10 Emerging Technology Solutions for Planetary Health 2025

55. Simon, M. (2023). Hey EV owners: It’d take a fraction of you to prop up the grid. Wired. https://www.wired.com/story/ hey-ev-owners-itd-take-a-fraction-of-you-to-prop-up-the-grid/. 56. Pecan Street. (2019). Pecan Street launches Texas’ first grid-connected vehicle-to-grid research and testing center. https://www.pecanstreet.org/2019/02/v2g-2/. 57. ACT Government (Acknowledgement of Country Government). (2024). EVs assist during Australia-wide blackout. https://www.act.gov.au/our-canberra/latest-news/2024/july/evs-assist-during-australia-wide-blackout . 58. Hou, L., Dong, J., Herrera, O. & Mérida, W. (2023). Energy management for solar-hydrogen microgrids with vehicle-to- grid and power-to-gas transactions. International Journal of Hydrogen Energy, vol. 48, no.5, pp. 2013-2029. https://doi.org/10.1016/j.ijhydene.2022.09.238. 59. Wohlschlager, D. et al. (2024). Environmental effects of vehicle-to-grid charging in future energy systems – A prospective life cycle assessment. Applied Energy, vol. 370. https://doi.org/10.1016/j.apenergy.2024.123618. 60. World Economic Forum. (2024). Charting the Future of Earth Observation: Technology Innovation for Climate Intelligence. https://www.weforum.org/publications/charting-the-future-of-earth-observation/. 61. Destination Earth. (n.d.). Building a highly accurate digital twin of the Earth. https://destination-earth.eu/. 62. The European Space Agency. (n.d.). ESA’s Digital Twin Earth programme: building a virtual model for a changing planet. https://www.esa.int/Applications/Observing_the_Earth/ESA_s_Digital_Twin_Earth_programme_building_a_virtual_model_ for_a_changing_planet. 63. Brocca, L. et al. (2024). A Digital Twin of the terrestrial water cycle: A glimpse into the future through high-resolution Earth observations. Frontiers in Science, vol. 1. https://doi.org/10.3389/fsci.2023.1190191. 64. Open Earth Monitor. (2022). Open-Earth-Monitor project. https://earthmonitor.org/. 65. Open Earth Monitor. (n.d.). Discover and empower with monitoring solutions. https://app.earthmonitor.org/. 66. Gutiérrez-Negrín, L. (2024). Evolution of worldwide geothermal power 2020–2023. Geothermal Energy, vol. 12, no. 14. https://doi.org/10.1186/s40517-024-00290-w . 67. International Energy Agency (IEA). (n.d.). Global geothermal potential for electricity generation using EGS technologies. https://www.iea.org/reports/the-future-of-geothermal-energy/global-geothermal-potential-for-electricity-generation-using- egs-technologies#abstract. 68. Guidi, G., Violante, A. & De Iuliis, S. (2023). Environmental impact of electricity generation technologies: A comparison between conventional, nuclear, and renewable technologies. Energies, vol. 16, no. 23. https://doi.org/10.3390/en16237847. 69. Eavor. (2025). Closed-loop geothermal technology for a 24/7 carbon-free and secure energy future. https://eavor.com/technology/. 70. Utility Dive. (2023). Fervo Energy sees ‘breakthrough’ in enhanced geothermal technology, opening path for firm, clean power. https://www.utilitydive.com/news/fervo-energy-enhanced-geothermal-system-google/688620/. 71. Vincent, M. (2023). Google, Fervo turn up geothermal energy system to support Nevada data centers. Data Center Frontier. https://www.datacenterfrontier.com/energy/article/33015664/google-fervo-turn-up-geothermal-energy-system-to- support-nevada-data-centers. 72. Rystad Energy. (2023). Full steam ahead: Europe to spend $7.4 billion on geothermal heating, capacity to reach 6.2 GWt by 2030. https://www.rystadenergy.com/news/full-steam-ahead-europe-to-spend-7-4-billion-on-geothermal-heating- capacity-to-re. 73. Vattenfall. (2024). Year-End Report 2024. https://group.vattenfall.com/siteassets/corporate/investors/interim_ reports/2024/q4_report_2024.pdf. 74. Dandelion. (2025, April 2). Dandelion Energy and Lennar announce one of the largest residential geothermal deployments in US history. https://dandelionenergy.com/dandelion-energy-and-lennar-announce-one-of-the-largest-residential- geothermal-deployments-in-us-history. 75. ECOMONDO. (2025). Desalination in North Africa and the Middle East. https://www.ecomondo.com/en/news-detail/ desalination-in-north-africa-and-the-middle-east?newsId=2252803#. 76. Global Water Intelligence. (2024). IDRA Desalination and Reuse Handbook 2024-2025. https://www.globalwaterintel.com/ documents/the-idra-desalination-and-reuse-handbook-2024-2025. 77. Al-Addous, M. et al. (2024). Innovations in solar-powered desalination: A comprehensive review of sustainable solutions for water scarcity in the middle east and north africa (Mena) region. Water, vol. 16, no. 13. https://doi.org/10.3390/w16131877. 78. Alkaisi, A., Mossad, R. & Sharifian-Barforoush, A. (2017). A review of the water desalination systems integrated with renewable energy. Energy Procedia, vol. 110, pp. 268-274. https://doi.org/10.1016/j.egypro.2017.03.138. 79. Virruso, G. et al. (2024). A pilot plant investigation on a real seawater brine valorisation via electrodialysis with bipolar membranes. Watermining. https://watermining.eu/a-pilot-plant-investigation-on-a-real-seawater-brine-valorisation-via- electrodialysis-with-bipolar-membranes/. 80. Morgante, C. et al. (2024). Pioneering minimum liquid discharge desalination: A pilot study in lampedusa island. Watermining. https://watermining.eu/pioneering-minimum-liquid-discharge-desalination-a-pilot-study-in-lampedusa-island/. 81. Desolenator. (2020). Protecting our future. https://www.desolenator.com/impact/the-water-crisis. 10 Emerging Technology Solutions for Planetary Health 43