Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands
<p>Nitrous oxide (<span class="inline-formula">N<sub>2</sub>O</span>) is a potent greenhouse gas emitted by oceanic and terrestrial sources, and its biogeochemical cycle is influenced by both natural processes and anthropogenic activities. Current atmospheric...
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Copernicus Publications
2025-05-01
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| Series: | Atmospheric Chemistry and Physics |
| Online Access: | https://acp.copernicus.org/articles/25/4703/2025/acp-25-4703-2025.pdf |
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| author | T. Cinay D. Young N. Narváez Jimenez C. Vintimilla-Palacios A. Pila Alonso P. B. Krummel W. Vizuete A. R. Babbin |
| author_facet | T. Cinay D. Young N. Narváez Jimenez C. Vintimilla-Palacios A. Pila Alonso P. B. Krummel W. Vizuete A. R. Babbin |
| author_sort | T. Cinay |
| collection | DOAJ |
| description | <p>Nitrous oxide (<span class="inline-formula">N<sub>2</sub>O</span>) is a potent greenhouse gas emitted by oceanic and terrestrial sources, and its biogeochemical cycle is influenced by both natural processes and anthropogenic activities. Current atmospheric <span class="inline-formula">N<sub>2</sub>O</span> monitoring networks, including tall-tower and flask measurements, often overlook major marine hotspots, such as the eastern tropical Pacific Ocean. We present the first 15 months of high-frequency continuous measurements of <span class="inline-formula">N<sub>2</sub>O</span> and carbon monoxide from the newly established Galapagos Emissions Monitoring Station in the region. Over this period, <span class="inline-formula">N<sub>2</sub>O</span> mole fractions vary by approximately 5 ppb, influenced by seasonal trade winds, local anthropogenic emissions, and air masses transported from marine <span class="inline-formula">N<sub>2</sub>O</span> emission hotspots. Notably, between February and April 2024, we observe high variability linked to the southward shift of the intertropical convergence zone and weakened trade winds over the Galapagos Islands. Increased variability during this period is driven by stagnant local winds, which accumulate emissions, and the mixing of air masses with different <span class="inline-formula">N<sub>2</sub>O</span> contents from the Northern Hemisphere and the Southern Hemisphere. The remaining variability is primarily due to differences in air mass transport and heterogeneity in surface fluxes from the eastern tropical Pacific. Air masses passing over the Peruvian and Chilean upwelling systems – key sources of oceanic <span class="inline-formula">N<sub>2</sub>O</span> efflux – show markedly higher <span class="inline-formula">N<sub>2</sub>O</span> mole fractions at the station.</p> |
| format | Article |
| id | doaj-art-74e2e2d70de74f1b8bee286c13402427 |
| institution | DOAJ |
| issn | 1680-7316 1680-7324 |
| language | English |
| publishDate | 2025-05-01 |
| publisher | Copernicus Publications |
| record_format | Article |
| series | Atmospheric Chemistry and Physics |
| spelling | doaj-art-74e2e2d70de74f1b8bee286c134024272025-08-20T03:11:29ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242025-05-01254703471810.5194/acp-25-4703-2025Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos IslandsT. Cinay0D. Young1N. Narváez Jimenez2C. Vintimilla-Palacios3A. Pila Alonso4P. B. Krummel5W. Vizuete6A. R. Babbin7Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA, USA School of Chemistry, University of Bristol, Bristol, UKGalapagos Science Center (GSC), Universidad San Francisco de Quito (USFQ) and UNC-Chapel Hill, Puerto Baquerizo Moreno, Galapagos, EcuadorGalapagos Science Center (GSC), Universidad San Francisco de Quito (USFQ) and UNC-Chapel Hill, Puerto Baquerizo Moreno, Galapagos, EcuadorGalapagos Science Center (GSC), Universidad San Francisco de Quito (USFQ) and UNC-Chapel Hill, Puerto Baquerizo Moreno, Galapagos, EcuadorCSIRO Environment, Aspendale, Victoria, AustraliaDepartment of Environmental Sciences and Engineering, University of North Carolina, Chapel Hill, NC, USADepartment of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA, USA <p>Nitrous oxide (<span class="inline-formula">N<sub>2</sub>O</span>) is a potent greenhouse gas emitted by oceanic and terrestrial sources, and its biogeochemical cycle is influenced by both natural processes and anthropogenic activities. Current atmospheric <span class="inline-formula">N<sub>2</sub>O</span> monitoring networks, including tall-tower and flask measurements, often overlook major marine hotspots, such as the eastern tropical Pacific Ocean. We present the first 15 months of high-frequency continuous measurements of <span class="inline-formula">N<sub>2</sub>O</span> and carbon monoxide from the newly established Galapagos Emissions Monitoring Station in the region. Over this period, <span class="inline-formula">N<sub>2</sub>O</span> mole fractions vary by approximately 5 ppb, influenced by seasonal trade winds, local anthropogenic emissions, and air masses transported from marine <span class="inline-formula">N<sub>2</sub>O</span> emission hotspots. Notably, between February and April 2024, we observe high variability linked to the southward shift of the intertropical convergence zone and weakened trade winds over the Galapagos Islands. Increased variability during this period is driven by stagnant local winds, which accumulate emissions, and the mixing of air masses with different <span class="inline-formula">N<sub>2</sub>O</span> contents from the Northern Hemisphere and the Southern Hemisphere. The remaining variability is primarily due to differences in air mass transport and heterogeneity in surface fluxes from the eastern tropical Pacific. Air masses passing over the Peruvian and Chilean upwelling systems – key sources of oceanic <span class="inline-formula">N<sub>2</sub>O</span> efflux – show markedly higher <span class="inline-formula">N<sub>2</sub>O</span> mole fractions at the station.</p>https://acp.copernicus.org/articles/25/4703/2025/acp-25-4703-2025.pdf |
| spellingShingle | T. Cinay D. Young N. Narváez Jimenez C. Vintimilla-Palacios A. Pila Alonso P. B. Krummel W. Vizuete A. R. Babbin Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands Atmospheric Chemistry and Physics |
| title | Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands |
| title_full | Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands |
| title_fullStr | Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands |
| title_full_unstemmed | Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands |
| title_short | Marine emissions and trade winds control the atmospheric nitrous oxide in the Galapagos Islands |
| title_sort | marine emissions and trade winds control the atmospheric nitrous oxide in the galapagos islands |
| url | https://acp.copernicus.org/articles/25/4703/2025/acp-25-4703-2025.pdf |
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