https://cdn.earthdata.nasa.gov/conduit/upload/5182/KeywordsCommunityGuide_Baseline_v1_SIGNED_FINAL.pdf draft 2025-07-25 https://gcmd.earthdata.nasa.gov/KeywordViewer/scheme/projects/258fbd3e-3848-4d0c-885c-5704256b5bc4 ACCLIP Date=2021-09-20 User Id=tstevens Entity=AltLabel Operation=INSERT System Note=insert AltLabel New Value=id: null category: primary text: Asian Summer Monsoon Chemical and CLimate Impact Project language code: en Date=2021-09-20 User Id=tstevens Entity=BroaderRelation Operation=INSERT User Note=Insert Concept System Note=add broader relation New Value=ACCLIP [258fbd3e-3848-4d0c-885c-5704256b5bc4,749510] - A - C [0c89f3f4-7ab1-43ce-89ee-795d35f0e30a,742679] Date=2026-02-05 User Id=tstevens User Note=added definition Date=2021-09-20 User Id=tstevens Entity=Definition Operation=INSERT System Note=insert Definition New Value=id: null text: The National Aeronautics and Space Administration (NASA) and the National Center for Atmospheric Research (NCAR) will conduct a two-month campaign in Summer 2022* in the Republic of Korea: the Asian Summer Monsoon Chemical & CLimate Impact Project (ACCLIP). Two aircraft (the NASA WB-57 and the NCAR G-V), outfitted with state-of-the-art sensors, and approximately 80 scientists from the US and other international research organizations will participate in ACCLIP. The Asian Summer Monsoon (ASM) is the largest meteorological pattern in the Northern Hemisphere (NH) summer season. Persistent convection and the large anticyclonic flow pattern in the upper troposphere and lower stratosphere (UTLS) associated with ASM leads to a significant enhancement in the UTLS of trace species from pollution and biomass burning origins. The monsoon convection occurs over South, Southeast, and East Asia, a region of uniquely complex and rapidly changing emissions tied to both its high population density and significant economic growth. The coupling of the most polluted boundary layer on Earth to the largest dynamical system in the summer season through the deep monsoon convection has the potential to create significant chemical and climate impacts. An accurate representation of the ASM transport, chemical and microphysical processes in chemistry-climate models is much needed for characterizing ASM chemistry-climate interactions and for predicting its future impact in a changing climate. language code: en The National Aeronautics and Space Administration (NASA) and the National Center for Atmospheric Research (NCAR) conducted a two-month campaign in Summer 2022 in the Republic of Korea: the Asian Summer Monsoon Chemical & CLimate Impact Project (ACCLIP). Two aircraft (the NASA WB-57 and the NCAR G-V), outfitted with state-of-the-art sensors, and approximately 80 scientists from the US and other international research organizations participated in ACCLIP. The Asian Summer Monsoon (ASM) is the largest meteorological pattern in the Northern Hemisphere (NH) summer season. Persistent convection and the large anticyclonic flow pattern in the upper troposphere and lower stratosphere (UTLS) associated with ASM leads to a significant enhancement in the UTLS of trace species from pollution and biomass burning origins. The monsoon convection occurs over South, Southeast, and East Asia, a region of uniquely complex and rapidly changing emissions tied to both its high population density and significant economic growth. The coupling of the most polluted boundary layer on Earth to the largest dynamical system in the summer season through the deep monsoon convection has the potential to create significant chemical and climate impacts. An accurate representation of the ASM transport, chemical and microphysical processes in the chemistry-climate models is much needed for characterizing ASM chemistry-climate interactions and for predicting its future impact in a changing climate. 2026-02-05T13:16:14.287Z