In the ongoing effort to address global climate change, several cities are taking actions to strive for carbon neutrality. Recently, urban vegetation has gained attention in cities’ climate action plans as a vital strategy for enhancing carbon sequestration from the atmosphere. To support the cities, a detailed knowledge of the strength and variability of urban biogenic carbon sinks is needed. Biogenic carbon sequestration are essential also for distinguishing anthropogenic carbon emissions from biogenic fluxes in atmospheric observations.
@misc{https://hdl.handle.net/11676/382RZl3_uUh-dNuaxtkj7jt5,
author={Järvi, Leena and Karvonen, Anni and Havu, Minttu and Strömberg, Jani and Kaltiainen, Aino and Li, Junwei and Chen, Jia and Brunner, Dominik and Ponomarev, Nikolai},
year={2025},
url={https://hdl.handle.net/11676/382RZl3_uUh-dNuaxtkj7jt5},
publisher={Carbon Portal},
copyright={http://meta.icos-cp.eu/ontologies/cpmeta/icosLicence},
pid={11676/382RZl3_uUh-dNuaxtkj7jt5}
}
TY - DATA ID - 11676/382RZl3_uUh-dNuaxtkj7jt5 PY - 2025 UR - https://hdl.handle.net/11676/382RZl3_uUh-dNuaxtkj7jt5 PB - Carbon Portal AU - Järvi, Leena AU - Karvonen, Anni AU - Havu, Minttu AU - Strömberg, Jani AU - Kaltiainen, Aino AU - Li, Junwei AU - Chen, Jia AU - Brunner, Dominik AU - Ponomarev, Nikolai ER -
PAUL, Pilot Applications in Urban Landscapes - Towards integrated city observatories for greenhouse gases (ICOS Cities), has received funding
from the European Union’s Horizon 2020 Research and Innovation Programme under grant agreement No 101037319.