TY - JOUR
T1 - The Atmospheric Imaging Mission for Northern Regions
T2 - AIM-North
AU - Nassar, Ray
AU - McLinden, Chris
AU - Sioris, Christopher E.
AU - McElroy, C. T.
AU - Mendonca, Joseph
AU - Tamminen, Johanna
AU - MacDonald, Cameron G.
AU - Adams, Cristen
AU - Boisvenue, Céline
AU - Bourassa, Adam
AU - Cooney, Ryan
AU - Degenstein, Doug
AU - Drolet, Guillaume
AU - Garand, Louis
AU - Girard, Ralph
AU - Johnson, Markey
AU - Jones, Dylan B.A.
AU - Kolonjari, Felicia
AU - Kuwahara, Bruce
AU - Martin, Randall V.
AU - Miller, Charles E.
AU - O’Neill, Norman
AU - Riihelä, Aku
AU - Roche, Sébastien
AU - Sander, Stanley P.
AU - Simpson, William R.
AU - Singh, Gurpreet
AU - Strong, Kimberly
AU - Trishchenko, Alexander P.
AU - van Mierlo, Helena
AU - Zanjani, Zahra Vaziri
AU - Walker, Kaley A.
AU - Wunch, Debra
N1 - Publisher Copyright:
© 2019, © 2019 Copyright of the Crown in Canada. Climate Research Division.
PY - 2019/7/4
Y1 - 2019/7/4
N2 - AIM-North is a proposed satellite mission that would provide observations of unprecedented frequency and density for monitoring northern greenhouse gases (GHGs), air quality (AQ) and vegetation. AIM-North would consist of two satellites in a highly elliptical orbit formation, observing over land from ∼40°N to 80°N multiple times per day. Each satellite would carry a near-infrared to shortwave infrared imaging spectrometer for CO2, CH4, and CO, and an ultraviolet-visible imaging spectrometer for air quality. Both instruments would measure solar-induced fluorescence from vegetation. A cloud imager would make near-real-time observations, which could inform the pointing of the other instruments to focus only on the clearest regions. Multiple geostationary (GEO) AQ and GHG satellites are planned for the 2020s, but they will lack coverage of northern regions like the Arctic. AIM-North would address this gap with quasi-geostationary observations of the North and overlap with GEO coverage to facilitate intercomparison and fusion of these datasets. The resulting data would improve our ability to forecast northern air quality and quantify fluxes of GHG and AQ species from forests, permafrost, biomass burning and anthropogenic activity, furthering our scientific understanding of these processes and supporting environmental policy.
AB - AIM-North is a proposed satellite mission that would provide observations of unprecedented frequency and density for monitoring northern greenhouse gases (GHGs), air quality (AQ) and vegetation. AIM-North would consist of two satellites in a highly elliptical orbit formation, observing over land from ∼40°N to 80°N multiple times per day. Each satellite would carry a near-infrared to shortwave infrared imaging spectrometer for CO2, CH4, and CO, and an ultraviolet-visible imaging spectrometer for air quality. Both instruments would measure solar-induced fluorescence from vegetation. A cloud imager would make near-real-time observations, which could inform the pointing of the other instruments to focus only on the clearest regions. Multiple geostationary (GEO) AQ and GHG satellites are planned for the 2020s, but they will lack coverage of northern regions like the Arctic. AIM-North would address this gap with quasi-geostationary observations of the North and overlap with GEO coverage to facilitate intercomparison and fusion of these datasets. The resulting data would improve our ability to forecast northern air quality and quantify fluxes of GHG and AQ species from forests, permafrost, biomass burning and anthropogenic activity, furthering our scientific understanding of these processes and supporting environmental policy.
UR - https://www.scopus.com/pages/publications/85068501067
U2 - 10.1080/07038992.2019.1643707
DO - 10.1080/07038992.2019.1643707
M3 - Article
AN - SCOPUS:85068501067
SN - 0703-8992
VL - 45
SP - 423
EP - 442
JO - Canadian Journal of Remote Sensing
JF - Canadian Journal of Remote Sensing
IS - 3-4
ER -