GLORIA — GEOMAR Library Ocean Research Information Access

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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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Tracer evidence of the origin and variability of Denmark Strait Overflow Water (2008)

Tanhua, Toste ; Olsson, K.A. ; Jeansson, E.

Springer

In: In: Arctic-Subarctic Ocean Fluxes: Defining the role of the Nordic Seas in Climate. , ed. by Dickson, B., Maincke, J. and Rhines, P. Springer, Dordrecht, pp. 475-503. ISBN 978-1-4020-6773-0

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Publication Date: 2012-02-23

Type: Book chapter , PeerReviewed

DOI: 10.1007/978-1-4020-6774-7

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Estimation of Anthropogenic CO2 Inventories in the Ocean (2010)

Sabine, C. L. ; Tanhua, Toste

Annual Reviews Inc.

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Publication Date: 2022-02-18

Description: A significant impetus for recent ocean biogeochemical research has been to better understand the ocean’s role as a sink for anthropogenic CO2. In the 1990s the global carbon survey of theWorld Ocean Circulation Experiment (WOCE) and the Joint Global Ocean Flux Study ( JGOFS) inspired the development of several approaches for estimating anthropogenic carbon inventories in the ocean interior. Most approaches agree that the total global ocean inventory of Cant was around 120 Pg C in the mid-1990s. Today, the ocean carbon uptake rate estimates suggest that the ocean is not keeping pace with the CO2 emissions growth rate. Repeat occupations of the WOCE/JGOFS survey lines consistently show increases in carbon inventories over the last decade, but have not yet been synthesized enough to verify a slowdown in the carbon storage rate. There are many uncertainties in the future ocean carbon storage. Continued observations are necessary to monitor changes and understand mechanisms controlling ocean carbon uptake and storage in the future.

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

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Can green hydrogen production be used to mitigate ocean deoxygenation? A scenario from the Gulf of St. Lawrence (2023)

Wallace, Douglas W.R. ; Jutras, Mathilde ; Nesbitt, William A. ; [et al.]

Springer

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Publication Date: 2024-02-07

Description: Ocean deoxygenation and expansion and intensification of hypoxia in the ocean are a major, growing threat to marine ecosystems. Measures currently used to protect marine biodiversity (e.g., marine protected areas) are ineffective in countering this threat. Here, we highlight the example of the Gulf of St. Lawrence in eastern Canada, where oxygen loss is not only due to eutrophication (which can be mitigated by nutrient controls) but also is a consequence of ocean circulation change and warming. Climate-related loss of oxygen will be an increasingly widespread source of risk to marine biodiversity over this century. Again using the Gulf of St. Lawrence as an example, we show that production of oxygen by the green hydrogen industry can be comparable to the loss rate of dissolved oxygen on large spatial scales, offering new possibilities for mitigation. However, this mitigation approach has rarely been considered for marine environments to date. Given confluence of increasing risk to marine ecosystems from oxygen loss and rapid emergence, worldwide, of industrial sources of pure oxygen, which are likely to be located in coastal regions, we believe this option will be proposed increasingly in coming years, including by the private sector. We argue that it is urgent for ocean scientists, engineers, and policymakers to recognize and address this emerging potential. A coordinated research effort should be established immediately in order to harness the potential of the green hydrogen industry to mitigate major impacts of climate change on marine biodiversity, and avoid any unintended negative consequences.

Type: Article , PeerReviewed

Format: text

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