Suto Hiroshi, Kuze Akihiko, Matsumoto Ayako, Oda Tomohiro, Mori Shigetaka, Miyashita Yohsuke, Hoshino Chiharu, Shigetoh Mayumi, Kataoka Fumie, Tsubakihara Yasuhiro
Japan Aerospace Exploration Agency (JAXA), Tsukuba, Japan.
ANA Holdings Inc., Tokyo, Japan.
Carbon Balance Manag. 2024 Aug 16;19(1):27. doi: 10.1186/s13021-024-00273-1.
The Greenhouse gas Observations of Biospheric and Local Emissions from the Upper sky (GOBLEU) is a new joint project by Japan Aerospace Exploration Agency (JAXA) and ANA HOLDING INC. (ANAHD), which operates ANA flights. GOBLEU aims to visualizes our climate mitigation effort progress in support of subnational climate mitigation by collecting greenhouse gas (GHG) data as well as relevant data for emissions (nitrous dioxide, NO) and removals (Solar-Induced Fluorescence, SIF) from regular passenger flights. We developed a luggage-sized instrument based on the space remote-sensing techniques that JAXA has developed for Japan's Greenhouse gas Observing SATellite (GOSAT). The instrument can be conveniently installed on a coach-class passenger seat without modifying the seat or the aircraft.
The first GOBLEU observation was made on the flight from the Tokyo Haneda Airport to the Fukuoka Airport, with only the NO module activated. The collected high-spatial-resolution NO data were compared to that from the TROPOspheric Monitoring Instrument (TROPOMI) satellite and surface NO data from ground-based air quality monitoring stations. While GOBLEU and TROPOMI data shared the major concentration patterns largely driven by cities and large point sources, regardless of different observation times, we found fine-scale concentration pattern differences, which might be an indication of potential room for GOBLEU to bring in new emission information and thus is worth further examination. We also characterized the levels of NO spatial correlation that change over time. The quickly degrading correlation level of GOBLEU and TROPOMI suggests a potentially significant impact of the time difference between CO and NO as an emission marker and, thus, the significance of co-located observations planned by future space missions.
GOBLEU proposes aircraft-based, cost-effective, frequent monitoring of greenhouse emissions by GOBLEU instruments carried on regular passenger aircraft. Theoretically, the GOBLEU instrument can be installed and operated in most commercially used passenger aircraft without modifications. JAXA and ANAHD wish to promote the observation technique by expanding the observation coverage and partnership to other countries by enhancing international cooperation under the Paris Agreement.
上层大气生物圈与本地排放温室气体观测(GOBLEU)是日本宇宙航空研究开发机构(JAXA)与运营全日空航班的全日空控股公司(ANAHD)开展的一个新的联合项目。GOBLEU旨在通过收集温室气体(GHG)数据以及定期客运航班排放(二氧化氮,NO)和清除(太阳诱导荧光,SIF)的相关数据,直观呈现我们在支持地方层面气候减缓方面的气候减缓努力进展。我们基于JAXA为日本温室气体观测卫星(GOSAT)开发的空间遥感技术,研制了一种行李箱大小的仪器。该仪器可方便地安装在经济舱乘客座椅上,无需对座椅或飞机进行改装。
GOBLEU的首次观测是在从东京羽田机场飞往福冈机场的航班上进行的,当时仅激活了NO模块。将收集到的高空间分辨率NO数据与对流层监测仪器(TROPOMI)卫星的数据以及地面空气质量监测站的地面NO数据进行了比较。尽管GOBLEU和TROPOMI数据在很大程度上共享了由城市和大型点源驱动的主要浓度模式,且观测时间不同,但我们发现了细粒度浓度模式差异,这可能表明GOBLEU有潜力带来新的排放信息,因此值得进一步研究。我们还对随时间变化的NO空间相关性水平进行了表征。GOBLEU和TROPOMI之间迅速下降的相关性水平表明,作为排放标志物的一氧化碳和一氧化氮之间的时间差可能产生潜在重大影响,因此,未来太空任务计划进行的同步观测具有重要意义。
GOBLEU提议通过定期客机搭载的GOBLEU仪器对温室气体排放进行基于飞机的、经济高效的频繁监测。从理论上讲,GOBLEU仪器无需改装即可安装并运行于大多数商用客机上。JAXA和ANAHD希望通过根据《巴黎协定》加强国际合作,扩大观测覆盖范围并与其他国家建立伙伴关系,来推广这种观测技术。
