GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

A model-based assessment of the TrOCA approach for estimating anthropogenic carbon in the ocean (2010)

Yool, A.

Associated volumes

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In: Biogeosciences, Katlenburg-Lindau [u.a.] : Copernicus, 2004, 7(2010), Seite 723-751, 1726-4189

In: volume:7

In: year:2010

In: pages:723-751

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1726-4189

URL: http://www.biogeosciences.net/7/723/2010/

DOI: 10.5194/bg-7-723-2010

Language: English

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GEOMAR CATALOGUE

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2

Electronic Resource

High-latitude controls of thermocline nutrients and low latitude biological productivity (2004)

Gruber, N. ; Brzezinski, M. A. ; Dunne, J. P. ; [et al.]

[s.l.] : Macmillian Magazines Ltd.

Nature 427 (2004), S. 56-60

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The ocean's biological pump strips nutrients out of the surface waters and exports them into the thermocline and deep waters. If there were no return path of nutrients from deep waters, the biological pump would eventually deplete the surface waters and thermocline of nutrients; surface ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/nature02127

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3

Electronic Resource

The role of biogeochemical cycling for the formation and preservation of varved sediments in Soppensee (Switzerland) (2000)

Gruber, N. ; Wehrli, B. ; Wüest, A.

Springer

Journal of paleolimnology 24 (2000), S. 277-291

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ISSN: 1573-0417

Keywords: varves ; anoxia ; sediments ; Soppensee ; carbon cycle ; oxygen cycle

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences

Notes: Abstract We analyzed seasonally aggregated observations of temperature, conductivity, dissolved oxygen and dissolved inorganic carbon from Soppensee (District of Lucerne, Switzerland) for the yrs 1980 to 1993. Holomictic Soppensee is characterized by a strong summer stratification with a thin epilimnion separated from an anoxic hypolimnion by a strong pycnocline formed by thermal and chemical gradients. A vertical one-dimensional model was developed to simulate the observed seasonal cycles of carbon and oxygen. The processes of net community production, mineralization of organic matter, precipitation and dissolution of calcite, gas exchange, in- and outflow, sedimentation and vertical eddy diffusion are included. According to the model, the annual net community production is estimated to about 110 g C m-2 yr-1 and the annual net primary production to about 330 to 440 g C m-2 yr-1, which is a typical value for eutrophic lakes. A mass balance of the carbon cycle indicates that most of the inflow comes from groundwater which is super-saturated with respect to atmospheric CO2. Therefore the surface waters exhibit a large capacity for calcite precipitation. The results of the model are used to constrain the conditions that favor the formation of varved sediments in Soppensee during thousands of yrs. Model calculations show that the deep waters would still turn anoxic even if the sedimentation rate of organic matter were decreased to 25%. Several physical factors such as biogenic stabilization of the deep waters due to calcite dissolution and low input of wind energy are responsible for the long term anoxia in Soppensee.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008195604287

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4

Electronic Resource

Plasma-cell response in lymph glands and spleen of albino rats following bone trauma (1970)

Kurochkin, V. I. ; Gruber, N. M.

Springer

Bulletin of experimental biology and medicine 70 (1970), S. 880-881

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ISSN: 1573-8221

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00805185

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5

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Mesoscale atmosphere ocean coupling enhances the transfer of wind energy into the ocean (2016)

Byrne, D. ; Munnich, M. ; Frenger, Ivy ; [et al.]

Nature Research

In: Nature Communications, 7 (art. no. 11867).

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Publication Date: 2019-02-01

Description: Although it is well established that the large-scale wind drives much of the world’s ocean circulation, the contribution of the wind energy input at mesoscales (10–200 km) remains poorly known. Here we use regional simulations with a coupled high-resolution atmosphere–ocean model of the South Atlantic, to show that mesoscale ocean features and, in particular, eddies can be energized by their thermodynamic interactions with the atmosphere. Owing to their sea-surface temperature anomalies affecting the wind field above them, the oceanic eddies in the presence of a large-scale wind gradient provide a mesoscale conduit for the transfer of energy into the ocean. Our simulations show that this pathway is responsible for up to 10% of the kinetic energy of the oceanic mesoscale eddy field in the South Atlantic. The conditions for this pathway to inject energy directly into the mesoscale prevail over much of the Southern Ocean north of the Polar Front.

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/ncomms11867

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Global ocean storage of anthropogenic carbon (2013)

Khatiwala, S. ; Tanhua, Toste ; Fletcher, S. Mikaloff ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 10 (4). pp. 2169-2191.

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Publication Date: 2021-04-21

Description: The global ocean is a significant sink for anthropogenic carbon (C-ant), absorbing roughly a third of human CO2 emitted over the industrial period. Robust estimates of the magnitude and variability of the storage and distribution of C-ant in the ocean are therefore important for understanding the human impact on climate. In this synthesis we review observational and model-based estimates of the storage and transport of C-ant in the ocean. We pay particular attention to the uncertainties and potential biases inherent in different inference schemes. On a global scale, three data-based estimates of the distribution and inventory of C-ant are now available. While the inventories are found to agree within their uncertainty, there are considerable differences in the spatial distribution. We also present a review of the progress made in the application of inverse and data assimilation techniques which combine ocean interior estimates of C-ant with numerical ocean circulation models. Such methods are especially useful for estimating the air-sea flux and interior transport of C-ant, quantities that are otherwise difficult to observe directly. However, the results are found to be highly dependent on modeled circulation, with the spread due to different ocean models at least as large as that from the different observational methods used to estimate C-ant. Our review also highlights the importance of repeat measurements of hydro-graphic and biogeochemical parameters to estimate the storage of C-ant on decadal timescales in the presence of the variability in circulation that is neglected by other approaches. Data-based C-ant estimates provide important constraints on forward ocean models, which exhibit both broad similarities and regional errors relative to the observational fields. A compilation of inventories of C-ant gives us a "best" estimate of the global ocean inventory of anthropogenic carbon in 2010 of 155 +/- 31 PgC (+/- 20% uncertainty). This estimate includes a broad range of values, suggesting that a combination of approaches is necessary in order to achieve a robust quantification of the ocean sink of anthropogenic CO2.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.5194/bg-10-2169-2013

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Projections of oceanic N2O emissions in the 21st century using the IPSL Earth system model (2015)

Martinez-Rey, J. ; Bopp, L. ; Gehlen, M. ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 12 (13). pp. 4133-4148.

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Publication Date: 2016-03-30

Description: The ocean is a substantial source of nitrous oxide (N2O) to the atmosphere, but little is known about how this flux might change in the future. Here, we investigate the potential evolution of marine N2O emissions in the 21st century in response to anthropogenic climate change using the global ocean biogeochemical model NEMO-PISCES. Assuming nitrification as the dominant N2O formation pathway, we implemented two different parameterizations of N2O production which differ primarily under low-oxygen (O2) conditions. When forced with output from a climate model simulation run under the business-as-usual high-CO2 concentration scenario (RCP8.5), our simulations suggest a decrease of 4 to 12 % in N2O emissions from 2005 to 2100, i.e., a reduction from 4.03/3.71 to 3.54/3.56 TgN yr−1 depending on the parameterization. The emissions decrease strongly in the western basins of the Pacific and Atlantic oceans, while they tend to increase above the oxygen minimum zones (OMZs), i.e., in the eastern tropical Pacific and in the northern Indian Ocean. The reduction in N2O emissions is caused on the one hand by weakened nitrification as a consequence of reduced primary and export production, and on the other hand by stronger vertical stratification, which reduces the transport of N2O from the ocean interior to the ocean surface. The higher emissions over the OMZ are linked to an expansion of these zones under global warming, which leads to increased N2O production, associated primarily with denitrification. While there are many uncertainties in the relative contribution and changes in the N2O production pathways, the increasing storage seems unequivocal and determines largely the decrease in N2O emissions in the future. From the perspective of a global climate system, the averaged feedback strength associated with the projected decrease in oceanic N2O emissions amounts to around −0.009 W m−2 K−1, which is comparable to the potential increase from terrestrial N2O sources. However, the assessment for a potential balance between the terrestrial and marine feedbacks calls for an improved representation of N2O production terms in fully coupled next-generation Earth system models.

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/bg-12-4133-2015

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Changes in Ocean Heat, Carbon Content, and Ventilation: A Review of the First Decade of GO-SHIP Global Repeat Hydrography (2016)

Talley, L. D. ; Feely, R. A. ; Sloyan, B. M. ; [et al.]

Annual Reviews Inc.

In: Annual Review of Marine Science, 8 (1). 19.1-19.31.

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Publication Date: 2021-04-21

Description: Global ship-based programs, with highly accurate, full water column physical and biogeochemical observations repeated decadally since the 1970s, provide a crucial resource for documenting ocean change. The ocean, a central component of Earth’s climate system, is taking up most of Earth’s excess anthropogenic heat, with about 19% of this excess in the abyssal ocean beneath 2,000 m, dominated by Southern Ocean warming. The ocean also has taken up about 27% of anthropogenic carbon, resulting in acidification of the upper ocean. Increased stratification has resulted in a decline in oxygen and increase in nutrients in the Northern Hemisphere thermocline and an expansion of tropical oxygen minimum zones. Southern Hemisphere thermocline oxygen increased in the 2000s owing to stronger wind forcing and ventilation. The most recent decade of global hydrography has mapped dissolved organic carbon, a large, bioactive reservoir, for the first time and quantified its contribution to export production (∼20%) and deep-ocean oxygen utilization. Ship-based measurements also show that vertical diffusivity increases from a minimum in the thermocline to a maximum within the bottom 1,500 m, shifting our physical paradigm of the ocean’s overturning circulation.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1146/annurev-marine-052915-100829

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Southern Ocean eddy phenomenology (2015)

Frenger, Ivy ; Münnich, M. ; Gruber, N. ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Journal of Geophysical Research: Oceans, 120 (11). pp. 7413-7449.

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Publication Date: 2018-05-29

Description: Mesoscale eddies are ubiquitous features in the Southern Ocean, yet their phenomenology is not well quantified. To tackle this task, we use satellite observations of sea level anomalies and sea surface temperature (SST) as well as in situ temperature and salinity measurements from profiling floats. Over the period 1997–2010, we identified over a million mesoscale eddy instances and were able to track about 105 of them over 1 month or more. The Antarctic Circumpolar Current (ACC), the boundary current systems, and the regions where they interact are hot spots of eddy presence, representing also the birth places and graveyards of most eddies. These hot spots contrast strongly to areas shallower than about 2000 m, where mesoscale eddies are essentially absent, likely due to topographical steering. Anticyclones tend to dominate the southern subtropical gyres, and cyclones the northern flank of the ACC. Major causes of regional polarity dominance are larger formation numbers and lifespans, with a contribution of differential propagation pathways of long-lived eddies. Areas of dominance of one polarity are generally congruent with the same polarity being longer-lived, bigger, of larger amplitude, and more intense. Eddies extend down to at least 2000 m. In the ACC, eddies show near surface temperature and salinity maxima, whereas eddies in the subtropical areas generally have deeper anomaly maxima, presumably inherited from their origin in the boundary currents. The temperature and salinity signatures of the average eddy suggest that their tracer anomalies are a result of both trapping in the eddy core and stirring.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/2015JC011047

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