Changes in lipids during simulated herbivorous feeding by the marine crustacean<i>Neomysis integer</i>

Bradshaw, Stuart A.; Ohara, Susumu; Cornert, Eric D. S; Eglinton, G.

doi:10.1017/s0025315400034330

Cited by 30 publications

(36 citation statements)

References 37 publications

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“…Detailed investigations of organic matter composition might in principle resolve this issue as microbial and animal processing of organic matter results in the formation of distinct compounds (Bradshaw et al, 1990;Sun et al, 1999;Thomas and Blair, 2002;Woulds et al, 2012Woulds et al, , 2014. There are a few issues with this approach: (1) most sedimentary organic matter is molecularly uncharacterizable and the origin (imported from the water column vs. newly produced within the sediment) can thus not directly be investigated, (2) microbes living within (the guts) of animals may mask the animal signatures (Woulds et al, 2012(Woulds et al, , 2014 and (3) different analytical windows (amino acids vs. lipids) may result in different inferences.…”

Section: Secondary Production and The Formation Of Molecularly Uncharmentioning

confidence: 99%

Reviews and syntheses: to the bottom of carbon processing at the seafloor

2018

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Abstract. Organic carbon processing at the seafloor is studied by biogeochemists to quantify burial and respiration, by organic geochemists to elucidate compositional changes and by ecologists to follow carbon transfers within food webs. Here I review these disciplinary approaches and discuss where they agree and disagree. It will be shown that the biogeochemical approach (ignoring the identity of organisms) and the ecological approach (focussing on growth and biomass of organisms) are consistent on longer timescales.

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Section: Secondary Production and The Formation Of Molecularly Uncharmentioning

confidence: 99%

Reviews and syntheses: to the bottom of carbon processing at the seafloor

2018

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“…The presence of relatively high proportions of these degradation products of the chlorophyll phytyl side-chain well supports the contribution of zooplanktonic faecal pellets to the sampling material. Indeed, pelagic crustaceans decrease the abundance of the chlorophyll phytyl side-chain when feeding herbivorously (Prahl et al, 1984;Harvey et al, 1987;Bradshaw et al, 1990). Any phytol remaining in the faeces of pelagic zooplankton after herbivorous feeding will be quickly removed on subsequent reprocessing of the faecal material (Bradshaw and Eglinton, 1993).…”

Section: Isoprenoidsmentioning

confidence: 99%

Intense photooxidative degradation of planktonic and bacterial lipids in sinking particles collected with sediment traps across the Canadian Beaufort Shelf (Arctic Ocean)

et al. 2012

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Abstract. The lipid content of seven samples of sinking particles collected with sediment traps moored at ∼ 100 m depth in summer and fall across the Canadian Beaufort Shelf (Arctic Ocean) was investigated. Our main goal was to quantify and characterize the biotic and abiotic degradation processes that acted on sinking material during these periods. Diatoms, which dominated the phytoplanktonic assemblage in every trap sample, appeared to be remarkably sensitive to Type II (i.e. involving singlet oxygen) photodegradation processes in summer, but seemed to be relatively unaffected by biotic degradation at the same time. Hence, the relative recalcitrance of phytodetritus towards biodegradation processes during the Arctic midnight sun period was attributed to the strong photodegradation state of heterotrophic bacteria, which likely resulted from the efficient transfer of singlet oxygen from photodegraded phytoplanktonic cells to attached bacteria. In addition, the detection in trap samples of photoproducts specific to wax ester components found in herbivorous copepods demonstrated that zooplanktonic faecal material exported out of the euphotic zone in summer were affected by Type II photodegradation processes as well. By contrast, sinking particles collected during the autumn were not influenced by any light-driven stress. Further chemical analyses showed that photodegraded sinking particles contained an important amount of intact hydroperoxides, which could then induce a strong oxidative stress in underlying sediments.

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“…Neomysis was collected from the Tamar estuary and maintained as described previously (Bradshaw et al, 1990). Nereis was collected from mud flats at Saltram Beach on the Plym estuary and maintained at the laboratory in a portion of mud from the estuary under a constant flow of pumped unfiltered sea water.…”

Section: Collection and Maintenance Of Animalsmentioning

confidence: 99%

“…As in other experiments using the alga Scrippsiella as the primary food source (Bradshaw et al, 1990, in preparation), quantitation of lipids is based on the internal quantitative marker 4oc,23R,24R-trimethylcholestan-3P-ol (dinostanol) present in the alga (Bradshaw et al, 1990). The reasons for the use of this marker are discussed elsewhere (Bradshaw et al, 1989).…”

Section: Quantitationmentioning

confidence: 99%

“…Our knowledge concerning the manner in which marine invertebrates alter the lipids in marine food chains and thus influence sedimentary lipid distributions has until recently been limited to studies of mainly pelagic crustacean feeding (Volkman et ah, 1980a;Prahl et al, 1984a, b;Harvey et ah, 1987;Bradshaw et a\., 1990). While this animal group is undoubtedly important in the processing of primary production in the water column, other important groups such as the molluscs, annelids and echinoderms must also have some effect upon the lipids in food chains through their own lipid metabolisms.…”

Section: Introductionmentioning

confidence: 99%

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Dietary lipid changes during herbivory and coprophagy by the marine invertebrate Nereis diversicolor

et al. 1990

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Changes in dietary lipids (fatty acids, sterols and fatty alcohols) during herbivory and coprophagy by the annelid worm Hediste (Nereis) diversicolor (O.F. Muller) were modelled in laboratory feeding experiments. The dinoflagellate Scrippsiella trochoidea (Stein) was used as the food in herbivory; faeces from the crustacean Neomysis integer (Leach) after feeding on this same alga, were used as the food in coprophagy.Nereis is extremely efficient in its assimilation of dietary lipids and produces faeces with very low fatty acid:sterol (FAST) ratios in both herbivory and coprophagy. The net decrease in total lipid in both modes of feeding with this species suggests that annelids, where present, are as important as other invertebrate groups in affecting the flux of lipids through marine food chains.Unlike species of crustaceans and molluscs studied to date, Nereis assimilates all fatty acid to a high degree, though herbivorous and particularly coprophagous feeding leads to relatively high abundances of 'bacterial' odd carbon-number normal and branched fatty acids in the faeces. As such, annelids are likely to be responsible for part of the microbial element of sedimentary lipid distributions.The quantity of cholesterol in the diet affects the manner in which Nereis changes the sterol distribution of the digested material. With a cholesterol-poor diet, as in herbivory, this sterol is significantly contributed to the faeces while A 804) sterols appear to be transformed to A 5 sterols to compensate for the loss of A 5 sterol. With cholesterol-rich diets, as in coprophagy, cholesterol is taken up directly from the diet and no A 8U4> conversion is observed.Overall, Nereis has little quantitative effect upon the dietary 4-methyl sterols and hence the use of these compounds as quantitative dinoflagellate markers is further strengthened. However, the quantity of 4-desmethyl in the digested material depends upon the feeding mode: accordingly, any assessment of dinoflagellate input to sediments based on the relative quantities of 4-methyl to 4-desmethyl sterols, must be treated with caution.

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Changes in lipids during simulated herbivorous feeding by the marine crustaceanNeomysis integer

Cited by 30 publications

References 37 publications

Reviews and syntheses: to the bottom of carbon processing at the seafloor

Reviews and syntheses: to the bottom of carbon processing at the seafloor

Intense photooxidative degradation of planktonic and bacterial lipids in sinking particles collected with sediment traps across the Canadian Beaufort Shelf (Arctic Ocean)

Dietary lipid changes during herbivory and coprophagy by the marine invertebrate Nereis diversicolor

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