An intercomparison of oceanic methane and nitrous oxide measurements

Wilson, Samuel T.; Bange, Hermann W.; Arévalo‐Martínez, Damian L.; Barnes, Jonathan; Borges, Alberto; Brown, Ian J.; Burgos, Macarena; Capelle, David; Casso, M.; Paz, M. de la; Fenwick, Lindsay; Ferrón, Sara; García, Gerardo Azócar; Glockzin, Michael; Karl, David M.; Kock, Annette; Laperriere, Sarah M.; Law, Cliff S.; Manning, Cara C.; Marriner, Andrew; Myllykangas, Jukka-Pekka; Pohlman, John W.; Santoro, Alyson E.; Tortell, Philippe D.; Upstill‐Goddard, Robert C.; Wisegarver, David P.; Zhang, Guiling; Rehder, Gregor

doi:10.5194/bg-15-5891-2018

Cited by 56 publications

(52 citation statements)

References 47 publications

(63 reference statements)

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“…These comparably high relative errors most probably resulted from the long storage time (6-7 months after sampling) for some of the samples. The higher mean measurement error of the CH 4 samples (compared to the N 2 O measurements) was attributed to the fact that CH 4 samples are more sensitive to storage time than N 2 O samples (Wilson et al, 2018).…”

Section: Areas Remarks Classificationmentioning

confidence: 99%

Nitrous oxide (N2O) and methane (CH4) in rivers and estuaries of northwestern Borneo

et al. 2019

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Abstract. Nitrous oxide (N2O) and methane (CH4) are atmospheric trace gases which play important roles in the climate and atmospheric chemistry of the Earth. However, little is known about their emissions from rivers and estuaries, which seem to contribute significantly to the atmospheric budget of both gases. To this end concentrations of N2O and CH4 were measured in the Rajang, Maludam, Sebuyau and Simunjan rivers draining peatland in northwestern (NW) Borneo during two campaigns in March and September 2017. The Rajang River was additionally sampled in August 2016 and the Samunsam and Sematan rivers were additionally sampled in March 2017. The Maludam, Sebuyau, and Simunjan rivers are typical “blackwater” rivers with very low pH (3.7–7.8), very high dissolved organic carbon (DOC) concentrations (235–4387 mmol L−1) and very low O2 concentrations (31–246 µmol L−1; i.e. 13 %–116 % O2 saturation). The spatial and temporal variability of N2O and CH4 concentrations (saturations) in the six rivers or estuaries was large and ranged from 2.0 nmol L−1 (28 %) to 41.4 nmol L−1 (570 %) and from 2.5 nmol L−1 (106 %) to 1372 nmol L−1 (57 459 %), respectively. We found no overall trends of N2O with O2 or NO3-, NO2- or NH4+, and there were no trends of CH4 with O2 or dissolved nutrients or DOC. N2O concentrations showed a positive linear correlation with rainfall. We conclude, therefore, that rainfall is the main factor determining the riverine N2O concentrations since N2O production or consumption in the blackwater rivers themselves seems to be low because of the low pH. CH4 concentrations were highest at salinity = 0 and most probably result from methanogenesis as part of the decomposition of organic matter under anoxic conditions. CH4 in the concentrations in the blackwater rivers showed an inverse relationship with rainfall. We suggest that CH4 oxidation in combination with an enhanced river flow after the rainfall events might be responsible for the decrease in the CH4 concentrations. The rivers and estuaries studied here were an overall net source of N2O and CH4 to the atmosphere. The total annual N2O and CH4 emissions were 1.09 Gg N2O yr−1 (0.7 Gg N yr−1) and 23.8 Gg CH4 yr−1, respectively. This represents about 0.3 %–0.7 % of the global annual riverine and estuarine N2O emissions and about 0.1 %–1 % of the global riverine and estuarine CH4 emissions. Therefore, we conclude that rivers and estuaries in NW Borneo – despite the fact their water area covers only 0.05 % of the global river/estuarine area – contribute significantly to global riverine and estuarine emissions of N2O and CH4.

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Section: Areas Remarks Classificationmentioning

confidence: 99%

Nitrous oxide (N2O) and methane (CH4) in rivers and estuaries of northwestern Borneo

et al. 2019

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“…An important next step was the fundamental work on N 2 O solubility in seawater (Weiss and Price, 1980), which promoted the development of equilibration techniques for high-resolution surveys of the surface ocean (Weiss et al, 1992) (see section "Continuous Surface Measurements") and water column N 2 O (Butler et al, 1989;Butler and Elkins, 1991). Today, GC-ECD analysis, coupled to headspace equilibration or purge-and-trap techniques, is used by the majority of laboratories worldwide for quantifying dissolved N 2 O in discrete seawater samples (Wilson et al, 2018). Even so, mass spectrometric analysis of N 2 O is becoming increasingly wide-spread (Capelle et al, 2015;Babbin et al, 2017;Bourbonnais et al, 2017) and may become increasingly important in the future.…”

Section: Discrete Measurementsmentioning

confidence: 99%

“…An inter-laboratory comparison of oceanic N 2 O measurements was recently conducted by the Scientific Committee on Oceanic Research (SCOR) international Working Group (WG) 143 2 . Discrete water samples from the subtropical Pacific Ocean and the Baltic Sea were distributed to participating laboratories (Wilson et al, 2018) for a comparison of accuracy and precision. The samples represented a range of N 2 O concentrations, from low concentrations in the oligotrophic open ocean to high concentrations in highly productive and suboxic coastal waters.…”

Section: Discrete Measurementsmentioning

confidence: 99%

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A Harmonized Nitrous Oxide (N2O) Ocean Observation Network for the 21st Century

et al. 2019

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Nitrous oxide (N 2 O) is an important atmospheric trace gas involved in tropospheric warming and stratospheric ozone depletion. Estimates of the global ocean contribution to N 2 O emissions average 21% (range: 10 to 53%). Ongoing environmental changes such as warming, deoxygenation and acidification are affecting oceanic N 2 O cycling and emissions to the atmosphere. International activities over the last decades aimed at improving estimates of global N 2 O emissions, including (i) the MarinE MethanE and NiTrous Oxide database (MEMENTO) for archiving of quality-controlled data, and (ii) a recent large-scale inter-laboratory comparison by Working Group 143 of the Scientific Committee on Ocean Research (SCOR). To reduce uncertainties in oceanic N 2 O emission estimates and to characterize the spatial and temporal variability in N 2 O distributions in a changing ocean, we propose the establishment of a harmonized N 2 O Observation Network (N2O-ON) combining discrete and continuous data from various platforms. The network will integrate observations obtained by calibrated techniques, using time series measurements at fixed stations and repeated hydrographic sections on voluntary observing ships and research vessels. In addition to exploiting existing oceanographic infrastructure, we propose the establishment of central calibration facilities in selected international laboratories to improve accuracy, and ensure standardization and comparability of N 2 O measurements. Final data products will include a harmonized global N 2 O concentration and emission fields for use in model validation and projections of future oceanic N 2 O emissions, to inform the global research community and policy makers.

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“…Standard curves were prepared using a Praxair certified gas standard tank (±5% accuracy for CH4 and N2O) and airequilibrated water samples were run daily to verify the accuracy of the system. The laboratory has been involved in international intercalibration exercises for oceanic CH4 and N2O measurements (Wilson et al, 2018). Duplicate samples were collected and duplicates with poor precision, as well as samples with clear evidence of air contamination were eliminated from the data set.…”

Section: Site Descriptionmentioning

confidence: 99%

River inflow dominates methane emissions in an Arctic coastal system

Manning¹,

Preston²,

Jones³

et al. 2019

Preprint

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Measurements of greenhouse gases in Arctic waters are strongly biased toward low-ice summer conditions, with few observations during periods of seasonal ice retreat. We present a year-round time series of dissolved methane (CH4) and nitrous oxide (N2O), along with targeted observations during ice melt of CH4 and carbon dioxide (CO2) in a river and estuary adjacent to Cambridge Bay, Nunavut, Canada. CH4 displayed dramatic seasonality, in contrast to limited seasonal changes in N2O. During the river freshet, CH4 concentrations in the river and ice-covered estuary were up to 240,000% saturation and 19,000% saturation, respectively, but quickly dropped by >100-fold following ice melt. Observations with a robotic kayak revealed that river-derived CH4 and CO2 were transported to the estuary and rapidly ventilated to the atmosphere once ice cover retreated. We estimate that river discharge accounts for >95% of annual CH4 sea-to-air emissions from the estuary.

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An intercomparison of oceanic methane and nitrous oxide measurements

Cited by 56 publications

References 47 publications

Nitrous oxide (N<sub>2</sub>O) and methane (CH<sub>4</sub>) in rivers and estuaries of northwestern Borneo

Nitrous oxide (N<sub>2</sub>O) and methane (CH<sub>4</sub>) in rivers and estuaries of northwestern Borneo

A Harmonized Nitrous Oxide (N2O) Ocean Observation Network for the 21st Century

River inflow dominates methane emissions in an Arctic coastal system

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An intercomparison of oceanic methane and nitrous oxide measurements

Cited by 56 publications

References 47 publications

Nitrous oxide (N&lt;sub&gt;2&lt;/sub&gt;O) and methane (CH&lt;sub&gt;4&lt;/sub&gt;) in rivers and estuaries of northwestern Borneo

Nitrous oxide (N&lt;sub&gt;2&lt;/sub&gt;O) and methane (CH&lt;sub&gt;4&lt;/sub&gt;) in rivers and estuaries of northwestern Borneo

A Harmonized Nitrous Oxide (N2O) Ocean Observation Network for the 21st Century

River inflow dominates methane emissions in an Arctic coastal system

Contact Info

Product

Resources

About

Nitrous oxide (N<sub>2</sub>O) and methane (CH<sub>4</sub>) in rivers and estuaries of northwestern Borneo

Nitrous oxide (N<sub>2</sub>O) and methane (CH<sub>4</sub>) in rivers and estuaries of northwestern Borneo