Recognizability of algae ingested by abalone

Foale, Simon; Day, Rob

doi:10.1071/mf9921331

Cited by 20 publications

(12 citation statements)

References 19 publications

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“…Foale and Day (1992) observed that the rate of seaweed digestion in H. rubra did not differ significantly between animals fed daily and those starved for seven days. It can therefore be assumed, with reasonable certainty, that the three-day starvation period prior to the present trial probably did not affect the rate of digestion.…”

Section: Experimental Protocolmentioning

confidence: 72%

“…However, no work has been published on the rates of digestion of formulated diets. Less digestible algal species may remain identifiable in abalone guts for more than 48 h, whereas preferred species are largely digested within 24 h (Foale andDay 1992, Day andCook 1995).…”

mentioning

confidence: 99%

“…As feed is the single biggest operating cost in intensive aquaculture, extensive work on factors influencing gastric evacuation time has been done on economically important fish species (Smith 1989). Feeding frequency and diet quality have been shown to influence the rate at which abalone digest algae (Foale andDay 1992, Day andCook 1995). However, no work has been published on the rates of digestion of formulated diets.…”

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confidence: 99%

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Gastric evacuation time and digestive enzyme activity in abaloneHaliotis midaefed a formulated diet

Britz¹,

Hecht²,

Knauer³

1996

South African Journal of Marine Science

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Section: Experimental Protocolmentioning

confidence: 72%

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confidence: 99%

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confidence: 99%

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Gastric evacuation time and digestive enzyme activity in abaloneHaliotis midaefed a formulated diet

Britz¹,

Hecht²,

Knauer³

1996

South African Journal of Marine Science

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“…Gut contents provide information on an organism's diet in the relatively short term but can overestimate the contribution of the most recently consumed food items and those that are digested more slowly (Foale & Day 1992). Chemical tracers may provide longer-term and less biased dietary information (Iverson et al 2004), but their interpretation may be complicated if animals consume mixed diets or modify chemical signatures of their food (Peterson 1999, Kelly et al 2008.…”

Section: Introductionmentioning

confidence: 99%

Drift algal subsidies to sea urchins in low-productivity habitats

Kelly¹,

Krumhansl²,

Scheibling³

2012

Mar. Ecol. Prog. Ser.

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Highly productive kelp beds off the coast of Nova Scotia, Canada, export a large quantity of detrital material to adjacent low-productivity habitats. We used a combination of dietary tracers (fatty acids, stable isotopes, and gut contents) and gonad index to evaluate the importance and spatial extent of this energy subsidy to green sea urchins Strongylocentrotus droebachiensis offshore from kelp beds along 240 m transects perpendicular to the shore at 4 sites. Gut contents and δ 13C values indicated the presence of kelp in the diets of sea urchins collected up to 240 m offshore from kelp beds. We observed a corresponding decrease in gonad index with distance from the kelp at all sites but one, where patches of live kelp offshore from the main kelp bed provided an additional food source. Sea urchins that fed on a large pool of detrital kelp at another site had ~15% larger gonads than sea urchins at other locations. δ 15 N values were more enriched for sea urchins at 160 and 240 m from the kelp bed, suggesting that these sea urchins consume more animal matter, which was also evident in their gut contents. Our findings suggest that drift kelp represents an important energy source for sea urchins in subtidal habitats on the scale of tens to hundreds of meters offshore from kelp beds and that this resource is increasingly patchy in space and time with distance from the kelp bed. KEY WORDS: Stable isotopes · Fatty acids · Trophic subsidy · Detritus · Kelp beds · Sea urchins · Strongylocentrotus droebachiensis Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 452: 145-157, 2012145-157, & Branch 1996. On the Chilean coast, intertidal sea urchins feed preferentially on drift kelp where it is available, and sea urchins with access to this resource develop larger gonads than those feeding on intertidal algae (Rodríguez 2003). Kelps growing on offshore rocky reefs off the coast of western Australia provide a subsidy to adjacent seagrass beds (Wernberg et al. 2006) and other reefs kilometers away (Vanderklift & Wernberg 2008). On the Pacific coast of Washington, USA, sea urchins in deeper water offshore from kelp beds capture drift algae and develop gonads as large as those in shallow subtidal habitats (Britton-Simmons et al. 2009). However, the availability of drift algae and sea urchin gonad size both decrease with distance from shore in northern California (Rogers-Bennett et al. 1995).Along the Atlantic coast of Nova Scotia, Canada, coralline algal-dominated barrens are found offshore from kelp beds in the rocky subtidal. Although primary productivity is much lower in these barrens than in adjacent kelp beds (Chapman 1981), they often support dense populations of the green sea urchin Strongylocentrotus droebachiensis (80 to 100 urchins m −2 at 18 to 24 m depth; Himmelman 1986, Brady & Scheibling 2005. These sea urchins generally have smaller gonads and slower somatic growth than sea urchins actively feeding on the kelp bed (Himmelman 1986, Brady & Scheibling 2006...

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“…Compared to the abundant populations of V. halioticoli and its speculated symbiotic contribution to the conversion of alginate to acetic acid in the gut of Japanese and South African abalones (Sawabe et al, 2003), V. superstes may not be able to form such associations with Australian abalones because the major food of Australian abalones is red algae (Foale & Day, 1992). Differences in feeding behaviour of host abalones may affect the microflora of the gut microbial ecosystem and select for biochemical traits of these …”

mentioning

confidence: 99%

Vibrio superstes sp. nov., isolated from the gut of Australian abalones Haliotis laevigata and Haliotis rubra

Hayashi

2003

INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLO

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Five alginolytic, facultatively anaerobic, non-motile bacteria were isolated from the gut of abalones Haliotis laevigata and Haliotis rubra. Phylogenetic analyses based on 16S rDNA data indicated that these strains are related closely to Vibrio halioticoli (98 % 16S rDNA sequence similarity). DNA-DNA hybridization and fluorescent amplified fragment length polymorphism fingerprinting demonstrated that the five strains constituted a single species that was different from all currently known vibrios. The name Vibrio superstes sp. nov. (type strain, LMG 21323 T =IAM 15009 T = G3-29 T ; DNA G+C content, 48?0-48?9 mol%) is proposed to encompass this novel taxon. Several phenotypic features were disclosed that discriminate V. superstes from other Vibrio species: V. superstes sp. nov. and V. halioticoli can be differentiated on the basis of 17 traits (indole production, b-galactosidase test and assimilation of 15 carbon compounds).

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Recognizability of algae ingested by abalone

Cited by 20 publications

References 19 publications

Gastric evacuation time and digestive enzyme activity in abaloneHaliotis midaefed a formulated diet

Gastric evacuation time and digestive enzyme activity in abaloneHaliotis midaefed a formulated diet

Drift algal subsidies to sea urchins in low-productivity habitats

Vibrio superstes sp. nov., isolated from the gut of Australian abalones Haliotis laevigata and Haliotis rubra

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