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Savenkoff Claude; da Silva Nadja Lins; Lefevre Dominique; Denis Michel; Rassoulzadegan Fereidoun 《Journal of plankton research》1992,14(6):835-850
Spatial and size distribution of micro-organisms and their ETSactivity has been investigated in Ligurian Sea surface watersalong the Nice-Calvi transect across frontal areas from 18 to37 km offshore (TOMOFRONT 1 and 2 cruises, April 1988 and April-May1989 respectively). Aplastidic and plastidic nanoflagellatesand aplastidic picoflagellates were present in numbers closeto 0.25 x 104 cells ml1, whereas plastidic picoflagellatesaccounted for about half this number. Correlations have beenevidenced between plastidic and aplastidic micro-organisms withinthe same size group, suggesting that they belong to a well-definedecosystem. The highest correlation between total ETS activityand abundance of the considered size groups was observed fornanoflagellates (r = 0.94, n = 22, and r = 0.90, n = 22 foraplastidic and plastidic cells respectively). The importanceof the role of nanoflagellates in surface waters, with respectto the overall ETS activity, was supported by results from sizefractionation which assigned to the 310 µm sizerange a 73.3% contribution to overall ETS activity. Resultsemphasize analysing global ETS activity of natural samples inorder to derive relationships between the different populationspresent in the sampled water. It is suggested that couplingflow cytometry to the ETS approach should be very helpful inthat respect. 相似文献
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The trophic role of apex predators was evaluated in the northern Gulf of St. Lawrence ecosystem. An Ecopath model was developed for the period 1985–1987 prior to the collapse of commercially exploited demersal fish stocks in this area. Marine mammal trophic levels were estimated by the model at 4.1 for cetaceans, 4.4 for harp seals (Pagophilus groenlandicus), 4.7 for hooded seals (Cystophora cristata), 4.5 for gray seals (Halichoerus grypus), and 4.3 for harbor seals (Phoca vitulina). Harp seals were the third most important predator on vertebrate prey following large Atlantic cod (Gadus morhua) and redfish (Sebastes spp.). Different seal species preyed on different levels of the food chain. Harp seals preyed on most trophic groups, whereas larger seals, such as gray seals and hooded seals, mainly consumed higher trophic levels. The model suggested that apex predators had a negative effect on their dominant prey, the higher trophic level fish, but an indirect positive feedback on the prey of their preferred prey, mainly American plaice (Hippoglossoides platessoides), flounders, skates, and benthic invertebrates. Our results suggest that both marine mammals and fisheries had an impact on the trophic structure. 相似文献
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Relative confribution of dehydrogenases to overall respiratory ETh activity in some marine organisms
Savenkoff Claude; Packard Ted T.; Rodier Martine; Gerinno Magali; Lefevre Dominique; Denis Michel 《Journal of plankton research》1995,17(8):1593-1604
Respiration is an oxidation-reduction process in which the electronflux through the respiratory electron transfer system (ETS)is sustained by the action of different dehydrogenases. Theseenzymes, as parts of the ETS, oxidize natural substrates (succinate,NADH and NADPH) of the cells and use the reducing equivalentsto activate ATP synthesis. We studied the relative contributionof the three main dehydrogenases to the overall ETh activityin some marine organisms. Each organism was analysed for thecombined and separate activities of NADH, NADPH and succinatedehydrogenases. The ETS activity was measured as the abilityof each organism to reduce the tetrazolium salt, INT, when suppliedwith their natural substrates. The results showed that (i) NADHdehydrogenase was generally the most active dehydrogenase inprokaryotic and eukaryotic cells; (ii) INT does not fully collectreducing equivalents from succinate through the succinate dehydrogenase;and (iii) the sum of the activities measured separately exceedsthe combined activity when the three enzymes are measured together.We suggest that competition of the individual dehydrogenasesfor a common limiting electron acceptor, ubiquinone, may explainthese observations. 相似文献
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