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1

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Mikrobiologische Untersuchungen an Sedimentprofilen der Ostsee in der Kieler Bucht (bei Boknis Eck) (1985)

Kähler, Paul [VerfasserIn]

Kiel

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (VI, 84 Seiten = 5 MB) , Graphen, Karten, Illustrationen

Edition: 2020

URL: https://oceanrep.geomar.de/id/eprint/50405

Language: German

Note: Zusammenfassung in Deutscher und Englischer Sprache

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2

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Internal-wave-induced and double-diffusive nutrient fluxes to the nutrient-consuming surface layer in the oligotrophic subtropical North Atlantic (2004)

Dietze, Heiner

Associated volumes

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In: Ocean dynamics, Berlin : Springer, 2001, 54(2004), 1, Seite 1-7, 1616-7341

In: volume:54

In: year:2004

In: number:1

In: pages:1-7

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1616-7341

DOI: 10.1007/s10236-003-0060-9

Language: English

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3

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Biotic contribution to air-sea fluxes of CO2 and O2 and its relation to new production, export production, and net community production (2004)

Oschlies, Andreas

Associated volumes

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In: Global biogeochemical cycles, Hoboken, NJ : Wiley, 1987, 18(2004), 1944-9224

In: volume:18

In: year:2004

In: extent:20

Description / Table of Contents: The contribution of the marine biota to air-sea fluxes of CO2 and O2 is often described in terms of biological production concepts, such as new production, export production, and net community production. We evaluate these three quantities using a basin-scale ecosystem-circulation model of the North Atlantic Ocean based on Redfield stoichiometry into which we introduce an artificial tracer which records the biotic contribution to air-sea exchange of gases like O2 and CO2. It is found that on average the biological production rates overestimate the biotically effected air-sea flux by some 20% and, in some regions, even predict the wrong direction. With primary production restricted to the euphotic zone, but respiration extending to farther below, the discrepancy can largely be attributed to the different integration depths used in the different concepts (euphotic zone, surface mixed layer), and on annual and longer timescales, all rates converge when using the base of the winter mixed layer rather than that of the euphotic zone as the reference depth. For the surface carbon budget, which ultimately controls air-sea exchange of CO2, it is irrelevant whether carbon atoms cross this boundary in organic or inorganic speciation. Hence the transports of biotically generated surpluses or deficits of dissolved inorganic matter must also be accounted for. While their contribution amounts to only a few percent on the basin scale, the subduction of newly remineralized inorganic matter can locally account for about half of the biotically effected air-sea flux, for example, in regions of mode-water formation.

Type of Medium: Online Resource

Pages: 20 , graph. Darst

ISSN: 1944-9224

DOI: 10.1029/2003GB002094

Language: English

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4

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Mikrobiologische Untersuchungen an Sedimentprofilen dr Ostsee in der Kieler Bucht : bei Boknis Eck (1985)

Kähler, Paul

In: (Diploma thesis), Christian-Albrechts-Universität Kiel, Kiel, Germany , 84 pp

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Publication Date: 2020-09-02

Type: Thesis , NonPeerReviewed

Format: text

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Marine dissolved organic matter: can its C:N ratio explain carbon overconsumption? (2001)

Kähler, Paul ; Koeve, Wolfgang

Elsevier

In: Deep Sea Research Part I: Oceanographic Research Papers, 48 (1). pp. 49-62.

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Publication Date: 2016-10-28

Description: Carbon overconsumption, i.e. the consumption of inorganic carbon relative to inorganic nitrogen in excess of the Redfield ratio at the sea surface, was examined in relation to the dynamics of dissolved organic carbon and nitrogen (DOC and DON) in the northeast Atlantic. We observed the presence of N-poor dissolved organic matter (DOM) in surface water during summer, requiring the consumption of inorganic carbon and nitrogen in a ratio exceeding the Redfield ratio. The C : N ratio of bulk DOM is not only different from the Redfield ratio but also variable, i.e. no fixed conversion factor of C and N exists where DOM is important in C and N transformations. The existence of N-poor DOM is recognized as a feature typical of oligotrophic systems. At the same time, the C : N ratios of particles conform to Redfield stoichiometry as does deep-ocean chemistry. The implications of this finding are discussed, the conclusion being that, while DOM buildup contributes to CO2 drawdown seasonally, its impact on long-term carbon and nitrogen balance of the ocean is small.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S0967-0637(00)00034-0

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Internal-wave induced and double-diffusive nutrient fluxes to the nutrient-consuming surface layer in the oligotrophic subtropical North Atlantic (2004)

Dietze, Heiner ; Oschlies, Andreas ; Kähler, Paul

Springer

In: Ocean Dynamics, 54 . pp. 1-7.

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Publication Date: 2017-02-06

Description: In the literature, an inconsistency exists between estimates of biotically-effected carbon export inferred from large-scale geochemical studies (Jenkins 1982; 47 gC m−2 a−1) and local measurements of turbulent nutrient supply (Lewis et al. 1986; 4 gC m−2 a−1) in the eastern subtropical North Atlantic. Nutrient supply to the upper ocean by turbulent mixing is reexamined using local standard oceanographic measurements and high-resolution vertical profiles of nutrients averaged over a large region directly comparable to that investigated by Jenkins (1982).

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s10236-003-0060-9

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Salt-finger induced enhancement of upper-ocean nutrient supply (2003)

Oschlies, Andreas ; Dietze, Heiner ; Kähler, Paul

AGU (American Geophysical Union)

In: Geophysical Research Letters, 30 (23). p. 2204.

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Publication Date: 2019-09-23

Description: In the subtropics, estimates of upper-ocean nitrate supply by turbulent mixing have been found insufficent to balance estimated nutrient loss through organic-matter export. Most mixing-rate estimates as well as numerical turbulence closure schemes commonly employed in numerical models have, however, neglected salt-finger induced mixing. Here we examine the potential contribution of salt-finger induced mixing to nutrient fluxes. Our model results suggest that salt-fingering instabilities generate substantial nutrient fluxes (on average 0.03 mol N m−2 yr−1) which are of similar magnitude as fluxes associated with mechanically induced turbulence or with mesoscale eddies. Because salt-fingering activity depends on the proportion of temperature versus salinity effects on stratification rather than on the stability of stratification itself, its sensitivity to climate change will differ from that of “ordinary” mixing processes and needs to be considered in the context of global change.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2003GL018552

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Biotic contribution to air-sea fluces of CO〈sub〉2〈/sub〉 and O〈sub〉2〈/sub〉 and its relation to new production. Export production, and net community production (2004)

Oschlies, Andreas ; Kähler, Paul

AGU (American Geophysical Union)

In: Global Biogeochemical Cycles, 18 (1). GB1015.

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Publication Date: 2018-03-16

Description: The contribution of the marine biota to air-sea fluxes of CO2 and O2 is often described in terms of biological production concepts, such as new production, export production, and net community production. We evaluate these three quantities using a basin-scale ecosystem-circulation model of the North Atlantic Ocean based on Redfield stoichiometry into which we introduce an artificial tracer which records the biotic contribution to air-sea exchange of gases like O2 and CO2. It is found that on average the biological production rates overestimate the biotically effected air-sea flux by some 20% and, in some regions, even predict the wrong direction. With primary production restricted to the euphotic zone, but respiration extending to farther below, the discrepancy can largely be attributed to the different integration depths used in the different concepts (euphotic zone, surface mixed layer), and on annual and longer timescales, all rates converge when using the base of the winter mixed layer rather than that of the euphotic zone as the reference depth. For the surface carbon budget, which ultimately controls air-sea exchange of CO2, it is irrelevant whether carbon atoms cross this boundary in organic or inorganic speciation. Hence the transports of biotically generated surpluses or deficits of dissolved inorganic matter must also be accounted for. While their contribution amounts to only a few percent on the basin scale, the subduction of newly remineralized inorganic matter can locally account for about half of the biotically effected air-sea flux, for example, in regions of mode-water formation.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2003GB002094

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C:N ratios in the mixed layer during the productive season in the Northeast Atlantic Ocean (2001)

Körtzinger, Arne ; Koeve, Wolfgang ; Kähler, Paul ; [et al.]

Elsevier

In: Deep Sea Research Part I: Oceanographic Research Papers, 48 . pp. 661-688.

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Publication Date: 2020-08-05

Description: Redfield stoichiometry has proved a robust paradigm for the understanding of biological production and export in the ocean on a long-term and a large-scale basis. However, deviations of carbon and nitrogen uptake ratios from the Redfield ratio have been reported. A comprehensive data set including all carbon and nitrogen pools relevant to biological production in the surface ocean (DIC, DIN, DOC, DON, POC, PON) was used to calculate seasonal new production based on carbon and nitrogen uptake in summer along 20°W in the northeast Atlantic Ocean. The 20°W transect between 30 and 60°N covers different trophic states and seasonal stages of the productive surface layer, including early bloom, bloom, post-bloom and non-bloom situations. The spatial pattern has elements of a seasonal progression. We also calculated exported production, i.e., that part of seasonal new production not accumulated in particulate and dissolved pools, again separately for carbon and nitrogen. The pairs of estimates of `seasonal new production’ and `exported production’ allowed us to calculate the C : N ratios of these quantities. While suspended particulate matter in the mixed layer largely conforms to Redfield stoichiometry, marked deviations were observed in carbon and nitrogen uptake and export with progressing season or nutrient depletion. The spring system was characterized by nitrogen overconsumption and the oligotrophic summer system by a marked carbon overconsumption. The C : N ratios of seasonal new as well as exported production increase from early bloom values of 5–6 to values of 10–16 in the post-bloom/oligotrophic system. The summertime accumulation of nitrogen-poor dissolved organic matter can explain only part of this shift.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S0967-0637(00)00051-0

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