2011
DOI: 10.1016/j.jembe.2010.12.006
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Burrow ventilation and associated porewater irrigation by the polychaete Marenzelleria viridis

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Cited by 58 publications
(49 citation statements)
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“…It is also remarkable that MN-sediment containing a mixture of Nereis diversicolor and M. viridis had a partitioning of reaction pathways similar to the N-sediment (Table 2). Higher ventilation activities by N. diversicolor than M. viridis (Quintana et al 2011) were apparently responsible for more oxidized conditions in the MN-sediment, which may have hampered sulfate reduction as also noted by Banta et al (1999). The higher redox in N. diversicolor than M. viridis sediment (Fig.…”
Section: Benthic Metabolism and Reaction Pathwayssupporting
confidence: 54%
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“…It is also remarkable that MN-sediment containing a mixture of Nereis diversicolor and M. viridis had a partitioning of reaction pathways similar to the N-sediment (Table 2). Higher ventilation activities by N. diversicolor than M. viridis (Quintana et al 2011) were apparently responsible for more oxidized conditions in the MN-sediment, which may have hampered sulfate reduction as also noted by Banta et al (1999). The higher redox in N. diversicolor than M. viridis sediment (Fig.…”
Section: Benthic Metabolism and Reaction Pathwayssupporting
confidence: 54%
“…Marenzelleria viridis is a surface deposit-feeder that ventilates its 30 to 40 cm deep vertical I-or J-shaped burrows in sandy sediment by ciliary (George 1966, Essink & Kleef 1988 and possibly muscular (Quintana et al 2011) action. Strong evidence indicates that M. viridis has the capacity to outcompete the native Nereis diversicolor in certain shallow areas (Essink & Kleef 1993, Kotta et al 2006.…”
Section: Introductionmentioning
confidence: 99%
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“…Since flux measurements were conducted several times in each boxcosm, linear mixed effects modelling was chosen as the most suitable statistical method for the statistical analysis of the non-independent data (Quinn & Keough 2002). To assess the effects of bioturbation on nutrient fluxes, linear mixed (between/ within subject) effects modelling was used with independent categorical, fixed be tween subjects variable 'Species' (3 levels: unbioturbated control, M. affinis, Marenzelleria) and within subjects variable 'Day' (3 levels: Days 33, 60, 74).…”
Section: Statisticsmentioning
confidence: 99%
“…occur in high densities, they can, through their deep burrowing activity, have a significant impact on these biogeochemical cycles. Quintana et al (2011) found that Marenzelleria viridis had two types of ventilation -a muscular pumping of water out of the burrow and a ciliar pumping of water into the burrow. Significant amounts of water percolate upwards to the sediment surface, which will also have a significant effect on the reduction of sulfate in the sediment .…”
Section: Bioturbation and Related Benthic Biogeochemical Processesmentioning
confidence: 99%