{"count":10607,"next":"http://onegeo.com/api/organization/section/home/publications?format=json&limit=20&offset=2440&ordering=-link_original","previous":"http://onegeo.com/api/organization/section/home/publications?format=json&limit=20&offset=2400&ordering=-link_original","results":[{"id":"1848fd3d-a980-43a6-a9ec-918679cd0d9d","slug":"how-do-minerals-affect-the-global-energy-transition-metallic-versus-non-metallic-mineral-by-yang-liu-and-orhers-for-sciencedirect-post","created_at":"2025-07-11T11:27:52Z","views":40,"name":"How do minerals affect the global energy transition? Metallic versus non-metallic mineral | by Yang Liu and others for ScienceDirect","about":"This study examines how metallic and non-metallic mineral consumption affects the transition to renewable energy. Using data from 55 countries (2000–2020), it finds that mineral use can hinder progress, with stronger effects in poorly governed nations.","text":"This study explores the impact of metallic and non-metallic mineral consumption on the global transition to renewable energy. Using panel data from 55 countries (2000–2020), it finds that both types of mineral use hinder the energy shift, with metallic minerals having a stronger negative effect. The impact is more severe in countries with weaker governance and intensifies across higher consumption levels. Financial development, human capital, and industrial structure play key moderating roles, though their effects vary. Findings highlight the environmental trade-offs in mineral use and offer insights for more balanced, sustainable energy policies.","link_original":"https://www.sciencedirect.com/science/article/abs/pii/S0301420724003428","status":2,"country":[],"sections":[{"id":139,"name":"Industrial minerals and rocks"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[]},{"id":"f03362be-fa30-4971-aba9-5c8c5874e105","slug":"towards-iron-ore-mining-sustainability-and-low-carbon-transformation-policies-and-implications-by-wen-liu-and-others-post","created_at":"2025-05-29T08:55:04.448180Z","views":16,"name":"Towards iron ore mining sustainability and low-carbon transformation: Policies and implications / by Wen Liu and others","about":"- A 1 % increase in HDI corresponds to a 0.39 % short-term improvement in iron ore mining efficiency.\n\n- The long-term impact reveals a 0.51 % enhancement in iron ore mining efficiency for every 1 % rise in HDI.","text":"From 1995 to 2021, this study investigates the influence of Triple Bottom Line (TBL) factors on the efficiency of iron ore mining across 17 East Asia and Pacific countries. The findings strongly affirm the positive impact of the Human Development Index (HDI), revealing a 0.39 % short-term and 0.51 % long-term enhancement for each 1 % increase in HDI. CO2 emissions negatively affect efficiency, while income level dynamics demonstrate nuanced effects, indicating short-term inefficiencies during rapid economic growth and a long-term positive influence. Green power generation emerges as a positive factor influencing efficiency, highlighting the importance of environmentally sustainable practices. The Consumer Price Index (CPI) exhibits a noticeable adverse impact, suggesting decreased efficiency with a general rise in commodity prices. Practical policy recommendations encompass investments in human development, implementation of carbon reduction policies, diversification of income sources,","link_original":"https://www.sciencedirect.com/science/article/abs/pii/S0301420724001478","status":2,"country":[],"sections":[{"id":138,"name":"Ore minerals"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[]},"filters":[]},{"id":"984d1792-3cfb-4ce4-9018-172377489bfe","slug":"mineral-resource-extraction-and-resource-sustainability-policy-initiatives-for-agriculture-economy-energy-and-the-environment-by-shuang-wang-and-lihong-yang-for-sciencedirect-post","created_at":"2025-07-15T10:24:35Z","views":24,"name":"Mineral resource extraction and resource sustainability: Policy initiatives for agriculture, economy, energy, and the environment | by Shuang Wang and Lihong Yang for ScienceDirect","about":"This study explores the link between mineral depletion and sustainability in China, showing how economic growth and agriculture impact natural resources. It highlights the need for sustainable mining, cleaner energy, and resource-efficient policies.","text":"Mineral resource depletion poses a growing threat to sustainability, especially in China, where mineral extraction is vital to the economy. This study (1971–2019) shows that mineral depletion, agriculture value-added, and GDP growth are positively linked to natural resources, while fossil fuel use and CO₂ emissions negatively affect them. Mining has driven China's development but has also caused major environmental harm—pollution, deforestation, and land degradation. Sustainable extraction, technological innovation, and renewable energy adoption are essential to mitigate these impacts. China's shift toward cleaner energy and efficient resource use is crucial. This research is the first to explore how mineral depletion, agriculture, and economic growth interact in China, highlighting the need for effective policies to preserve natural resources, reduce environmental damage, and support long-term development.","link_original":"https://www.sciencedirect.com/science/article/abs/pii/S0301420724000242","status":2,"country":[{"id":49,"name":"China","icon":""}],"sections":[{"id":76,"name":"Abiotic resource production areas"}],"root_section":{"id":68,"name":"Sustainable Human Habitats"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[{"id":49,"name":"China"}],"regions":[{"id":5,"name":"Asia"}]},"filters":[]},{"id":"53d86875-23aa-40c1-a9b5-e2e7368da1e4","slug":"sustainable-polymers-from-biomass-bridging-chemistry-with-materials-and-processing-by-zhongkai-wang-post","created_at":"2025-04-29T09:18:29.883106Z","views":18,"name":"Sustainable polymers from biomass: Bridging chemistry with materials and processing | by Zhongkai Wang","about":"The article outlines advances in sustainable polymers from renewable resources, emphasizing how monomer chemistry and processing improve material performance across key biopolymer types.","text":"Renewable natural resources, such as plant oils, fatty acids, cellulose, and lignin, have been widely pursued as precursors for manufacturing sustainable polymers. There are many challenges in the production of biobased plastics. This Trend article provides a succinct overview of three major areas: lignin chemistry and polymers, biobased polyolefins, and long-chain aliphatic polycondensates. The emphasis is placed on how chemistries of monomers and polymers improve materials properties in conjunction with processing methods. Each section concludes with challenges and prospects toward better sustainable polymers.","link_original":"https://www.sciencedirect.com/science/article/abs/pii/S0079670019302035#:~:text=This%20Trend%20article%20provides%20a%20succinct%20overview%20of,improve%20materials%20properties%20in%20conjunction%20with%20processing%20methods.","status":2,"country":[],"sections":[{"id":54,"name":"Natural resources and primary materials"}],"root_section":{"id":51,"name":"Industrial Revolution"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[]},"filters":[]},{"id":"636f0b15-2b36-448f-b18d-7be5c13ea9f0","slug":"sustainable-retailing-by-gautham-g-vadakkepatt-and-others-for-sciencedirect-post","created_at":"2025-07-16T10:42:27Z","views":23,"name":"Sustainable Retailing | by Gautham G. Vadakkepatt and others for ScienceDirect","about":"Given their unique position in the supply chain between upstream suppliers and downstream consumers, retailers are key to a circular economy.  By serving as a connection between suppliers and consumers, retailes can help to reduce, reuse, and recycle.","text":"As consumer demand for eco-friendly and socially responsible products grows, retailers play a crucial role in driving sustainability. Positioned between suppliers and consumers, they can enable a circular economy by promoting reduce, reuse, and recycle practices. Retailers can also influence both upstream and downstream partners to adopt sustainable behaviors. However, challenges like short-term focus and siloed efforts hinder large-scale impact. To scale sustainability, retailers must adopt long-term, integrated strategies and foster collaboration across the supply chain. Embracing economic, environmental, and social goals, retailers can lead systemic change, shaping a more sustainable future for business and society.","link_original":"https://www.sciencedirect.com/science/article/abs/pii/S0022435920300713","status":2,"country":[],"sections":[{"id":58,"name":"Retailing: sustainable supply chains"}],"root_section":{"id":51,"name":"Industrial Revolution"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[]},{"id":"53dc51d2-a8d4-4522-a54b-98f23bd287b5","slug":"wind-energy-policy-by-lena-kitzing-and-others-for-sciencedirect-post","created_at":"2025-07-09T11:36:50Z","views":23,"name":"Wind Energy Policy | by Lena Kitzing and others for ScienceDirect","about":"Wind energy is set to expand globally, driven by evolving policies and falling costs. Long-term, consistent policy frameworks are essential to attract investment, support infrastructure, and ensure wind plays a key role in a zero-carbon energy future.","text":"Wind energy is expected to grow significantly worldwide, taking on a new role in the energy market. Its development has been policy-driven and will remain so, with support ranging from R&D to investment incentives and regulations. As costs decline, some countries may reduce production-based support, but policy needs will persist, though in new forms. Achieving a zero-carbon energy system requires major investments, guided by long-term, consistent policies to attract private funding. Effective policy frameworks must reduce risks and ensure stable returns. A mix of tools will support not just wind deployment but broader system changes, including electrification, digitalization, battery and hydrogen support, grid upgrades, and inclusive regulation. Global energy challenges require coordinated policy—not just market forces. Policymakers must design balanced, adaptive policy packages to help wind energy lead the transition to a sustainable energy future.","link_original":"https://www.sciencedirect.com/science/article/abs/pii/B9780128197271001606","status":2,"country":[],"sections":[{"id":89,"name":"Wind energy"}],"root_section":{"id":51,"name":"Industrial Revolution"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":4,"name":"Websites","badge_name":"Website","show_badge":true,"children":[{"id":6,"name":"Regulations","badge_name":"Regulation","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"5,6,7"}]},{"id":"609f969a-c2c7-48d9-bbd0-08a23b23bbb9","slug":"a-simple-water-shift-could-turn-arctic-farmland-into-a-carbon-sink-by-norwegian-institute-of-bioeconomy-research-for-sciencedaily-post","created_at":"2026-02-23T14:33:55Z","views":28,"name":"A simple water shift could turn Arctic farmland into a carbon sink | by Norwegian Institute of Bioeconomy Research for ScienceDaily","about":"Restoring higher groundwater in Arctic peatlands can cut CO₂ emissions and even turn them into carbon sinks, slowing greenhouse gas release from drained soils.","text":"Peatlands are important natural carbon storage areas, where water-saturated soils slow the breakdown of plant material and lock carbon away for thousands of years. When peatlands are drained for farming, oxygen enters the soil, speeding up decomposition and releasing carbon dioxide into the atmosphere. Northern Arctic peatlands are less studied, but a two-year field study in Northern Norway measured carbon dioxide, methane, and nitrous oxide under different water levels. Raising the groundwater reduced greenhouse gas emissions and, in some cases, turned fields into net carbon absorbers. Wet soils lower oxygen, slowing decomposition and helping the land store more carbon, even though plant growth is slightly reduced. Continuous measurements showed that emissions can vary across the field and over time.\r\n\r\nThe study highlights that keeping higher water levels in Arctic peatlands can help fight climate change, and careful local management is needed for the best results.","link_original":"https://www.sciencedaily.com/releases/2026/02/260221000325.htm","status":2,"country":[{"id":168,"name":"Norway","icon":""}],"sections":[{"id":142,"name":"Groundwater"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[{"id":168,"name":"Norway"}],"regions":[{"id":3,"name":"Europe"}]},"filters":[]},{"id":"70ee36f6-a70c-44a7-a3b0-785d5f578a90","slug":"the-universes-first-magnetic-fields-were-shockingly-weak-but-changed-everything-by-mak-pavicevic-and-others-science-daily-post","created_at":"2025-10-24T05:26:53.209200Z","views":21,"name":"The Universe’s first magnetic fields were shockingly weak, but changed everything, by Mak Pavičević and others | Science Daily","about":"Primordial magnetic fields, billions of times weaker than a fridge magnet, may have left lasting imprints on the Universe. Researchers ran over 250,000 simulations to show how these fields shaped the cosmic web, then validated the results.","text":"Scientists have discovered that extremely faint magnetic fields generated in the earliest moments of the Universe still influence the cosmic web today. Using over 250,000 advanced computer simulations, an international team led by SISSA and several universities found that these primordial fields—billions of times weaker than a refrigerator magnet—leave detectable imprints on the filamentary structures connecting galaxies. The research, published in *Physical Review Letters*, establishes a new, lower upper limit for the strength of these fields, around 0.2 nano-gauss, and shows that including them in models produces a cosmic web that better matches observational data. These findings suggest that primordial magnetism helped shape the density of the cosmic web, accelerating the formation of the first stars and galaxies, and provide a benchmark for future studies using the James Webb Space Telescope to further probe the early Universe.","link_original":"https://www.sciencedaily.com/releases/2025/09/250923021158.htm","status":2,"country":[],"sections":[{"id":190,"name":"Evolution of the Universe: the origin of Earth"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]},{"id":"4d0432d9-2041-4fb0-8752-7ac944155429","slug":"the-surprising-way-rising-co2-could-supercharge-space-storms-by-national-center-for-atmospheric-researchuniversity-corporation-for-atmospheric-research-for-sciencedaily-post","created_at":"2025-08-21T08:32:24.567936Z","views":45,"name":"The surprising way rising CO2 could supercharge space storms | by National Center for Atmospheric Research/University Corporation for Atmospheric Research for ScienceDaily","about":"Rising CO₂ levels will thin Earth’s upper atmosphere, altering how geomagnetic storms affect satellites. Future storms may cause proportionally greater density changes despite lower baseline air.","text":"New research from the US National Center for Atmospheric Research (NSF NCAR) shows that rising carbon dioxide levels will significantly alter how geomagnetic storms affect Earth’s upper atmosphere and orbiting satellites. Geomagnetic storms, driven by solar eruptions, increase atmospheric density and satellite drag, reducing their lifespan. However, as CO₂ cools and thins the upper atmosphere, future storms will occur in a less dense environment. This means absolute peak densities will be lower, but the relative increase during storms will be greater than today. Using advanced computer models and simulations of the May 2024 superstorm, scientists project that by late century, storm-time density in some regions could be 20–50% lower overall, yet nearly triple from baseline levels. These findings have important implications for satellite design, navigation systems, and preparedness for space weather in a changing climate.","link_original":"https://www.sciencedaily.com/releases/2025/08/250816113525.htm","status":2,"country":[],"sections":[{"id":166,"name":"Atmosphere"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]},{"id":"9de6c1bf-7e5a-4de2-8c2c-790a06105334","slug":"life-without-sunlight-earthquake-fractures-fuel-deep-underground-microbes-by-chinese-academy-of-sciences-headquarters-for-sciencedaily-post","created_at":"2025-09-01T11:28:24.209356Z","views":24,"name":"Life without sunlight? Earthquake fractures fuel deep underground microbes | by Chinese Academy of Sciences Headquarters for ScienceDaily","about":"Chinese researchers found that microbes deep underground can get energy from chemical reactions caused by crustal faulting, challenging the idea that all life relies on sunlight.","text":"This research has discovered that microbes deep underground can obtain energy from chemical reactions caused by crustal faulting, challenging the belief that all life depends on sunlight. Led by Prof. Hongping He and Prof. Jianxi Zhu from the Guangzhou Institute of Geochemistry (CAS), the team found that when rocks fracture during earthquakes, they generate free radicals that split water into hydrogen and oxidants like hydrogen peroxide. This creates redox gradients that drive microbial metabolism. In fact, hydrogen production in fault zones can be up to 100,000 times greater than other known pathways. The study reveals a powerful energy source sustaining life in deep subsurface environments and suggests that similar processes could support life on other Earth-like planets.","link_original":"https://www.sciencedaily.com/releases/2025/08/250806094130.htm","status":2,"country":[],"sections":[{"id":169,"name":"Biosphere"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]},{"id":"f12f5a25-cf83-4259-9a76-45d47bb3566f","slug":"underground-life-on-mars-cosmic-rays-could-make-it-possible-by-new-york-university-for-sciencedaily-post","created_at":"2025-08-06T12:22:58.281040Z","views":10,"name":"Underground life on Mars? Cosmic rays could make it possible | by New York University for ScienceDaily","about":"Cosmic rays interacting with underground water or ice on Mars and icy moons may produce energy that supports microbial life, showing life could exist without sunlight or heat.","text":"New research shows that cosmic rays hitting underground water or ice on Mars and icy moons could provide energy to support microscopic life through a process called radiolysis. This means life might exist in dark, cold places without sunlight or heat, as long as there is water and cosmic radiation. The study suggests that places like Enceladus, Mars, and Europa could have these conditions, expanding the search for life beyond the traditional “habitable zone” around stars. These findings open new possibilities for future space missions to explore underground environments where life might survive in the solar system and beyond.","link_original":"https://www.sciencedaily.com/releases/2025/08/250803011834.htm","status":2,"country":[],"sections":[{"id":81,"name":"Futuristic space habitats"}],"root_section":{"id":68,"name":"Sustainable Human Habitats"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"},{"id":13,"name":"Media content","badge_name":"Media content","show_badge":false,"children":[{"id":14,"name":"Photo","badge_name":"Photo","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"14,15,16"}]},{"id":"c3966bfd-a54f-44e8-9d57-7441cd45a01c","slug":"nasas-parker-solar-probe-finds-hidden-barrier-that-explains-the-suns-mysterious-heat-by-queen-mary-university-of-london-for-sciencedaily-post","created_at":"2025-08-06T11:47:34.208189Z","views":21,"name":"NASA’s Parker Solar Probe finds hidden barrier that explains the sun’s mysterious heat | by Queen Mary University of London for ScienceDaily","about":"NASA’s Parker Solar Probe reveals the “helicity barrier,” explaining how energy heats the Sun’s corona and accelerates solar wind, solving a key mystery in solar and cosmic plasma physics.","text":"The closest spacecraft to the Sun has provided new insights into the longstanding mystery of why the Sun’s corona is much hotter than its surface and how the solar wind accelerates. The study reveals that a phenomenon called the “helicity barrier” alters the turbulent dissipation process, which converts mechanical energy into heat in the nearly collisionless solar plasma. This barrier restricts energy transfer at small scales, explaining why solar wind protons are hotter than electrons. The helicity barrier becomes significant when the magnetic field strength is high relative to plasma pressure and when turbulence waves are imbalanced—conditions common near the Sun. This discovery not only clarifies solar phenomena but also enhances understanding of energy dissipation in other astrophysical plasmas, improving space weather predictions and advancing plasma physics knowledge.","link_original":"https://www.sciencedaily.com/releases/2025/08/250802022931.htm","status":2,"country":[],"sections":[{"id":36,"name":"Contamination of near-Earth space"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"},{"id":13,"name":"Media content","badge_name":"Media content","show_badge":false,"children":[{"id":14,"name":"Photo","badge_name":"Photo","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"14,15,16"}]},{"id":"6ac177e3-ff7e-401f-a841-005831dd3720","slug":"what-radar-found-beneath-antarctica-could-slow-ice-melt-and-rising-seas-by-durham-university-for-sciencedaily-post","created_at":"2025-12-10T08:58:25Z","views":104,"name":"What radar found beneath Antarctica could slow ice melt and rising seas | by Durham University for ScienceDaily","about":"Scientists discovered ancient river-formed flat landscapes under East Antarctica's ice, potentially helping predict future ice loss and sea level rise as the climate warms.","text":"Researchers have found extensive ancient landscapes buried beneath the East Antarctic Ice Sheet, believed to have formed by rivers around 80 million years ago before the continent was covered by ice 34 million years ago. Using radar to measure ice thickness, scientists identified large, flat surfaces stretching across 3,500 km of coastline, now hidden under ice but still relatively intact. These surfaces act as barriers to fast ice flow and may help regulate current ice loss. Understanding their structure and role could improve predictions of how the East Antarctic Ice Sheet will respond to climate change and contribute to future sea level rise. The study, led by Durham University and involving multiple international institutions, highlights the importance of further exploration, including drilling into the surfaces, to refine models of Antarctica’s glacial past and future behavior.","link_original":"https://www.sciencedaily.com/releases/2025/07/250721223835.htm","status":2,"country":[],"sections":[{"id":157,"name":"Antarctica"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":14,"name":"Antarctica"}]},"filters":[]},{"id":"2bf0d2d4-b8a2-40ef-aafc-454fc5a4e846","slug":"ai-uncovers-86000-hidden-earthquakes-beneath-yellowstones-surface-by-university-of-western-ontario-for-sciencedaily-post","created_at":"2025-08-06T11:38:11.927855Z","views":30,"name":"AI uncovers 86,000 hidden earthquakes beneath Yellowstone’s surface | by University of Western Ontario for ScienceDaily","about":"Machine learning revealed over 86,000 earthquakes beneath Yellowstone, uncovering chaotic swarms along young faults. This breakthrough improves understanding of volcanic activity and hazard prediction.","text":"Using AI technologies, researchers have identified over 86,000 earthquakes beneath Yellowstone’s caldera—about ten times more than previously recorded. This breakthrough study, led by Professor Bing Li and collaborators, reveals that more than half of these quakes occur in swarms along rough, immature fault structures, unlike the smoother faults seen elsewhere. The team used fractal analysis to characterize the fault roughness and linked earthquake swarms to interactions between slowly moving underground water and sudden fluid bursts. This enhanced earthquake catalog improves understanding of Yellowstone’s complex volcanic system and offers new opportunities to study seismic patterns and better predict volcanic hazards.","link_original":"https://www.sciencedaily.com/releases/2025/07/250720034027.htm","status":2,"country":[{"id":240,"name":"United States of America","icon":""}],"sections":[{"id":94,"name":"Natural catastrophes"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[{"id":240,"name":"United States of America"}],"regions":[{"id":4,"name":"North America"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"},{"id":13,"name":"Media content","badge_name":"Media content","show_badge":false,"children":[{"id":14,"name":"Photo","badge_name":"Photo","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"14,15,16"}]},{"id":"52b36ddb-c881-4742-8703-6351f80777d8","slug":"melting-glaciers-are-awakening-earths-most-dangerous-volcanoes-by-european-association-of-geochemistry-for-sciencedaily-post","created_at":"2025-08-06T11:45:08.307667Z","views":25,"name":"Melting glaciers are awakening Earth's most dangerous volcanoes | by European Association of Geochemistry for ScienceDaily","about":"Melting glaciers may trigger volcanic eruptions by releasing pressure on underground magma, especially in Antarctica, posing risks and potentially accelerating climate change.","text":"Presented at the Goldschmidt Conference, this study reveals that melting glaciers worldwide—especially in Antarctica—may reactivate hundreds of dormant subglacial volcanoes. Researchers from the University of Wisconsin-Madison and collaborators analyzed volcanic activity beneath the Patagonian Ice Sheet using argon dating and crystal analysis. They found that thick ice sheets suppressed eruptions during the last ice age by trapping silica-rich magma underground. As glaciers retreat, pressure release triggers explosive eruptions. This process, observed previously in Iceland, could also impact other glacier-covered regions like Antarctica, North America and New Zealand. Increased volcanic activity may temporarily cool the planet but ultimately contribute to long-term warming via greenhouse gas emissions, creating a feedback loop accelerating glacier melt and eruptions. The findings offer new insights for predicting volcanic hazards in a changing climate.","link_original":"https://www.sciencedaily.com/releases/2025/07/250708045654.htm","status":2,"country":[],"sections":[{"id":94,"name":"Natural catastrophes"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":12,"name":"Global"},{"id":14,"name":"Antarctica"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"},{"id":13,"name":"Media content","badge_name":"Media content","show_badge":false,"children":[{"id":14,"name":"Photo","badge_name":"Photo","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"14,15,16"}]},{"id":"7e6cab23-2326-4cb3-8b0d-cf031ab9c07f","slug":"scientists-thought-the-arctic-was-sealed-in-ice-they-were-wrong-by-uit-the-arctic-university-of-norway-for-sciencedaily-post","created_at":"2025-09-05T08:01:59Z","views":12,"name":"Scientists thought the Arctic was sealed in ice - they were wrong | by UiT The Arctic University of Norway for ScienceDaily","about":"A new study finds the Arctic Ocean was covered by seasonal sea ice, not a massive ice shelf, over the past 750,000 years, supporting marine life even during the coldest glacial periods.","text":"Researchers analyzed sediment cores from the central Nordic Seas and Yermak Plateau, revealing chemical traces from algae that require light and open water, suggesting seasonal sea ice rather than a permanent frozen cover. Supported by climate simulations, the findings show that even during extreme glaciations over the past 750,000 years, parts of the Arctic Ocean remained ice-free at times, allowing marine life to persist. This reshapes our understanding of Arctic climate history and offers insights into how the region may respond to future warming. While brief ice shelf events may have occurred, there’s no evidence of a long-lasting, kilometer-thick ice shelf. The study improves climate models and highlights the Arctic’s dynamic ice cover and resilience, helping predict future changes in a warming world.","link_original":"https://www.sciencedaily.com/releases/2025/07/250704235554.htm","status":2,"country":[],"sections":[{"id":164,"name":"The Arctic Ocean"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":11,"name":"The Arctic Ocean"}]},"filters":[]},{"id":"88bc3275-d933-4787-b552-3d967c750af4","slug":"antarcticas-ocean-flip-satellites-catch-sudden-salt-surge-melting-ice-from-below-by-university-of-southampton-for-sciencedaily-post","created_at":"2025-08-06T11:44:48.614762Z","views":14,"name":"Antarctica’s ocean flip: Satellites catch sudden salt surge melting ice from below | by University of Southampton for ScienceDaily","about":"Scientists found the Southern Ocean is becoming saltier and Antarctic sea ice is melting rapidly, exposing hidden heat and causing global impacts like stronger storms and threats to polar wildlife.","text":"Antarctica is experiencing a massive environmental shift as sea ice rapidly melts and the Southern Ocean becomes saltier, reversing a long-standing trend. This rise in salinity weakens the ocean’s layers, allowing heat from deeper waters to reach the surface and accelerate ice melt. The return of a giant hole in the sea ice, unseen for decades, signals unusual and potentially permanent changes in the region. These developments have global consequences, including stronger storms, warmer oceans, and threats to polar wildlife. The study emphasizes the need for ongoing monitoring to better understand and predict future changes in the Southern Ocean.","link_original":"https://www.sciencedaily.com/releases/2025/07/250701020711.htm","status":2,"country":[],"sections":[{"id":94,"name":"Natural catastrophes"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":14,"name":"Antarctica"},{"id":10,"name":"The Southern Ocean"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"},{"id":13,"name":"Media content","badge_name":"Media content","show_badge":false,"children":[{"id":14,"name":"Photo","badge_name":"Photo","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"14,15,16"}]},{"id":"1086023a-b69e-4308-8341-8a3c0a91cc2c","slug":"scientists-finally-know-why-early-human-migrations-out-of-africa-failed-by-max-planck-institute-of-geoanthropology-for-sciencedaily-post","created_at":"2025-09-01T11:32:13.867813Z","views":31,"name":"Scientists finally know why early human migrations out of Africa failed | by Max Planck Institute of Geoanthropology for ScienceDaily","about":"A new study reveals that early humans expanded their ecological range in Africa around 70,000 years ago, gaining flexibility that enabled the successful migration into Eurasia around 50,000 years ago.","text":"Research explains why early human migrations out of Africa before 50,000 years ago failed, while the later dispersal succeeded. Led by Prof. Eleanor Scerri of the Max Planck Institute and Prof. Andrea Manica of the University of Cambridge, researchers analyzed archaeological and environmental data from the last 120,000 years. They found that around 70,000 years ago, humans began to exploit a wider range of habitats in Africa—ranging from forests to deserts—marking a major expansion in their ecological niche. This flexibility was not seen in earlier populations and likely equipped them to survive in more challenging environments. Unlike earlier failed migrations that relied on favorable climate conditions, the successful migration around 50,000 years ago occurred during a less ideal climate period. The researchers argue that this ecological adaptability, possibly fueled by greater social contact and cultural exchange, was key to the success of modern humans beyond Africa.","link_original":"https://www.sciencedaily.com/releases/2025/06/250625111542.htm","status":2,"country":[],"sections":[{"id":154,"name":"Africa"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":6,"name":"Africa"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]},{"id":"edc35af8-ec61-49f3-9935-4d1f2b2ff154","slug":"winter-sea-ice-supercharges-southern-oceans-co2-uptake-by-university-of-east-anglia-for-sciencedaily-post","created_at":"2025-08-27T10:29:37.287422Z","views":26,"name":"Winter sea ice supercharges Southern Ocean’s CO2 uptake | by University of East Anglia for ScienceDaily","about":"A new study shows that winter sea ice strongly influences how much CO2 the Southern Ocean absorbs each year, with longer-lasting ice boosting uptake by about 20%, shaping climate change impacts.","text":"Research highlights the crucial role of winter sea ice in regulating how much carbon dioxide the Southern Ocean absorbs from the atmosphere each year. Researchers found that in years when sea ice persists longer, the ocean can take up around 20% more CO2 compared to years when sea ice forms late or melts early. The reason is that sea ice shields the ocean from strong winter winds, limiting the mixing of surface waters with deeper, carbon-rich layers. Using data from the west Antarctic Peninsula, the study underscores the need for more wintertime observations to improve climate predictions. Since the Southern Ocean absorbs about 40% of global oceanic CO2 uptake, these findings are vital for understanding its role in slowing climate change. The research was conducted by the University of East Anglia with partners from Germany, the UK, and Norway, and published in Communications Earth & Environment.","link_original":"https://www.sciencedaily.com/releases/2025/06/250618094450.htm","status":2,"country":[],"sections":[{"id":163,"name":"The Southern Ocean"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":true,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":10,"name":"The Southern Ocean"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]},{"id":"72a50203-05ae-4fb3-91ee-ce072d9ffb59","slug":"atlantic-ocean-current-unlikely-to-collapse-with-climate-change-by-california-institute-of-technology-for-sciencedaily-post","created_at":"2025-08-27T10:10:43.750435Z","views":41,"name":"Atlantic ocean current unlikely to collapse with climate change | by California Institute of Technology for ScienceDaily","about":"A new Caltech-led study finds the Atlantic meridional overturning circulation (AMOC) will weaken under global warming, but to a lesser extent than extreme climate models suggest, reducing uncertainty in projections.","text":"This research provides fresh insights into the future of the Atlantic meridional overturning circulation, a system of ocean currents vital to Earth’s climate regulation. Long thought to face a possible near-collapse under global warming, the AMOC has been a source of major uncertainty in climate science. By developing a simplified physical model that integrates real-world measurements collected over the past 20 years, researchers found that while the AMOC will weaken by the end of the 21st century, the decline is likely to be limited to 18–43 percent. This contrasts with more extreme projections of substantial weakening. The study highlights the importance of the AMOC’s depth in determining its resilience, showing that climate models with deeper present-day currents tend to overestimate weakening. These findings narrow the range of future projections, suggesting less drastic impacts on climate systems such as European weather patterns and African and Amazonian rainfall.","link_original":"https://www.sciencedaily.com/releases/2025/05/250529124732.htm","status":2,"country":[],"sections":[{"id":161,"name":"The Atlantic Ocean"}],"root_section":{"id":107,"name":"Life-friendly Earth"},"is_photo":false,"is_video":false,"is_large_font":false,"show_in_news_list":false,"url_to_show_in_news_list":"","location_filters":{"countries":[],"regions":[{"id":8,"name":"The Atlantic Ocean"}]},"filters":[{"id":8,"name":"Enlightenment","badge_name":"Enlightenment","show_badge":false,"children":[{"id":27,"name":"Publications","badge_name":"Publication","show_badge":false,"children":[]}],"all_children":false,"all_children_ids":"9,10,27,11,12"}]}],"new_filters":[{"id":3,"name":"Platforms","key":"parent","show_badge":true,"badge_name":"Platform","total_children":0,"check_state":"Unchecked","children":[]},{"id":4,"name":"Websites","key":"parent","show_badge":true,"badge_name":"Website","total_children":3,"check_state":"Unchecked","children":[{"id":5,"name":"Organizations","key":"child","show_badge":false,"badge_name":"Organization","is_checked":false,"parent_id":4,"parent_name":"Websites"},{"id":6,"name":"Regulations","key":"child","show_badge":false,"badge_name":"Regulation","is_checked":false,"parent_id":4,"parent_name":"Websites"},{"id":7,"name":"Other","key":"child","show_badge":false,"badge_name":null,"is_checked":false,"parent_id":4,"parent_name":"Websites"}]},{"id":8,"name":"Enlightenment","key":"parent","show_badge":false,"badge_name":"Enlightenment","total_children":5,"check_state":"Unchecked","children":[{"id":9,"name":"Educational programs","key":"child","show_badge":false,"badge_name":"Educational program","is_checked":false,"parent_id":8,"parent_name":"Enlightenment"},{"id":10,"name":"Books","key":"child","show_badge":false,"badge_name":"Book","is_checked":false,"parent_id":8,"parent_name":"Enlightenment"},{"id":27,"name":"Publications","key":"child","show_badge":false,"badge_name":"Publication","is_checked":false,"parent_id":8,"parent_name":"Enlightenment"},{"id":11,"name":"Learning games","key":"child","show_badge":false,"badge_name":"Learning game","is_checked":false,"parent_id":8,"parent_name":"Enlightenment"},{"id":12,"name":"Other","key":"child","show_badge":false,"badge_name":null,"is_checked":false,"parent_id":8,"parent_name":"Enlightenment"}]},{"id":13,"name":"Media content","key":"parent","show_badge":false,"badge_name":"Media content","total_children":3,"check_state":"Unchecked","children":[{"id":14,"name":"Photo","key":"child","show_badge":false,"badge_name":"Photo","is_checked":false,"parent_id":13,"parent_name":"Media content"},{"id":15,"name":"Video","key":"child","show_badge":false,"badge_name":"Video","is_checked":false,"parent_id":13,"parent_name":"Media content"},{"id":16,"name":"Films","key":"child","show_badge":false,"badge_name":"Film","is_checked":false,"parent_id":13,"parent_name":"Media content"}]},{"id":17,"name":"Green offers","key":"parent","show_badge":false,"badge_name":"Green offer","total_children":3,"check_state":"Unchecked","children":[{"id":18,"name":"Green products","key":"child","show_badge":false,"badge_name":"Green product","is_checked":false,"parent_id":17,"parent_name":"Green offers"},{"id":19,"name":"Green services","key":"child","show_badge":false,"badge_name":"Green service","is_checked":false,"parent_id":17,"parent_name":"Green offers"},{"id":20,"name":"Other","key":"child","show_badge":false,"badge_name":null,"is_checked":false,"parent_id":17,"parent_name":"Green offers"}]},{"id":22,"name":"Events","key":"parent","show_badge":false,"badge_name":"Event","total_children":0,"check_state":"Unchecked","children":[]}],"location_filters":{"all_countries":false,"all_regions":false,"total_countries":248,"total_regions":14,"countries":[{"id":1,"name":"Afghanistan","is_checked":false},{"id":3,"name":"Albania","is_checked":false},{"id":4,"name":"Algeria","is_checked":false},{"id":5,"name":"American Samoa","is_checked":false},{"id":6,"name":"Andorra","is_checked":false},{"id":7,"name":"Angola","is_checked":false},{"id":8,"name":"Anguilla","is_checked":false},{"id":9,"name":"Antarctica","is_checked":false},{"id":10,"name":"Antigua and Barbuda","is_checked":false},{"id":11,"name":"Argentina","is_checked":false},{"id":12,"name":"Armenia","is_checked":false},{"id":13,"name":"Aruba","is_checked":false},{"id":14,"name":"Australia","is_checked":false},{"id":15,"name":"Austria","is_checked":false},{"id":16,"name":"Azerbaijan","is_checked":false},{"id":17,"name":"Bahamas","is_checked":false},{"id":18,"name":"Bahrain","is_checked":false},{"id":19,"name":"Bangladesh","is_checked":false},{"id":20,"name":"Barbados","is_checked":false},{"id":21,"name":"Belarus","is_checked":false},{"id":22,"name":"Belgium","is_checked":false},{"id":23,"name":"Belize","is_checked":false},{"id":24,"name":"Benin","is_checked":false},{"id":25,"name":"Bermuda","is_checked":false},{"id":26,"name":"Bhutan","is_checked":false},{"id":27,"name":"Bolivia (Plurinational State of)","is_checked":false},{"id":29,"name":"Bosnia and Herzegovina","is_checked":false},{"id":30,"name":"Botswana","is_checked":false},{"id":32,"name":"Brazil","is_checked":false},{"id":33,"name":"British Indian Ocean Territory","is_checked":false},{"id":37,"name":"Brunei Darussalam","is_checked":false},{"id":38,"name":"Bulgaria","is_checked":false},{"id":39,"name":"Burkina Faso","is_checked":false},{"id":40,"name":"Burundi","is_checked":false},{"id":44,"name":"Cabo Verde","is_checked":false},{"id":41,"name":"Cambodia","is_checked":false},{"id":42,"name":"Cameroon","is_checked":false},{"id":43,"name":"Canada","is_checked":false},{"id":45,"name":"Cayman Islands","is_checked":false},{"id":46,"name":"Central African Republic","is_checked":false},{"id":47,"name":"Chad","is_checked":false},{"id":48,"name":"Chile","is_checked":false},{"id":49,"name":"China","is_checked":false},{"id":50,"name":"Christmas Island","is_checked":false},{"id":51,"name":"Cocos (Keeling) Islands","is_checked":false},{"id":52,"name":"Colombia","is_checked":false},{"id":53,"name":"Comoros","is_checked":false},{"id":54,"name":"Congo","is_checked":false},{"id":55,"name":"Congo (Democratic Republic of the)","is_checked":false},{"id":56,"name":"Cook Islands","is_checked":false},{"id":57,"name":"Costa Rica","is_checked":false},{"id":58,"name":"Croatia","is_checked":false},{"id":59,"name":"Cuba","is_checked":false},{"id":60,"name":"Curaçao","is_checked":false},{"id":61,"name":"Cyprus","is_checked":false},{"id":62,"name":"Czech Republic","is_checked":false},{"id":107,"name":"Côte d'Ivoire","is_checked":false},{"id":63,"name":"Denmark","is_checked":false},{"id":64,"name":"Djibouti","is_checked":false},{"id":65,"name":"Dominica","is_checked":false},{"id":66,"name":"Dominican Republic","is_checked":false},{"id":67,"name":"Ecuador","is_checked":false},{"id":68,"name":"Egypt","is_checked":false},{"id":69,"name":"El Salvador","is_checked":false},{"id":70,"name":"Equatorial Guinea","is_checked":false},{"id":71,"name":"Eritrea","is_checked":false},{"id":72,"name":"Estonia","is_checked":false},{"id":218,"name":"Eswatini","is_checked":false},{"id":73,"name":"Ethiopia","is_checked":false},{"id":74,"name":"Falkland Islands (Malvinas)","is_checked":false},{"id":75,"name":"Faroe Islands","is_checked":false},{"id":76,"name":"Fiji","is_checked":false},{"id":77,"name":"Finland","is_checked":false},{"id":78,"name":"France","is_checked":false},{"id":79,"name":"French Guiana","is_checked":false},{"id":80,"name":"French Polynesia","is_checked":false},{"id":81,"name":"French Southern Territories","is_checked":false},{"id":82,"name":"Gabon","is_checked":false},{"id":83,"name":"Gambia","is_checked":false},{"id":84,"name":"Georgia","is_checked":false},{"id":85,"name":"Germany","is_checked":false},{"id":86,"name":"Ghana","is_checked":false},{"id":87,"name":"Gibraltar","is_checked":false},{"id":88,"name":"Greece","is_checked":false},{"id":89,"name":"Greenland","is_checked":false},{"id":90,"name":"Grenada","is_checked":false},{"id":91,"name":"Guadeloupe","is_checked":false},{"id":92,"name":"Guam","is_checked":false},{"id":93,"name":"Guatemala","is_checked":false},{"id":94,"name":"Guernsey","is_checked":false},{"id":95,"name":"Guinea","is_checked":false},{"id":96,"name":"Guinea-Bissau","is_checked":false},{"id":97,"name":"Guyana","is_checked":false},{"id":98,"name":"Haiti","is_checked":false},{"id":99,"name":"Heard Island and McDonald Islands","is_checked":false},{"id":101,"name":"Honduras","is_checked":false},{"id":102,"name":"Hong Kong","is_checked":false},{"id":103,"name":"Hungary","is_checked":false},{"id":104,"name":"Iceland","is_checked":false},{"id":105,"name":"India","is_checked":false},{"id":106,"name":"Indonesia","is_checked":false},{"id":108,"name":"Iran (Islamic Republic of)","is_checked":false},{"id":109,"name":"Iraq","is_checked":false},{"id":110,"name":"Ireland","is_checked":false},{"id":111,"name":"Isle of Man","is_checked":false},{"id":112,"name":"Israel","is_checked":false},{"id":113,"name":"Italy","is_checked":false},{"id":114,"name":"Jamaica","is_checked":false},{"id":115,"name":"Japan","is_checked":false},{"id":116,"name":"Jersey","is_checked":false},{"id":117,"name":"Jordan","is_checked":false},{"id":118,"name":"Kazakhstan","is_checked":false},{"id":119,"name":"Kenya","is_checked":false},{"id":120,"name":"Kiribati","is_checked":false},{"id":166,"name":"Korea (Democratic People's Republic of)","is_checked":false},{"id":211,"name":"Korea (Republic of)","is_checked":false},{"id":183,"name":"Kosovo (Republic of)","is_checked":false},{"id":121,"name":"Kuwait","is_checked":false},{"id":122,"name":"Kyrgyzstan","is_checked":false},{"id":123,"name":"Lao People's Democratic Republic","is_checked":false},{"id":124,"name":"Latvia","is_checked":false},{"id":125,"name":"Lebanon","is_checked":false},{"id":126,"name":"Lesotho","is_checked":false},{"id":127,"name":"Liberia","is_checked":false},{"id":128,"name":"Libya","is_checked":false},{"id":129,"name":"Liechtenstein","is_checked":false},{"id":130,"name":"Lithuania","is_checked":false},{"id":131,"name":"Luxembourg","is_checked":false},{"id":132,"name":"Macao","is_checked":false},{"id":133,"name":"Macedonia (the former Yugoslav Republic of)","is_checked":false},{"id":134,"name":"Madagascar","is_checked":false},{"id":135,"name":"Malawi","is_checked":false},{"id":136,"name":"Malaysia","is_checked":false},{"id":137,"name":"Maldives","is_checked":false},{"id":138,"name":"Mali","is_checked":false},{"id":139,"name":"Malta","is_checked":false},{"id":140,"name":"Marshall Islands","is_checked":false},{"id":141,"name":"Martinique","is_checked":false},{"id":142,"name":"Mauritania","is_checked":false},{"id":143,"name":"Mauritius","is_checked":false},{"id":144,"name":"Mayotte","is_checked":false},{"id":145,"name":"Mexico","is_checked":false},{"id":146,"name":"Micronesia (Federated States of)","is_checked":false},{"id":147,"name":"Moldova (Republic of)","is_checked":false},{"id":148,"name":"Monaco","is_checked":false},{"id":149,"name":"Mongolia","is_checked":false},{"id":150,"name":"Montenegro","is_checked":false},{"id":151,"name":"Montserrat","is_checked":false},{"id":152,"name":"Morocco","is_checked":false},{"id":153,"name":"Mozambique","is_checked":false},{"id":154,"name":"Myanmar","is_checked":false},{"id":155,"name":"Namibia","is_checked":false},{"id":156,"name":"Nauru","is_checked":false},{"id":157,"name":"Nepal","is_checked":false},{"id":158,"name":"Netherlands","is_checked":false},{"id":159,"name":"New Caledonia","is_checked":false},{"id":160,"name":"New Zealand","is_checked":false},{"id":161,"name":"Nicaragua","is_checked":false},{"id":162,"name":"Niger","is_checked":false},{"id":163,"name":"Nigeria","is_checked":false},{"id":164,"name":"Niue","is_checked":false},{"id":165,"name":"Norfolk Island","is_checked":false},{"id":167,"name":"Northern Mariana Islands","is_checked":false},{"id":168,"name":"Norway","is_checked":false},{"id":169,"name":"Oman","is_checked":false},{"id":170,"name":"Pakistan","is_checked":false},{"id":171,"name":"Palau","is_checked":false},{"id":172,"name":"Palestine, State of","is_checked":false},{"id":173,"name":"Panama","is_checked":false},{"id":174,"name":"Papua New Guinea","is_checked":false},{"id":175,"name":"Paraguay","is_checked":false},{"id":176,"name":"Peru","is_checked":false},{"id":177,"name":"Philippines","is_checked":false},{"id":178,"name":"Pitcairn","is_checked":false},{"id":179,"name":"Poland","is_checked":false},{"id":180,"name":"Portugal","is_checked":false},{"id":181,"name":"Puerto Rico","is_checked":false},{"id":182,"name":"Qatar","is_checked":false},{"id":185,"name":"Romania","is_checked":false},{"id":186,"name":"Russian Federation","is_checked":false},{"id":187,"name":"Rwanda","is_checked":false},{"id":184,"name":"Réunion","is_checked":false},{"id":188,"name":"Saint Barthélemy","is_checked":false},{"id":189,"name":"Saint Helena, Ascension and Tristan da Cunha","is_checked":false},{"id":190,"name":"Saint Kitts and Nevis","is_checked":false},{"id":191,"name":"Saint Lucia","is_checked":false},{"id":192,"name":"Saint Martin (French part)","is_checked":false},{"id":193,"name":"Saint Pierre and Miquelon","is_checked":false},{"id":194,"name":"Saint Vincent and the Grenadines","is_checked":false},{"id":195,"name":"Samoa","is_checked":false},{"id":196,"name":"San Marino","is_checked":false},{"id":197,"name":"Sao Tome and Principe","is_checked":false},{"id":198,"name":"Saudi Arabia","is_checked":false},{"id":199,"name":"Senegal","is_checked":false},{"id":200,"name":"Serbia","is_checked":false},{"id":201,"name":"Seychelles","is_checked":false},{"id":202,"name":"Sierra Leone","is_checked":false},{"id":203,"name":"Singapore","is_checked":false},{"id":204,"name":"Sint Maarten (Dutch part)","is_checked":false},{"id":205,"name":"Slovakia","is_checked":false},{"id":206,"name":"Slovenia","is_checked":false},{"id":207,"name":"Solomon Islands","is_checked":false},{"id":208,"name":"Somalia","is_checked":false},{"id":209,"name":"South Africa","is_checked":false},{"id":210,"name":"South Georgia and the South Sandwich Islands","is_checked":false},{"id":212,"name":"South Sudan","is_checked":false},{"id":213,"name":"Spain","is_checked":false},{"id":214,"name":"Sri Lanka","is_checked":false},{"id":215,"name":"Sudan","is_checked":false},{"id":216,"name":"Suriname","is_checked":false},{"id":217,"name":"Svalbard and Jan Mayen","is_checked":false},{"id":219,"name":"Sweden","is_checked":false},{"id":220,"name":"Switzerland","is_checked":false},{"id":221,"name":"Syrian Arab Republic","is_checked":false},{"id":222,"name":"Taiwan","is_checked":false},{"id":223,"name":"Tajikistan","is_checked":false},{"id":224,"name":"Tanzania, United Republic of","is_checked":false},{"id":225,"name":"Thailand","is_checked":false},{"id":226,"name":"Timor-Leste","is_checked":false},{"id":227,"name":"Togo","is_checked":false},{"id":228,"name":"Tokelau","is_checked":false},{"id":229,"name":"Tonga","is_checked":false},{"id":230,"name":"Trinidad and Tobago","is_checked":false},{"id":231,"name":"Tunisia","is_checked":false},{"id":232,"name":"Turkey","is_checked":false},{"id":233,"name":"Turkmenistan","is_checked":false},{"id":234,"name":"Turks and Caicos Islands","is_checked":false},{"id":235,"name":"Tuvalu","is_checked":false},{"id":236,"name":"Uganda","is_checked":false},{"id":237,"name":"Ukraine","is_checked":false},{"id":238,"name":"United Arab Emirates","is_checked":false},{"id":239,"name":"United Kingdom of Great Britain and Northern Ireland","is_checked":false},{"id":34,"name":"United States Minor Outlying Islands","is_checked":false},{"id":240,"name":"United States of America","is_checked":false},{"id":241,"name":"Uruguay","is_checked":false},{"id":242,"name":"Uzbekistan","is_checked":false},{"id":243,"name":"Vanuatu","is_checked":false},{"id":254,"name":"Vatican","is_checked":false},{"id":244,"name":"Venezuela (Bolivarian Republic of)","is_checked":false},{"id":245,"name":"Viet Nam","is_checked":false},{"id":35,"name":"Virgin Islands (British)","is_checked":false},{"id":36,"name":"Virgin Islands (U.S.)","is_checked":false},{"id":246,"name":"Wallis and Futuna","is_checked":false},{"id":247,"name":"Western Sahara","is_checked":false},{"id":248,"name":"Yemen","is_checked":false},{"id":249,"name":"Zambia","is_checked":false},{"id":250,"name":"Zimbabwe","is_checked":false},{"id":2,"name":"Åland Islands","is_checked":false}],"regions":[{"id":12,"name":"Global","is_checked":false},{"id":5,"name":"Asia","is_checked":false},{"id":6,"name":"Africa","is_checked":false},{"id":4,"name":"North America","is_checked":false},{"id":2,"name":"South America","is_checked":false},{"id":14,"name":"Antarctica","is_checked":false},{"id":3,"name":"Europe","is_checked":false},{"id":1,"name":"Oceania","is_checked":false},{"id":7,"name":"The Pacific Ocean","is_checked":false},{"id":8,"name":"The Atlantic Ocean","is_checked":false},{"id":9,"name":"The Indian Ocean","is_checked":false},{"id":10,"name":"The Southern Ocean","is_checked":false},{"id":11,"name":"The Arctic Ocean","is_checked":false},{"id":13,"name":"Unspecified","is_checked":false}]},"publication_statuses":[{"id":2,"name":"Published","icon":""}]}