论文信息 - Activité biologique en domaine profond: transformations biochimiquesin situ de composés organiques marqués au carbone-14 à l'interface eau-sédiment par 2000 m de profondeur dans le golfe de Gascogne

Activité biologique en domaine profond: transformations biochimiquesin situ de composés organiques marqués au carbone-14 à l'interface eau-sédiment par 2000 m de profondeur dans le golfe de Gascogne

In June 1983,in situ water-sediment interface experiments were conducted with the submersible “Cyana” at 2 000 m depth in the Bay of Biscay. Dissolved or particulate14C-labelled organic compound was injected into a compartment of a box-corer specifically adapted for use with the submersible. After incubation, the biochemical reactions were stopped by addition of Formalin. In the laboratory, the pathways of the labelled molecules in the various extracts were followed by means of chemical and granulometric fractionation and isolation of meiofauna. Various experiments run at 1 atm and atin situ pressures, for incubation times of between 3 and 144 h, revealedin situ biochemical transformation. After recovery of the samples, activity at 1 atm was low, with only 4% of the radioactivity being recovered in the macromolecules against 84% for thein situ experiments. These results comprise new evidence of the existence of a rapid biochemical transformation at great depth in the ocean and therefore of the activity of the microflora, microfauna and meiofauna which are living in the superficial sediment.

G. Cahet | G. Cahet | M. Sibuet | M. Sibuet

[1] C. E. Zobell,et al. THE INFLUENCE OF HYDROSTATIC PRESSURE ON THE GROWTH AND VIABILITY OF TERRESTRIAL AND MARINE BACTERIA , 1949, Journal of bacteriology.

[2] H. Jannasch,et al. Decomposition of solid organic materials in the deep sea , 1976 .

[3] I. Koike,et al. Evidence of high organotrophic potentiality of bacteria in the deep ocean , 1974 .

[4] I. Koike,et al. Nitrate metabolism in abyssal waters , 1975 .

[5] H. Jannasch,et al. Microbial Degradation of Organic Matter in the Deep Sea , 1971, Science.

[6] H. Jannasch. Microbial Turnover of Organic Matter in the Deep Sea , 1979 .

[7] H. Jannasch,et al. In-situ studies on deep-sea amphipods and their intestinal microflora , 1983 .

[8] R. Colwell,et al. Metabolic Activities of the Intestinal Microflora of a Deep-Sea Invertebrate , 1976, Applied and environmental microbiology.

[9] H. Jannasch,et al. Deep-Sea Microorganisms: In situ Response to Nutrient Enrichment , 1973, Science.

[10] H. Jannasch,et al. An approach for in situ studies of deep-sea amphipods and their microbial gut flora☆ , 1980 .

[11] A. Yayanos,et al. Isolation of a Deep-Sea Barophilic Bacterium and Some of Its Growth Characteristics , 1979, Science.