Nanopublications LDF server

Matches in Nanopublications for { <https://acp.copernicus.org/articles/24/929/2024/> ?p ?o ?g. }

• 2024 type FAIRDigitalObject assertion.
• 2024 type FAIRDigitalObject assertion.
• 2024 type article assertion.
• 2024 type article assertion.
• 2024 label "Parameterizations of US wildfire and prescribed fire emission ratios and emission factors based on FIREX-AQ aircraft measurements" assertion.
• 2024 label "Parameterizations of US wildfire and prescribed fire emission ratios and emission factors based on FIREX-AQ aircraft measurements" assertion.
• 2024 comment "Extensive airborne measurements from the FIREX-AQ campaign established new parameterizations for US wildfire emissions by correlating primary pollutant levels with modified combustion efficiency. Researchers demonstrated that the sum of primary non-methane organic gas (NMOG) mixing ratios maintains a near-perfect correlation with carbon monoxide ($R^2$ = 0.98), identifying CO as a robust proxy for initializing organic gas emissions in models. Nitrogen-containing species correlate more effectively with nitrogen dioxide and black carbon than with carbon monoxide, reflecting their origin in high-temperature flaming combustion. The findings indicate that nitrogen dioxide typically represents over half of the total reactive nitrogen in fresh plumes, and the ratio of reactive nitrogen to organic gases increases exponentially with combustion efficiency. These parameterizations provide more accurate boundary conditions for predicting the formation of secondary pollutants like ozone downwind of fire events." assertion.
• 2024 comment "Extensive airborne measurements from the FIREX-AQ campaign established new parameterizations for US wildfire emissions by correlating primary pollutant levels with modified combustion efficiency. Researchers demonstrated that the sum of primary non-methane organic gas (NMOG) mixing ratios maintains a near-perfect correlation with carbon monoxide ($R^2$ = 0.98), identifying CO as a robust proxy for initializing organic gas emissions in models. Nitrogen-containing species correlate more effectively with nitrogen dioxide and black carbon than with carbon monoxide, reflecting their origin in high-temperature flaming combustion. The findings indicate that nitrogen dioxide typically represents over half of the total reactive nitrogen in fresh plumes, and the ratio of reactive nitrogen to organic gases increases exponentially with combustion efficiency. These parameterizations provide more accurate boundary conditions for predicting the formation of secondary pollutants like ozone downwind of fire events." assertion.
• 2024 subject c_694 assertion.
• 2024 subject c_694 assertion.
• 2024 creator 0000-0002-4608-3695 assertion.
• 2024 creator 0000-0002-4608-3695 assertion.
• 2024 creator 0000-0002-5763-1925 assertion.
• 2024 creator 0000-0002-5763-1925 assertion.
• 2024 creator 0000-0003-3462-2126 assertion.
• 2024 creator 0000-0003-3462-2126 assertion.
• 2024 publisher 03xphts16 assertion.
• 2024 publisher 03xphts16 assertion.
• 2024 language en assertion.
• 2024 language en assertion.
• 2024 hasMetadata RARRoM-s9w0OJU2uivitAGEw-8D0mQhOug8n3lwq0G-Hw assertion.
• 2024 hasMetadata RAcCGIAZfjI5ZLpdVvZIKQodRqm0qjRzdi_qGdgmjq4YE assertion.
• 2024 funder 03xphts16 assertion.
• 2024 funder 021nxhr62 assertion.
• 2024 contactPoint "g.gkatzelis@juelich.de" assertion.
• 2024 contactPoint "g.gkatzelis@juelich.de" assertion.
• 2024 startDate "2023" assertion.
• 2024 startDate "2023" assertion.
• 2024 endDate "2024-01-23" assertion.
• 2024 endDate "2024-01-23" assertion.