![ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean](https://acp.copernicus.org/articles/20/5573/2020/acp-20-5573-2020-avatar-web.png)
ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean
![ACP - Relations - Columnar and surface urban aerosol in the Moscow megacity according to measurements and simulations with the COSMO-ART model ACP - Relations - Columnar and surface urban aerosol in the Moscow megacity according to measurements and simulations with the COSMO-ART model](https://acp.copernicus.org/articles/22/10443/2022/acp-22-10443-2022-avatar-web.png)
ACP - Relations - Columnar and surface urban aerosol in the Moscow megacity according to measurements and simulations with the COSMO-ART model
![ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean](https://acp.copernicus.org/articles/23/4663/2023/acp-23-4663-2023-avatar-web.png)
ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean
![ACP - Relations - Measurement report: Molecular composition, optical properties, and radiative effects of water-soluble organic carbon in snowpack samples from northern Xinjiang, China ACP - Relations - Measurement report: Molecular composition, optical properties, and radiative effects of water-soluble organic carbon in snowpack samples from northern Xinjiang, China](https://acp.copernicus.org/articles/22/5377/2022/acp-22-5377-2022-avatar-web.png)
ACP - Relations - Measurement report: Molecular composition, optical properties, and radiative effects of water-soluble organic carbon in snowpack samples from northern Xinjiang, China
![ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean](https://acp.copernicus.org/articles/20/5405/2020/acp-20-5405-2020-avatar-web.png)
ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean
![ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean](https://bg.copernicus.org/articles/15/5847/2018/bg-15-5847-2018-avatar-web.png)
ACP - Relations - Measurement report: Summertime fluorescence characteristics of atmospheric water-soluble organic carbon in the marine boundary layer of the western Arctic Ocean
![ACP - Relations - The impact of temperature inversions on black carbon and particle mass concentrations in a mountainous area ACP - Relations - The impact of temperature inversions on black carbon and particle mass concentrations in a mountainous area](https://acp.copernicus.org/articles/22/5577/2022/acp-22-5577-2022-avatar-web.png)
ACP - Relations - The impact of temperature inversions on black carbon and particle mass concentrations in a mountainous area
![51U+umPIQXL._CLa|647,500|61Twoqhs8gL.jpg,41Wuofe+xhL.jpg|0,0,294,500+353,0,294,500+147,0,353,500_._SY200_.jpg 51U+umPIQXL._CLa|647,500|61Twoqhs8gL.jpg,41Wuofe+xhL.jpg|0,0,294,500+353,0,294,500+147,0,353,500_._SY200_.jpg](https://m.media-amazon.com/images/I/51U+umPIQXL._CLa%7C647,500%7C61Twoqhs8gL.jpg,41Wuofe+xhL.jpg%7C0,0,294,500+353,0,294,500+147,0,353,500_._SY200_.jpg)
51U+umPIQXL._CLa|647,500|61Twoqhs8gL.jpg,41Wuofe+xhL.jpg|0,0,294,500+353,0,294,500+147,0,353,500_._SY200_.jpg
![PDF) Lessons from bright-spots for advancing knowledge exchange at the interface of marine science and policy | RAQUEL DE LA CRUZ MODINO - Academia.edu PDF) Lessons from bright-spots for advancing knowledge exchange at the interface of marine science and policy | RAQUEL DE LA CRUZ MODINO - Academia.edu](https://0.academia-photos.com/attachment_thumbnails/105180793/mini_magick20230821-1-srr1aa.png?1692637411)