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Interannual variation in summer N2O concentration in the hypoxic region of the northern Gulf of Mexico, 1985–2007 (2014)

Kim, I.-N. ; Lee, K. ; Bange, Hermann W. ; [et al.]

Copernicus Publications on behalf of the European Geosciences Union

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Publication Date: 2022-05-25

Description: © The Author(s), 2013. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Biogeosciences 10 (2013): 6783-6792, doi:10.5194/bg-10-6783-2013.

Description: Microbial nitrous oxide (N2O) production in the ocean is enhanced under low-oxygen (O2) conditions. This is especially important in the context of increasing hypoxia (i.e., oceanic zones with extremely reduced O2 concentrations). Here, we present a study on the interannual variation in summertime nitrous oxide (N2O) concentrations in the bottom waters of the northern Gulf of Mexico (nGOM), which is well-known as the site of the second largest seasonally occurring hypoxic zone worldwide. To this end we developed a simple model that computes bottom-water N2O concentrations with a tri-linear ΔN2O/O2 relationship based on water-column O2 concentrations, derived from summer (July) Texas–Louisiana shelf-wide hydrographic data between 1985 and 2007. ΔN2O (i.e., excess N2O) was computed including nitrification and denitrification as the major microbial production and consumption pathways of N2O. The mean modeled bottom-water N2O concentration for July in the nGOM was 14.5 ± 2.3 nmol L−1 (min: 11.0 ± 4.5 nmol L−1 in 2000 and max: 20.6 ± 11.3 nmol L−1 in 2002). The mean bottom-water N2O concentrations were significantly correlated with the areal extent of hypoxia in the nGOM. Our modeling analysis indicates that the nGOM is a persistent summer source of N2O, and nitrification is dominating N2O production in this region. Based on the ongoing increase in the areal extent of hypoxia in the nGOM, we conclude that N2O production (and its subsequent emissions) from this environmentally stressed region will probably continue to increase into the future.

Description: The preparation of the manuscript was supported by the Mid-career Research Program of the Korea National Research Foundation (No. 2012R1A2A1A01004631) and by Polar Academy Program of the Korea Polar Research Institute. Partial support was also provided by the project titled “Long-term change of structure and function in marine ecosystems of Korea” funded by the Ministry of Land, Transport and Maritime Affairs. Support for A. M. Macdonald was provided through NSF grant No. OCE-0926651.

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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Electronic Resource

Fibre from high-substitution cyanoethyl ester of cellulose (1973)

Sadovnikova, V. I. ; Kim, I. N.

Springer

Fibre chemistry 5 (1973), S. 346-347

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ISSN: 1573-8493

Source: Springer Online Journal Archives 1860-2000

Topics: Technology , Process Engineering, Biotechnology, Nutrition Technology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00546077

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Interannual variation in summer N2O concentration in the hypoxic region of the northern Gulf of Mexico, 1985–2007 (2013)

Kim, I.-N. ; Lee, K. ; Bange, H. W. ; [et al.]

Copernicus

In: Biogeosciences Discussions. 2013; 10(4): 6315-6334. Published 2013 Apr 03. doi: 10.5194/bgd-10-6315-2013.

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Publication Date: 2013-04-03

Description: We present evidence of temporal variation in nitrous oxide (N2O) concentrations in the bottom waters of the northern Gulf of Mexico (nGOM) hypoxic zone. The analysis is based on a conceptual model simulating N2O biogeochemical processes in conjunction with water-column O2 levels, derived from summer Texas–Louisiana shelf-wide hydrographic data for twenty Julys between 1985 and 2007. The mean modeled nGOM N2O concentration was 7.7 ± 6.7 nmol L−1, and was significantly correlated with the areal extent of hypoxia. Our modeling analysis indicates that the nGOM is a persistent summer source of N2O, and nitrification is a primary factor leading to its production in this region. Based on the ongoing increase in the areal extent of hypoxia in the nGOM, we conclude that N2O emission from this environmentally stressed region will continue to increase into the future contributing to the global increase in greenhouse gases.

Print ISSN: 1810-6277

Electronic ISSN: 1810-6285

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Interannual variation in summer N2O concentration in the hypoxic region of the northern Gulf of Mexico, 1985–2007 (2013)

Kim, I.-N. ; Lee, K. ; Bange, H. W. ; [et al.]

Copernicus

In: Biogeosciences. 2013; 10(11): 6783-6792. Published 2013 Nov 01. doi: 10.5194/bg-10-6783-2013.

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Publication Date: 2013-11-01

Description: Microbial nitrous oxide (N2O) production in the ocean is enhanced under low-oxygen (O2) conditions. This is especially important in the context of increasing hypoxia (i.e., oceanic zones with extremely reduced O2 concentrations). Here, we present a study on the interannual variation in summertime nitrous oxide (N2O) concentrations in the bottom waters of the northern Gulf of Mexico (nGOM), which is well-known as the site of the second largest seasonally occurring hypoxic zone worldwide. To this end we developed a simple model that computes bottom-water N2O concentrations with a tri-linear ΔN2O/O2 relationship based on water-column O2 concentrations, derived from summer (July) Texas–Louisiana shelf-wide hydrographic data between 1985 and 2007. ΔN2O (i.e., excess N2O) was computed including nitrification and denitrification as the major microbial production and consumption pathways of N2O. The mean modeled bottom-water N2O concentration for July in the nGOM was 14.5 ± 2.3 nmol L−1 (min: 11.0 ± 4.5 nmol L−1 in 2000 and max: 20.6 ± 11.3 nmol L−1 in 2002). The mean bottom-water N2O concentrations were significantly correlated with the areal extent of hypoxia in the nGOM. Our modeling analysis indicates that the nGOM is a persistent summer source of N2O, and nitrification is dominating N2O production in this region. Based on the ongoing increase in the areal extent of hypoxia in the nGOM, we conclude that N2O production (and its subsequent emissions) from this environmentally stressed region will probably continue to increase into the future.

Print ISSN: 1726-4170

Electronic ISSN: 1726-4189

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Anthropogenic impact on Nitrogen Cycle in Mediterranean Sea (2014)

Moon, J. Y. ; Lee, K. ; Kim, I. N. ; [et al.]

In: [Talk] In: 2. Workshop on Marginals Seas in change, 24.-26.09.2014, Busan, Korea .

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Publication Date: 2015-01-28

Type: Conference or Workshop Item , NonPeerReviewed

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Interannual variation in summer N2O concentration in the hypoxic region of the northern Gulf of Mexico, 1985–2007 (2013)

Kim, I.-N. ; Lee, K. ; Bange, Hermann W. ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 10 . pp. 6783-6792.

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Publication Date: 2019-09-23

Description: Microbial nitrous oxide (N2O) production in the ocean is enhanced under low-oxygen (O2) conditions. This is especially important in the context of increasing hypoxia (i.e., oceanic zones with extremely reduced O2 concentrations). Here, we present a study on the interannual variation in summertime nitrous oxide (N2O) concentrations in the bottom waters of the northern Gulf of Mexico (nGOM), which is well-known as the site of the second largest seasonally occurring hypoxic zone worldwide. To this end we developed a simple model that computes bottom-water N2O concentrations with a tri-linear 1N2O/O2 relationship based on water-column O2 concentrations, derived from summer (July) Texas–Louisiana shelf-wide hydrographic data between 1985 and 2007. 1N2O (i.e., excess N2O) was computed including nitrification and denitrification as the major microbial production and consumption pathways of N2O. The mean modeled bottom-water N2O concentration for July in the nGOM was 14.5±2.3 nmol L−1 (min: 11.0±4.5 nmol L−1 in 2000 and max: 20.6±11.3 nmol L−1 in 2002). The mean bottom-water N2O concentrations were significantly correlated with the areal extent of hypoxia in the nGOM. Our modeling analysis indicates that the nGOM is a persistent summer source of N2O, and nitrification is dominating N2O production in this region. Based on the ongoing increase in the areal extent of hypoxia in the nGOM, we conclude that N2O production (and its subsequent emissions)from this environmentally stressed region will probably continue to increase into the future.

Type: Article , PeerReviewed

Format: text

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