Effect of suspended sediments on the pumping rates of three species of glass sponge in situ

Grant, Nathan J.R.; Matveev, Eugueni; Kahn, A; Archer, Stephanie K.; Dunham, Anya; Bannister, Raymond; Eerkes-Medrano, Dafne; Leys, Sally P.

doi:10.3354/meps12939

Cited by 24 publications

(40 citation statements)

References 55 publications

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“…Reiswig found that sponge-pumping behavior was more complex than previously thought and might be driven by both abiotic (e.g., storms, sedimentation, and temperature) and intrinsic factors (e.g., daily cycles and behavioral pattern). More recent studies focused on the effect of a single parameter on the sponge pumping in either laboratory conditions (e.g., Annandale, 1907;Stuart and Klumpp, 1984;Huysecom et al, 1988;Riisgård et al, 1993;Larsen and Riisgård, 1994;Tompkins-MacDonald and Leys, 2008;Pfannkuchen et al, 2009;Schläppy et al, 2010;Massaro et al, 2012;Lavy et al, 2016;Strehlow et al, 2016;Kumala et al, 2017;Kumala and Canfield, 2018;Goldstein et al, 2019) or in situ (e.g., Gerrodette and Flechsig, 1979;Savarese et al, 1997;Bell et al, 1999;Trussell et al, 2006;Tompkins-MacDonald and Leys, 2008;Schläppy et al, 2010;Leys et al, 2011;McMurray et al, 2014;Lewis and Finelli, 2015;Ludeman et al, 2017;Grant et al, 2019;Wooster et al, 2019). Unfortunately, most studies were short term or small scale and thereby failed to provide a comprehensive view of the long-term in situ natural pumping behavior of the studied sponges.…”

Section: Discussionmentioning

confidence: 99%

“…A high rate of sedimentation (>7 mg L −1 ) was documented to induce a reduction in sponge pumping, sometimes to a complete cessation (Reiswig, 1971;Gerrodette and Flechsig, 1979;Leys and Lauzon, 1998;Tompkins-MacDonald and Leys, 2008;Grant et al, 2018Grant et al, , 2019. Other than in the course of winter storms, during which no sampling took place, our oligotrophic study area was typified with clear water (visibility >10 m) and low concentrations of suspended sediment (Ribes et al, 1999b).…”

Section: Environmental Factors Affecting Pumping Ratementioning

confidence: 99%

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Size Is the Major Determinant of Pumping Rates in Marine Sponges

et al. 2019

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Section: Discussionmentioning

confidence: 99%

Section: Environmental Factors Affecting Pumping Ratementioning

confidence: 99%

Size Is the Major Determinant of Pumping Rates in Marine Sponges

et al. 2019

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“…Although all reefs in this study are now protected from bottom-contact fishing activities (DFO, 2015(DFO, , 2017(DFO, , 2019, other anthropogenic stressors might affect these systems. For example, increased sedimentation, such as that caused by trawling near protected area boundaries, may disrupt filter-feeding of reef-building sponges, resulting in decreased growth or increased mortality (Grant et al, 2019). Additionally, there is now evidence that increasing water temperatures and ocean acidification may impact reef sponges' ability to feed, resulting in tissue necrosis and, potentially, starvation (Stevenson et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Foundation Species Abundance Influences Food Web Topology on Glass Sponge Reefs

et al. 2020

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“…Ambient water is drawn through numerous inhalant openings (ostia) into an incurrent canal system, where it enters many choanocyte chambers (CCs) through prosopyles, passes microvillar collar-sieves, exits the CC through apopyles and leaves the sponge via an excurrent canal system that finally leads to an exhalant opening, the osculum (Larsen and Riisgård, 1994). Contractions can effectively restrict or stop the water flow through a sponge (Reiswig, 1971;Riisgård et al, 2016;Kumala et al, 2017;Ludeman et al, 2017;Goldstein et al, 2019) and have been suggested to protect the filter-pump, for instance during periods with high loads of re-suspended sediment (Elliott and Leys, 2010;Bannister et al, 2012;Leys, 2015;Grant et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Contraction-Expansion and the Effects on the Aquiferous System in the Demosponge Halichondria panicea

et al. 2020

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Contractile behavior is common among sponges despite their lack of nerves and muscles. As sessile filter-feeders, sponges rely on water with suspended food particles being pumped through their aquiferous system. During contractions, however, the water flow is being reduced and eventually shut down. Yet, purpose and underlying pathways of contractile behavior have remained largely unclear. Here, we document the external and internal morphology of contracted and expanded single-osculum explants of the demosponge Halichondria panicea. We show that contraction-expansion dynamics can occur spontaneously (in untreated explants) and can be induced by exposure to chemical messengers such as γ-aminobutyric acid (GABA, 1 mM) and L-glutamate (L-Glu, 1 mM), or to inedible ink particles (4 mg L −1). The neurotransmitter GABA triggered similar contraction-expansion dynamics in H. panicea as observed in untreated explants. The effects of GABA-induced contraction-expansion events on the aquiferous system were investigated using scanning electron microscopy (SEM) on cryofractured explants. Our findings suggest that contraction-expansion affects the entire aquiferous system of H. panicea, including osculum, ostia, in-and excurrent canals and apopyles.

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Effect of suspended sediments on the pumping rates of three species of glass sponge in situ

Cited by 24 publications

References 55 publications

Size Is the Major Determinant of Pumping Rates in Marine Sponges

Size Is the Major Determinant of Pumping Rates in Marine Sponges

Foundation Species Abundance Influences Food Web Topology on Glass Sponge Reefs

Contraction-Expansion and the Effects on the Aquiferous System in the Demosponge Halichondria panicea

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