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Feeding, growth and grazing rates of Oxyrrhis marina determined experimentally (2013)

Goldman, Joel C ; Dennett, M R ; Gordin, H

PANGAEA

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Publikationsdatum: 2024-01-26

Schlagwort(e): Abundance per volume; Biomass as carbon per volume; Carbon per cell; Cell biovolume; Dinoflagellata, cell biovolume; Dinoflagellata, growth rate; Dinoflagellates; Equivalent spherical diameter; Event label; EXP; Experiment; Grazing rate as carbon per individual; Grazing rate per individual; Taxon/taxa; TISO_NCM; Treatment: light:dark cycle; Treatment: light intensity; Treatment: temperature; Uniform resource locator/link to reference

Materialart: Dataset

Format: text/tab-separated-values, 54 data points

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Digitale Medien

Dark CO2 uptake by the diatom Chaetoceros simplex in response to nitrogen pulsing (1986)

Goldman, J. C. ; Dennett, M. R.

Springer

Marine biology 90 (1986), S. 493-500

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ISSN: 1432-1793

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract In a continuing investigation of dark CO2 uptake by nitrogen-limited cultures of the marine diatom Chaetoceros simplex (Bbsm), we expanded on several of our earlier conclusions regarding the potential application of this physiological response for measuring the degree and type of nitrogen limitation in phytoplankton populations. First, the duration over which the maximal enhancement of dark 14CO2 uptake was sustained after NH 4 + enrichment was a function both of the concentration of added NH 4 + and the standing crop of phytoplankton nitrogen — in effect, the total N demand. Second, pulsing with NH 4 + for a given degree of N-limitation always produced the same level of enhanced dark CO2 uptake regardless of whether the cultures were preconditioned with oxidized or reduced nitrogen. In contrast, urea pulsing led to reduced dark CO2 uptake, but the effect was most pronounced in cells grown on NO 3 − . And third, the assay could be used to distinguish readily between no, moderate, and severe N limitation. The degree of severe N limitation was quantitatively correlated with the degree of enhanced dark CO2 uptake, but this relationship was not so clear in the region of moderate N limitation. The main advantage of the assay is that it is a relatively simple and effective alternative to more complicated techniques for gauging the degree and form of N limitation in phytoplankton. Further evaluation will be required, both in the laboratory and field, before the assay can be calibrated for quantitative use.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00409269

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Digitale Medien

Ammonium regeneration and carbon utilization by marine bacteria grown on mixed substrates (1991)

Goldman, J. C. ; Dennett, M. R.

Springer

Marine biology 109 (1991), S. 369-378

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ISSN: 1432-1793

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract We examined the impact of exposing natural populations of marine bacteria (from seawater collected near Woods Hole, Massachusetts, USA) to multiple nitrogen and carbon sources in a series of batch growth experiments conducted from 1989 through 1990. The substrate C:N ratio (C:Ns) was varied from 1.5:1 to 10:1 either with equal amounts of NH 4 + and different amino acids or an amino acid mixture, all supplemented with glucose to maintain the C:Ns ratio equal to that of the respective amino acid, or with combinations of glucose and NH 4 + alone. A common feature of the experiments involving amino acids was the concurrent uptake of NH 4 + and amino acids that persisted as long as a readily assimilable carbon source (glucose in our case) was taken up. There was no net regeneration of NH 4 + , even though catabolism of amino acids occurred. Regeneration of NH 4 + was evident only after glucose was completely utilized, which usually occurred at the end of exponential growth. The contribution of15NH 4 + to total nitrogen uptake by the end of exponential growth varied from ~60 to 80% when individual amino acids were present and down to ~24% when the amino acid mixture was added. These estimates are conservative because we did not account for possible isotope dilution effects resulting from amino acid catabolism. When NH 4 + and glucose were the sole nitrogen and carbon sources, there was a stoichiometric balance between glucose and NH 4 + uptake over a wide range of C:Ns ratios, leading to a constant bacterial biomass C:N ratio (C:NB) of ~4.5:1. As a result NH 4 + usage varied from 50% when the C:Ns ratio was 3.6:1, to 100% when the C:Ns ratio was 10:1. Gross growth efficiency varied from ~60% when NH 4 + plus glucose were added alone or with the amino acid mixture, to 47% when the individual amino acids were used in place of the mixture. It is thus evident that actively growing bacteria will act as sinks for nitrogen when a carbon source that can be assimilated easily is available to balance NH 4 + uptake, even when amino acids are available and are being co-metabolized.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01313502

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Digitale Medien

Effect of nitrogen source on short-term light and dark CO2 uptake by a marine diatom (1983)

Goldman, J. C. ; Dennett, M. R.

Springer

Marine biology 76 (1983), S. 7-15

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ISSN: 1432-1793

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Based on a series of short-term incubations involving the marine diatom Chaetoceros simplex (Bbsm), precultured in NH 4 + -, NO 3 - -and urea-limited continuous cultures at several dilution rates, we found that both the short-term specific rate of 14CO2 uptake and the amount of CO2 fixed after 8- and 16-min incubations were unaffected by enrichment with NH 4 + , urea, or NO 3 - when NH 4 + or urea were the preconditioning forms of N, but were slightly suppressed when the cells were first grown on NO 3 - . Similar enrichments in the dark, however, led to significant CO2 uptake under all conditions of NH 4 + enrichment and to similarly enhanced CO2 uptake, but only at high growth rates, when urea was the source of enrichment nitrogen. Our light results are contrary to some contemporary findings, but there does seem to be agreement that photosynthetic rates of rapidly growing phytoplankton will not be affected by exposure to pulses of nitrogen. Enhanced dark uptake, in contrast, appears to be characteristic of phytoplankton under all degrees of N limitation, and, as such, may be useful as an “all or nothing” index of the nitrogen status of natural waters. There is some indication that the index may be useful in determining both the form of and the degree of N limitation as well.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00393050

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Responses of bacterioplankton and phytoplankton to organic carbon and inorganic nutrient additions in two oceanic exosystems (2000)

Caron, D. A. ; Lim, E. L. ; Sanders, R. W. ; [weitere]

In: EPIC3Aquatic microbial ecology, 22, pp. 175-184

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Publikationsdatum: 2019-07-17

Repository-Name: EPIC Alfred Wegener Institut

Materialart: Article , isiRev

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