{"count":10576,"next":"http://onegeo.com/api/organization/section/home/publications?format=json&limit=20&offset=7340&ordering=link_original","previous":"http://onegeo.com/api/organization/section/home/publications?format=json&limit=20&offset=7300&ordering=link_original","results":[{"id":"bfa52300-81ed-4fc1-b709-ae96ab8b21b9","slug":"global-sea-level-rise-in-the-early-holocene-revealed-from-north-sea-peats-by-hijma-mp-and-others-post","created_at":"2025-07-03T08:28:52Z","views":15,"name":"Global sea-level rise in the early Holocene revealed from North Sea peats | by Hijma, M.P. and others for Springer Nature","about":"New North Sea peat data reveal early Holocene sea-level rise driven by melting of North American and Antarctic ice sheets. Two major pulses peaked at 10.3 and 8.3 thousand years ago with rates up to 9 mm/year, totaling ~38 m rise by 3 ka.","text":"This study reconstructs early Holocene sea-level rise (SLR) from 13.7 to 6.2 thousand years ago using 88 new sea-level data points from peat deposits in the North Sea region (Doggerland). By removing the regional glacial isostatic adjustment caused by the melting Eurasian Ice Sheet, the researchers isolated the global sea-level signal driven primarily by melting from the North American and Antarctic ice sheets. Two major phases of accelerated SLR peaked around 10.3 ka and 8.3 ka with rates up to 9 mm/yr. The study estimates a total global mean sea-level rise of approximately 38 meters between 11 and 3 ka, bridging previous data gaps. These high-precision data improve understanding of ice-sheet contributions and climate-cryosphere interactions during rapid warming, offering valuable benchmarks for future sea-level predictions under global warming.","link_original":"https://www.nature.com/articles/s41586-025-08769-7","status":2,"country":[],"sections":[{"id":168,"name":"Hydrosphere"}],"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":"1b92ceb7-e9f8-414e-9251-4c64d2bd8db3","slug":"melt-focusing-along-lithosphereasthenosphere-boundary-below-axial-volcano-by-g-m-kent-and-others-for-springer-nature-post","created_at":"2026-02-19T11:25:33Z","views":3,"name":"Melt focusing along lithosphere–asthenosphere boundary below Axial volcano | by G. M. Kent and others for Springer Nature","about":"Beneath oceanic spreading centres, the lithosphere–asthenosphere boundary (LAB) acts as a permeability barrier that focuses the delivery of melt from deep within the mantle towards the spreading axis.","text":"At intermediate-spreading to fast-spreading ridge crests, the multichannel seismic reflection technique has imaged a nearly flat, 1–2-km-wide axial magma lens (AML) that defines the uppermost section of the LAB, but the nature of the LAB deeper into the crust has been more elusive, with some clues gained from tomographic images, providing only a diffuse view of a wider halo of lower-velocity material seated just beneath the AML.\r\n\r\nHere is present 3D seismic reflection images of the LAB extending deep (5–6 km) into the crust beneath Axial volcano, located at the intersection of the Juan de Fuca Ridge and the Cobb–Eickelberg hotspot. The 3D shape of the LAB, which is coincident with a thermally controlled magma assimilation front, focuses hotspot-related and mid-ocean-spreading-centre-related magmatism towards the centre of the volcano, controlling both eruption and hydrothermal processes and the chemical composition of erupted lavas5.","link_original":"https://www.nature.com/articles/s41586-025-08865-8","status":2,"country":[],"sections":[{"id":167,"name":"Lithosphere"}],"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":7,"name":"The Pacific Ocean"}]},"filters":[]},{"id":"9e6f5a67-0f82-493f-8747-bc76a0934ac7","slug":"a-foundation-model-for-the-earth-system-2025-by-cristian-bodnar-and-others-for-nature-post","created_at":"2025-12-04T05:56:07.046124Z","views":17,"name":"A foundation model for the Earth system (2025) by Cristian Bodnar and others for Nature","about":"Here they introduce Aurora, a large-scale foundation model trained on more than one million hours of diverse geophysical data.","text":"Aurora is a machine learning model that produces forecasts for any collection of Earth system variables at any desired resolution. The model consists of three parts: (1) an encoder that converts heterogeneous inputs into a universal latent three-dimensional (3D) representation; (2) a processor that evolves the representation forward in time; and (3) a decoder that translates the standard 3D representation back into physical predictions. \n\nAurora outperforms operational forecasts in predicting air quality, ocean waves, tropical cyclone tracks and high-resolution weather, all at orders of magnitude lower computational cost. With the ability to be fine-tuned for diverse applications at modest expense, Aurora represents a notable step towards democratizing accurate and efficient Earth system predictions. These results highlight the transformative potential of AI in environmental forecasting and pave the way for broader accessibility to high-quality climate and weather information.","link_original":"https://www.nature.com/articles/s41586-025-09005-y","status":2,"country":[],"sections":[{"id":226,"name":"Data acquisition and processing"}],"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":"33cd7531-7639-4245-ac5a-dad2db47a7fc","slug":"protected-area-management-has-significant-spillover-effects-on-vegetation-by-graeme-s-cumming-for-springer-nature-post","created_at":"2026-02-10T11:41:41Z","views":6,"name":"Protected area management has significant spillover effects on vegetation | by Graeme S. Cumming for Springer Nature","about":"Cumming, G.S. Protected area management has significant spillover effects on vegetation. Nature (2025). https://doi.org/10.1038/s41586-025-09837-8","text":"The Kunming–Montreal Global Biodiversity Framework calls for the rapid global expansion of protected areas in response to ongoing biodiversity loss and ecosystem degradation. A major justification for this expansion lies in the benefits that protected areas can provide to adjacent human communities. However, comparatively little attention has been given to the ways in which policy and management can enhance or support these benefits. \r\n\r\nTo address this gap, this study examined the factors influencing the magnitude of vegetation spillover effects from a candidate set of 12,513 protected areas in Australia. Spillovers were defined as differences in vegetation conditions outside protected areas that occur as a direct consequence of their establishment. In 2020, 71% (2,189) out of the 3,063 protected areas for which full analysis was possible had a positive spillover effect of 0.1 or greater on at least 1 of 10 vegetation cover classes.","link_original":"https://www.nature.com/articles/s41586-025-09837-8#citeas","status":2,"country":[{"id":14,"name":"Australia","icon":""}],"sections":[{"id":122,"name":"Protected landscapes/seascapes"}],"root_section":{"id":108,"name":"Conserving Wild Nature"},"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":14,"name":"Australia"}],"regions":[{"id":1,"name":"Oceania"}]},"filters":[]},{"id":"032c1bdd-43f1-4d95-8329-29b051d3acb5","slug":"enhanced-global-oil-spill-dataset-from-1967-to-2023-based-on-text-form-incident-information-by-yiming-liu-and-others-for-scientific-data-post","created_at":"2026-01-02T14:24:51Z","views":33,"name":"Enhanced global oil spill dataset from 1967 to 2023 based on text-form incident information | by Yiming Liu and others for Scientific Data","about":"This study presents a framework to extract accurate oil release amounts from unstructured text, enhancing a global oil spill database and enabling improved assessment of environmental and ecological impacts.","text":"The article addresses the challenge of accurately quantifying oil release amounts from spill incidents by extracting data from unstructured textual reports in the National Oceanic and Atmospheric Administration IncidentNews database. While existing datasets often report only potential maximum release estimates, detailed narratives contain more precise release information that is difficult to analyze at scale. During this research algorithms were developed algorithms to identify and extract actual release amounts from incident descriptions and updates, achieving high accuracy validated through manual review. Applying this framework to thousands of incidents, it enhanced the dataset with more reliable spill quantities, improving the ability to assess environmental impacts and risks. The code is publicly available for further research and application.","link_original":"https://www.nature.com/articles/s41597-025-05601-9","status":2,"country":[],"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":[],"regions":[{"id":12,"name":"Global"}]},"filters":[]},{"id":"35a7c00e-2c7c-435d-bcf7-2a43e41a05b0","slug":"groundwater-resources-challenges-and-future-opportunities-by-abhijit-mukherjee-and-others-for-springer-nature-post","created_at":"2025-11-16T16:42:46.062275Z","views":32,"name":"Groundwater resources: challenges and future opportunities, by Abhijit Mukherjee and others for Springer Nature","about":"Ensuring the sustainability and security of groundwater resources requires identification of region-specific challenges and solutions to accommodate water needs in diverse sectors, including ecosystems.","text":"They are related to extensive variations in natural conditions (e.g. geology, geomorphology and hydrology), human interventions, and political, cultural and socio-economic realities that need to be considered in working towards sustainable development. To achieve this goal, it is important to understand social transformations and societal drivers, as well as management and governance challenges which hinder effective groundwater management and access. Unlocking the future opportunities of groundwater require to integrate the existing knowledge and emerging tools and techniques to explore the unknown resources, and device governance strategies to improve livelihoods and health, build more resilient water futures, and move towards long-term sustainable and equitable groundwater use.","link_original":"https://www.nature.com/articles/s41598-024-79936-5","status":2,"country":[],"sections":[{"id":222,"name":"Hydrosphere solutions"}],"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":"ffbfe424-6fd3-4ddb-9ce3-e9009f407159","slug":"the-impact-of-pilot-policy-for-innovative-industrial-clusters-on-green-innovation-efficiency-by-ye-xu-weiwei-sh-for-nature-scientific-reports-post","created_at":"2026-03-22T07:24:28.875526Z","views":18,"name":"The impact of pilot policy for innovative industrial clusters on green innovation efficiency | by Ye Xu & WeiWei Sh for Springer Nature Scientific Reports","about":"China’s Pilot Policy for Innovative Industrial Clusters enhances green innovation efficiency across cities through industrial upgrading, technological progress, and spatial spillover effects.","text":"Green transformation is a key goal of China’s development strategy amid environmental pressures and the pursuit of sustainable growth. This study examines how the Pilot Policy for Innovative Industrial Clusters influences green innovation efficiency (GIE) across 280 Chinese cities from 2007 to 2021. Using difference-in-differences and spatial difference-in-differences models, the results show that: the policy significantly enhances GIE in pilot cities, with robust findings; it promotes green innovation through lower energy intensity, industrial upgrading, technological progress, and digital infrastructure; the policy generates positive spatial spillovers, improving GIE in neighboring cities; and its effects are stronger in central, non-resource, and environmentally focused cities. Overall, the study provides new evidence on how innovative industrial cluster policies can drive green transformation and offers practical insights for advancing sustainable urban development in China.","link_original":"https://www.nature.com/articles/s41598-025-07771-3","status":2,"country":[{"id":49,"name":"China","icon":""}],"sections":[{"id":75,"name":"Industrial clusters"}],"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":"9f1948c9-cd09-4dcb-8616-e3387ef20c2d","slug":"integrating-the-sustainable-development-goals-into-post-mining-land-use-selection-i-by-gareth-b-simpson-and-others-for-springer-nature-post","created_at":"2026-02-10T11:13:05.838552Z","views":9,"name":"Integrating the sustainable development goals into post-mining land use selection І by Gareth B. Simpson and others for Springer Nature","about":"Framework for sustainable, SDG-aligned post-mining land uses.","text":"Active mines often commit to post-mining land uses (PMLUs) decades before closure, setting outcomes and obligations in regulatory instruments during pre-mining phases. However, given growing global challenges - water, energy, food, and livelihood security, alongside climate change- many PMLUs may become sub-optimal in the future. Whether defining new land uses or refining existing ones, PMLU options should be evaluated through multiple planning lenses. Thе paper considers three: - safe, stable, and non-polluting; \n- suitable, practicable, and aligned with land capability and local/regional needs, supported by robust knowledge; \n- integration of Sustainable Development Goals (SDGs) and the water-energy-food (WEF) nexus. \nThe framework shows how SDGs can guide PMLU selection to address water, energy, food, and livelihood security, and climate change mitigation. Selected case studies are highlighted, followed by regulatory and policy recommendations.","link_original":"https://www.nature.com/articles/s41598-025-15980-z","status":2,"country":[],"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":[],"regions":[{"id":12,"name":"Global"}]},"filters":[]},{"id":"fd0f2af2-2f7f-4135-8ece-a5079fcf1c57","slug":"assessing-the-impacts-of-mitigation-and-geoengineering-intervention-scenarios-on-earth-system-dynamics-and-climatological-variability-with-multimodal-simulations-2025-by-bradley-a-gay-and-others-post","created_at":"2026-03-10T08:25:22Z","views":12,"name":"Assessing the impacts of mitigation and geoengineering intervention scenarios on Earth system dynamics and climatological variability with multimodal simulations (2025) by Bradley A. Gay and others","about":"This study examines various mitigation and geoengineering experiments to understand these strategies’ potential impacts and identify the most feasible solutions to address global climate change.","text":"How do we harness data and state-of-the-art tools to address the fundamental challenges associated with when and how to deploy geoengineering solutions? Given an incomplete observational record and an imperfect knowledge and understanding of the Earth system and related feedbacks, what is the optimal use of these techniques and tools to guide intervention strategies36? What are the potential risks and unintended consequences of these decisions? This study explores these questions using multimodal data processing and modeling frameworks to match these complex challenges.\r\n\r\nThis study proposes leveraging reanalysis products and model simulations to help optimize mitigation logistics, bridge multiscale intervention challenges, summarize contingency scenarios, and support continuous monitoring infrastructure. Authors examine various mitigation and geoengineering strategies and their subsequent impacts on the Earth system.","link_original":"https://www.nature.com/articles/s41598-025-91195-6","status":2,"country":[],"sections":[{"id":209,"name":"Geoengineering: overcoming challenges"}],"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":"18140de4-6c1b-42e9-b9fb-a06fdd13c4a3","slug":"heavy-metal-imprints-in-antarctic-snow-from-research-and-tourism-post","created_at":"2025-12-29T15:09:31Z","views":66,"name":"Heavy metal imprints in Antarctic snow from research and tourism | by Raúl R. Cordero, Sarah Feron, Avni Malhotra, Alessandro Damiani, Minghu Ding, Francisco Fernandoy etc","about":"Study reveals heavy metal contamination in Antarctic snow, linked to research stations and tourism, highlighting need for stricter environmental monitoring.","text":"Recent studies by Nature Sustainability have revealed concerning levels of heavy metal contamination in Antarctic snow, attributed to increased human activities such as scientific research and tourism. A comprehensive analysis of surface snow samples collected across a ~2,000 km transect from the South Shetland Islands to the Ellsworth Mountains has identified distinct spatial patterns of aerosol deposition, with notable concentrations of heavy metals in regions with high research station density and intense marine tourism traffic.\r\n\r\nThese findings underscore the environmental footprint of human presence in one of the Earth's most pristine environments. The detection of anthropogenic pollutants in remote areas highlights the need for stringent environmental monitoring and sustainable management strategies to mitigate the impacts of human activities on Antarctic ecosystems.","link_original":"https://www.nature.com/articles/s41893-025-01616-7","status":2,"country":[],"sections":[{"id":157,"name":"Antarctica"}],"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":14,"name":"Antarctica"}]},"filters":[]},{"id":"7a6838c3-2f11-4661-8c3c-bd3369449d11","slug":"community-based-management-expands-ecosystem-protection-footprint-in-amazonian-forests-by-ana-carla-rodrigues-and-others-for-nature-sustainability-post","created_at":"2025-09-29T07:50:11.694578Z","views":11,"name":"Community-based management expands ecosystem protection footprint in Amazonian forests | by Ana Carla Rodrigues and others for Nature Sustainability","about":"Amazonian communities protect vast floodplain ecosystems through local surveillance and sustainable fisheries management, preventing illegal activity while supporting livelihoods and biodiversity at low cost.","text":"In the Brazilian Amazon, community-based conservation extends protection far beyond directly managed lakes, safeguarding floodplain areas approximately eight times larger than the immediate sites. Local residents organize surveillance teams that monitor lakes year-round, living in floating houses when necessary, and cover critical periods such as receding floodwaters to prevent poaching and illegal fishing. \n\nDespite the low financial cost per hectare, communities bear the burden themselves, highlighting both their vital role in ecosystem protection and the need for formal compensation mechanisms. This model demonstrates how non-industrial, locally led management can simultaneously preserve biodiversity, maintain ecosystem services, and support community well-being, illustrating a successful integration of sustainable resource use with habitat conservation.","link_original":"https://www.nature.com/articles/s41893-025-01633-6","status":2,"country":[{"id":32,"name":"Brazil","icon":""}],"sections":[{"id":123,"name":"Sustainable resource use areas"}],"root_section":{"id":108,"name":"Conserving Wild Nature"},"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":32,"name":"Brazil"}],"regions":[{"id":2,"name":"South 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":"27c345ca-994b-4ac8-9ac8-622f114d1c1d","slug":"interactive-and-unimodal-relationships-between-plant-biomass-abiotic-factors-and-plant-diversity-in-global-grasslands-by-marie-spohn-and-others-for-communications-biology-post","created_at":"2025-07-28T09:32:08.299962Z","views":15,"name":"Interactive and unimodal relationships between plant biomass, abiotic factors, and plant diversity in global grasslands | by Marie Spohn and others for Communications Biology","about":"Despite covering a third of Earth's land and storing a third of terrestrial carbon, grasslands lack strong predictive biomass models because they often ignore the unimodal and interactive relationships between plant biomass and environmental factors","text":"Grasslands cover approximately a third of the Earth’s land surface and account for about a third of terrestrial carbon storage. Yet, we lack strong predictive models of grassland plant biomass, the primary source of carbon in grasslands. This lack of predictive ability may arise from the assumption of linear relationships between plant biomass and the environment and an underestimation of interactions of environmental variables. Using data from 116 grasslands on six continents, we show unimodal relationships between plant biomass and ecosystem characteristics, such as mean annual precipitation and soil nitrogen. Further, we found that soil nitrogen and plant diversity interacted in their relationships with plant biomass, such that plant diversity and biomass were positively related at low levels of nitrogen and negatively at elevated levels of nitrogen.","link_original":"https://www.nature.com/articles/s42003-025-07518-w","status":2,"country":[],"sections":[{"id":45,"name":"Grasslands"}],"root_section":{"id":108,"name":"Conserving Wild Nature"},"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":"f9fc7882-6b87-4c03-9976-12b69556903b","slug":"south-america-is-becoming-warmer-drier-and-more-flammable-by-sarah-feron-raul-r-cordero-post","created_at":"2025-05-13T07:27:00.586374Z","views":21,"name":"South America is becoming warmer, drier, and more flammable | by Sarah Feron & Raúl R. Cordero","about":"South America faces rising compound climate extremes, with drought and fire risk surging, driven by warming and influenced by El Niño and La Niña.","text":"South America is experiencing severe impacts from climate change. Although the warming of the subcontinent closely follows the global path, the rise of temperatures has been more pronounced in some regions, which have also seen a parallel increment in the occurrence of droughts and weather conditions associated with enhanced fire risk. Here, we use reanalysis datasets to analyze the progression of the concurring warm, dry, and high fire risk conditions (i.e., dry compounds) since 1971. We show that the frequency of these compound extremes has surged in key South American regions including the northern Amazon, which have seen a 3-fold increase in the number of days per year with extreme fire weather conditions (including high temperatures, dryness, and low humidity). Our results also suggest that the surface temperature of the tropical Pacific Ocean modulates the interannual variability of dry compounds in South America.","link_original":"https://www.nature.com/articles/s43247-024-01654-7","status":2,"country":[{"id":11,"name":"Argentina","icon":""},{"id":27,"name":"Bolivia (Plurinational State of)","icon":""},{"id":32,"name":"Brazil","icon":""},{"id":48,"name":"Chile","icon":""},{"id":52,"name":"Colombia","icon":""},{"id":67,"name":"Ecuador","icon":""},{"id":74,"name":"Falkland Islands (Malvinas)","icon":""},{"id":79,"name":"French Guiana","icon":""},{"id":81,"name":"French Southern Territories","icon":""},{"id":97,"name":"Guyana","icon":""},{"id":173,"name":"Panama","icon":""},{"id":175,"name":"Paraguay","icon":""},{"id":176,"name":"Peru","icon":""},{"id":210,"name":"South Georgia and the South Sandwich Islands","icon":""},{"id":216,"name":"Suriname","icon":""},{"id":241,"name":"Uruguay","icon":""},{"id":244,"name":"Venezuela (Bolivarian Republic of)","icon":""}],"sections":[{"id":156,"name":"South America"}],"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":[{"id":11,"name":"Argentina"},{"id":27,"name":"Bolivia (Plurinational State of)"},{"id":32,"name":"Brazil"},{"id":48,"name":"Chile"},{"id":52,"name":"Colombia"},{"id":67,"name":"Ecuador"},{"id":74,"name":"Falkland Islands (Malvinas)"},{"id":79,"name":"French Guiana"},{"id":81,"name":"French Southern Territories"},{"id":97,"name":"Guyana"},{"id":173,"name":"Panama"},{"id":175,"name":"Paraguay"},{"id":176,"name":"Peru"},{"id":210,"name":"South Georgia and the South Sandwich Islands"},{"id":216,"name":"Suriname"},{"id":241,"name":"Uruguay"},{"id":244,"name":"Venezuela (Bolivarian Republic of)"}],"regions":[{"id":2,"name":"South America"}]},"filters":[]},{"id":"cc23248d-b13e-46ae-a9a7-45e5d5aef2e7","slug":"high-resolution-naturalness-mapping-can-support-conservation-policy-objectives-and-identify-locations-for-strongly-protected-areas-in-france-by-j-carruthers-jones-and-others-for-springer-nature-post","created_at":"2025-09-08T11:34:53Z","views":17,"name":"High-resolution naturalness mapping can support conservation policy objectives and identify locations for strongly protected areas in France | by J. Carruthers-Jones and others for Springer Nature","about":"France’s CARTNAT tool maps ecological integrity at fine resolution, revealing overlooked wild areas. It helps pinpoint sites for future protection, aligning local action with national and global biodiversity targets.","text":"Building on this, the mapping shows that fewer than 1% of the most intact landscapes in France are currently strongly protected, exposing a critical shortfall in meeting the 2030 conservation goal. By highlighting both large mountainous zones and scattered smaller patches of high naturalness, CARTNAT identifies priority “search areas” where strict protection could expand. These insights not only guide national planning but also empower regional and local actors to participate in decisions through a standardized, data-driven framework. \r\n\r\nThe approach integrates ecological science with governance, offering a fast-track method to reconcile ambitious policy commitments with on-the-ground action. In doing so, CARTNAT demonstrates how spatially explicit naturalness mapping can bridge science and policy, accelerating the creation of resilient protected networks for biodiversity and human well-being.","link_original":"https://www.nature.com/articles/s43247-025-02160-0#Abs1","status":2,"country":[{"id":78,"name":"France","icon":""}],"sections":[{"id":117,"name":"Strict nature reserves"}],"root_section":{"id":108,"name":"Conserving Wild Nature"},"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":78,"name":"France"}],"regions":[{"id":3,"name":"Europe"}]},"filters":[]},{"id":"15626d83-521e-46ba-9ec5-e31693d931f3","slug":"rapid-decline-of-caspian-sea-level-threatens-ecosystem-integrity-biodiversity-protection-and-human-infrastructure-by-rebecca-court-and-others-for-springer-nature-post","created_at":"2025-11-05T16:28:25.690000Z","views":24,"name":"Rapid decline of Caspian Sea level threatens ecosystem integrity, biodiversity protection, and human infrastructure | by Rebecca Court and others for Springer Nature","about":"The Caspian Sea is the world’s largest landlocked waterbody, providing habitat for hundreds of endemic and migratory species, along with ecosystem services that sustain millions of people.","text":"Global warming is projected to cause declines in water levels of up to 21 m by 2100. Using geospatial analyses, the authors assessed the impact of sea level decline on habitats, protected areas, and human infrastructure. 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