The Eu's Foray into Earth Sciences
DOI: 10.54647/management630155 18 Downloads 937 Views
Author(s)
Abstract
This article explores the European Union's (EU) strategic foray into Earth sciences, emphasizing the importance of Earth Observation initiatives, public engagement, and collaborative research. It examines the EU's efforts to enhance data quality, accessibility, and technological advancements in Earth sciences. The EU's commitment to interdisciplinary research, governance, and addressing environmental challenges is evident throughout the document. Furthermore, it introduces the "Destination Earth" program, an ambitious initiative to create a digital replica of the Earth by 2030, aiming to monitor, simulate, and predict interactions between natural phenomena and human activities.
Keywords
EU, ESM-MODELS, DATA GOVERNANCE, PUBLIC POLICY LEADERSHIP
Cite this paper
Christian Ilcus,
The Eu's Foray into Earth Sciences
, SCIREA Journal of Management.
Volume 9, Issue 2, April 2025 | PP. 53-188.
10.54647/management630155
References
| [ 1 ] | Anderson, Katherne , Barbara Ryan, William Sonntag, Argyro Kavvada, and Lawrence Friedl “Earth observation in service of the 2030 Agenda for Sustainable Development” , Geo-spatial Information Science, https://doi.org/10.1080/10095020.2017.1333230 |
| [ 2 ] | Adie, Jeff & See, Simon “Challenges and Opportunities for hybrid modelling approach to earth system science” CCF Tras.HPC, 2021[online] https://doi.org/10.1007/s42514-021-00071-y |
| [ 3 ] | Bertrand & Legendre Earth – Our Living Planet – The Earth System our Living Planet, 2021. |
| [ 4 ] | Boukalas, Christos Biosecurity, Economic Collapse, the State to Come: Political Power in the Pandemic and Beyond , Routledtge,2022. |
| [ 5 ] | Bonvillian, William & Weiss, Charles Structurering an Energy Technology Revolution, MIT, 2009. |
| [ 6 ] | Camps-Valls, Gustau Hybrid and causal machine learning in the Earth Sciences, [online] https://www.i-aida.org/wp-content/uploads/2023/11/HybridCausal_16_01_2024_45min_v2_shorter_compressed-1-1.pdf |
| [ 7 ] | Gao, Bingbo, Yang, Jianyu, Chen, Ziyhue, Sugihara, George, Wang, Jinfeng “causal inference from cross-sectional earth system data with geographical convergent cross mapping, Nature Communications, [online] https://doi.org/10.1038/s4147-023-41619-6 |
| [ 8 ] | Godzmirski, Jakub Global Environmental Politics: Concepts, Theories and Case Studies, 2016. |
| [ 9 ] | J van Zeben, A Rowell A Guide to Eu Environmental Law, 2020. |
| [ 10 ] | Hannah Augustin, Andrea Baraldi & Thomas Blaschke “ Big Earth data: disruptive changes in Earth observation data management and analysis?”, International Journal of Digital Earth, https://doi.org/10.1080/17538947.2019.1585976 |
| [ 11 ] | Kütting, Gabriela Herman, Kyle Global Environmental Politics: Concepts, Theories and Case Studies, 2018. |
| [ 12 ] | Tesch, Tobias, Kollet, Stefan Garcke, Jochen ” Causal deep learning models for studying the Earth System, Geoscience Model Development, 2023 [online] https://doi.org/10.5194/gmd-16-2149-2023 |
| [ 13 ] | Witjes- Klimburg, Nina Shifting articulations of space and security: boundary work in European space policy making, European Security, 2021, DOI:10.1080/09662839.2021.1890039 |
| [ 14 ] | Zhou, Youlian, Wei, Xiangsong “Worldwide research on extraction a recovery of cobalt through bibliometric analysis: a review, Environmental Science and Pollution Research, vol. 30, 2023. |