1994, Butler 1995, Widdows et al 2000, Paramor & Hughes 2004, Jefferies et al 2006, Escapa et al 2007.…”

Section: Resale or Republication Not Permitted Without Written Consenmentioning

confidence: 99%

Accelerated erosion of saltmarshes infested by the non-native burrowing crustacean Sphaeroma quoianum

Davidson¹,

Rivera²

2010

Mar. Ecol. Prog. Ser.

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Lateral erosion of saltmarshes is affected by many abiotic and biotic factors. While abiotic factors are typically regarded as primary drivers of erosion, biotic influences such as burrowing or bioturbating taxa can also extensively modify the physical structure of this marine habitat. Many estuaries on the Pacific coast of North America have been invaded by populations of the burrowing non-native isopod Sphaeroma quoianum, which are thought to exacerbate the erosion of saltmarshes. We conducted a mensurative experiment to examine the relationship between populations of S. quoianum and lateral erosion rate of saltmarshes in Coos Bay, Oregon, USA. After 1 yr, we measured higher lateral erosion rates, more undercutting, and higher numbers of calved and slumped marsh sections in marsh sites infested by S. quoianum than in uninfested sites. This effect was also consistent at smaller spatial scales: we found lateral erosion was 300% higher in burrowed areas than in adjacent (within approx. 1 m) unburrowed areas within infested sites. Our results suggest that the prodigious burrowing by dense populations of S. quoianum can accelerate erosion rates in saltmarshes and are substantial geomorphic agents of change in estuaries on the Pacific coast of North America. KEY WORDS: Erosion · Ecosystem engineering · Biogeomorphology · Bioturbation · Biological invasions · Saltmarshes · Sphaeroma quoianum Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 419: [129][130][131][132][133][134][135][136] 2010 consumers, or biostabilizers (Belanger & Bedard 1994, Butler 1995, Widdows et al. 2000, Paramor & Hughes 2004, Jefferies et al. 2006, Escapa et al. 2007.Burrowers/bioturbators and consumers both can greatly increase the rate of erosion of marshes. Fauna directly reduce the stability of the sediment and accelerate erosion through trampling, burrowing, bioturbation, or other forms of physical disturbance (Dionne 1985, Talley et al. 2001, Escapa et al. 2007). Burrowing by the crab Chasmagnathus granulatus decreases sediment shear strength and increases the erosion rate of saltmarshes in Argentina (Escapa et al. 2007). Dionne (1985) observed extensive marsh erosion from trampling and foraging by geese in Quebec. Furthermore, bioturbation by increasing densities of Manila clams resulted in an exponential increase of sediment erosion in flume experiments (Sgro et al. 2005). Herbivores indirectly accelerate erosion by reducing the abundances of sediment biostabilizers. 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 & Silli...

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The effects of bioturbation and herbivory by the polychaete Nereis diversicolor on loss of saltmarsh in south‐east England

Cited by 81 publications

References 30 publications

Effect of Nereis diversicolor density on the erodability of estuarine sediment

Effect of Nereis diversicolor density on the erodability of estuarine sediment

Crab bioturbation and herbivory reduce pre- and post-germination success of Sarcocornia perennis in bare patches of SW Atlantic salt marshes

Accelerated erosion of saltmarshes infested by the non-native burrowing crustacean Sphaeroma quoianum

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