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  "sourcesContent": ["import{jsx as e,jsxs as t}from\"react/jsx-runtime\";import{Link as a}from\"framer\";import{motion as n}from\"framer-motion\";import*as o from\"react\";export const richText=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"574\",src:\"https://framerusercontent.com/images/3VjC6chhaYaXx3s4aowa4qAoYhA.png\",srcSet:\"https://framerusercontent.com/images/3VjC6chhaYaXx3s4aowa4qAoYhA.png?scale-down-to=512 512w,https://framerusercontent.com/images/3VjC6chhaYaXx3s4aowa4qAoYhA.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/3VjC6chhaYaXx3s4aowa4qAoYhA.png 1988w\",style:{aspectRatio:\"1988 / 1148\"},width:\"994\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"Members of the MOLRA team being transported to the finals testing site by XPRIZE staff. From left to right: Walter Jetz (Yale University), Alex Killion (Yale University), and Nigel Pitman (Field Museum). (Photo: Cat Kutz)\"})}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/e(\"p\",{children:\"Traditionally, taking inventory of the species in a rainforest requires sending in a team of experts with field guides and binoculars for a multi-day expedition. But the devastating pace of the destruction of the world\u2019s rainforests and increasing urgency to better monitor and protect what remains demand faster, easier, and more efficient\\xa0approaches.\"}),/*#__PURE__*/e(\"p\",{children:\"Several years ago, a Yale-based team devised an alternate approach: they use lightweight, unmanned aerial vehicles (UAVs) to collect this critical biodiversity data in remote\\xa0areas.\"}),/*#__PURE__*/e(\"p\",{children:\"Now they\u2019ve collected something else: a coveted international\\xa0honor.\"}),/*#__PURE__*/t(\"p\",{children:[/*#__PURE__*/e(a,{href:\"https://www.xprize.org/prizes/rainforest\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"XPRIZE Rainforest\"})}),\", a $10 million global competition to find the most innovative technology for exploring Earth\u2019s biodiversity, has awarded one of its top prizes to Map of Life Rapid Assessments (MOLRA), an international research group led by Walter Jetz, professor of ecology and evolutionary biology in Yale\u2019s Faculty of Arts and Sciences and director of the \",/*#__PURE__*/e(a,{href:\"https://bgc.yale.edu/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Yale Center for Biodiversity and Global\\xa0Change.\"})})]}),/*#__PURE__*/e(\"p\",{children:\"The MOLRA team placed second in the five-year competition, earning $2 million. XPRIZE Rainforest officials made the announcement Nov. 15 at a ceremony associated with the G20 Social Summit in Rio de\\xa0Janeiro.\"}),/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"374\",src:\"https://framerusercontent.com/images/XIGfd0x6oZYwYYZrnmjqaQGffbI.png\",srcSet:\"https://framerusercontent.com/images/XIGfd0x6oZYwYYZrnmjqaQGffbI.png?scale-down-to=512 512w,https://framerusercontent.com/images/XIGfd0x6oZYwYYZrnmjqaQGffbI.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/XIGfd0x6oZYwYYZrnmjqaQGffbI.png 1296w\",style:{aspectRatio:\"1296 / 748\"},width:\"648\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"MOLRA team members listening to instructions from XPRIZE officials during the 24-hour finals competition. From left to right: Anthony Vastano (Rutgers University), Lesley de Souza (Field Museum), Kevin Winner (Yale University), Mariel Vandegrift (Rutgers University), Alex Killion (Yale University), John Wilshire (Yale University), Walter Jetz (Yale University). (Photo: Cat\\xa0Kutz)\"})}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/e(\"p\",{children:\"\u201CWe are immensely excited about this recognition,\u201D said Jetz, who led in the creation of the groundbreaking Map of Life platform more than a decade ago. \u201CIn the face of rapid biodiversity loss, more accessible and effective tools to measure and plan for biodiversity are urgently needed. We are beyond grateful as the award will allow us to grow our solution that can quickly and cost-effectively deliver actionable biodiversity insights for locations\\xa0anywhere.\u201D \"}),/*#__PURE__*/e(\"p\",{children:\"Map of Life is a global database that tracks the distribution of known species. It is now used by world leaders to monitor, research, and create policies that protect species\\xa0worldwide. \"}),/*#__PURE__*/e(\"p\",{children:\"MOLRA uses the Map of Life database as an engine to combine biodiversity research, innovative survey technologies, and cutting-edge informatics tools to deliver comprehensive local biodiversity information and support conservation action. The company\u2019s fleet of semi-autonomous UAVs collect audio, visual, and environmental DNA samples with minimal human\\xa0intervention. \"}),/*#__PURE__*/e(\"p\",{children:\"The MOLRA XPRIZE team included members from the Yale Center for Biodiversity and Global Change, the Field Museum of Natural History, the Rutgers Environmental DNA Lab, the Federal University of Amazonas, Trinity University, the University of East Anglia, and Sony Group\\xa0Corporation.\"}),/*#__PURE__*/e(\"p\",{children:\"The five-year XPRIZE Rainforest competition \u2014 which seeks to enhance mankind\u2019s knowledge of the rainforest ecosystem by highlighting innovative technology that expedites the monitoring of tropical biodiversity \u2014 began in 2019 with 300 teams from around the\\xa0world. In July, the competition\u2019s six finalist teams were asked to survey 100 hectares of tropical rainforest near Manaus, Brazil, in 24 hours. Their task was to produce meaningful, real-time insights from their data within 48 hours. In addition, each team had to demonstrate the scalability of their\\xa0technology.\"}),/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"404\",src:\"https://framerusercontent.com/images/nFkxspnFErk1a2Myspn9WdHgIQ.png\",srcSet:\"https://framerusercontent.com/images/nFkxspnFErk1a2Myspn9WdHgIQ.png 608w\",style:{aspectRatio:\"608 / 808\"},width:\"304\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"MOLRA UAV in takeoff. (Photo: Cat\\xa0Kutz)\"})}),/*#__PURE__*/e(\"p\",{children:\"The MOLRA team recorded 225 species from 5,500 individual, geolocated identifications, from anteaters to palm trees to frogs \u2014 thanks to a fleet of drones that were mostly pre-programmed to fly missions through the canopy. They collected more than 4,000 photos, 26 hours of audio recordings, and 24 eDNA samples (traces of DNA left by organisms in soil, water, and in the\\xa0air).\"}),/*#__PURE__*/e(\"p\",{children:\"The team was able to identify species from raw samples because of its advanced new modeling technology, state-of-the-art artificial intelligence (AI) algorithms, innovative eDNA processing techniques, and collaboration with biodiversity experts in Brazil and all over the world. Four of the recorded species are globally threatened with extinction, including the giant anteater, the yellow-footed tortoise, the ringed woodpecker, and the white-crested\\xa0guan.\"}),/*#__PURE__*/e(\"p\",{children:\"In the semifinal round, in 2023, MOL Rapid Assessments identified more than 150 species in the central rainforest of Singapore. This came after accumulating 2,199 visual samples, 292 acoustic samples, and 1,419 species identifications of plants, mammals, birds, reptiles, amphibians, and\\xa0insects.\"}),/*#__PURE__*/e(\"p\",{children:\"Several factors contributed to the MOLRA team\u2019s success in the XPRIZE Rainforest competition, Jetz said. First, it leveraged the Map of Life to predict what species might be found at any site around the world \u2014 helping to guide sampling design and the use of AI. Second, no specialists were needed to operate the system on the ground thanks to MOLRA\u2019s largely autonomous nature. Finally, MOLRA\u2019s combination of AI and human biodiversity experts optimizes the breadth and accuracy of species\\xa0identifications.\\xa0\"}),/*#__PURE__*/e(\"p\",{children:\"MOLRA will use the prize money to hire staff and expand its work around the world, Jetz said. With support from Yale Ventures (a university initiative that supports innovation and entrepreneurship campuswide), the team is working with partners across domains and sectors to deliver effective and accessible biodiversity measurement\\xa0solutions.\"}),/*#__PURE__*/e(\"p\",{children:\"\u201COur goal is to deliver a scalable, easy to use, and low-cost biodiversity assessment solution that empowers local stakeholders to protect the natural places they depend on \u2014 at the speed we need to meet the world\u2019s ambitious biodiversity goals,\u201D said Nigel Pitman, a botanist at the Field Museum in Chicago who coordinated the MOLRA plant\\xa0inventory.\\xa0\"}),/*#__PURE__*/e(\"p\",{children:\"\u201CThe technological advances and automation of biodiversity surveys is a major step towards being able to catalog the distribution of the Earth\u2019s biodiversity efficiently and effectively,\u201D said Izeni Farias, a member of the MOLRA team from the Federal University of Amazonas in Brazil. \u201CThe MOLRA tools are accessible and simple to use and can be used to deliver immediate conservation insights to local communities and strategic partners, resulting in meaningful conservation\\xa0actions.\u201D\"}),/*#__PURE__*/t(\"p\",{children:[\"The MOLRA team drew on the expertise of more than a dozen taxonomic experts from around the world and received crucial support from\\xa0\",/*#__PURE__*/e(a,{href:\"https://www.esri.com/en-us/home\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Esri (Environmental Systems Research Institute)\"})}),\",\\xa0\",/*#__PURE__*/e(a,{href:\"https://research.sony/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Sony\"})}),\",\\xa0\",/*#__PURE__*/e(a,{href:\"https://research.google/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Google\"})}),\", and the\\xa0\",/*#__PURE__*/e(a,{href:\"https://eowilsonfoundation.org/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"E.O. Wilson Biodiversity Foundation\"})}),\", and from science/technology partners\\xa0\",/*#__PURE__*/e(a,{href:\"https://geobon.org/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"GEO BON\"})}),\",\\xa0\",/*#__PURE__*/e(a,{href:\"https://sites.google.com/naturalis.nl/amazon-tree-diversity-network/homepage\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"ATDN\"})}),\",\\xa0\",/*#__PURE__*/e(a,{href:\"https://my.plantnet.org/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Pl@ntNet (API)\"})}),\",\\xa0\",/*#__PURE__*/e(a,{href:\"https://www.macaulaylibrary.org/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Macaulay Library\"})}),\", and the\\xa0\",/*#__PURE__*/e(a,{href:\"https://dluthe7.wixsite.com/lutherlab\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Luther Lab at George Mason University\"})}),\".\"]}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})})]});export const richText1=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/e(\"p\",{children:\"33%, 45%, even upwards of 60% \u2013 these are the staggering amounts of suitable habitat some species have lost in the past two decades alone, leaving them struggling to cling on in a dramatically changing world.\"}),/*#__PURE__*/t(\"p\",{children:[\"This habitat change data, calculated by the Map of Life as part of our Species Habitat Index, was featured prominently in a recent New York Times article \u201C\",/*#__PURE__*/e(a,{href:\"https://www.nytimes.com/interactive/2022/12/09/climate/biodiversity-habitat-loss-climate.html?unlocked_article_code=I4ZyYn11IX0coKgKexXjpwboRT90tl2ggqHznTaicdjhGppWbRmV1YSsSRqm-mH8fHzyI2LvqQe9eCpqtB9lHEE4vuDVroQqQEIuET3BjDpiwHsyZ1ftObGDS0t1DnQzbaQrV9tI8_YP-izDJcX4PMv4RJXYYr-NMWEliqw1lr5QHv2OCbWc1RPBmdPd2ouourKe0L8zy7ZapArPFXQ9F4POvnlrn4ZnjGQYb4puBj3kU3w81Cdq82FFWV1cCFbxtKNKSokmFN_JBu6rzhzyX2OBOL0KwPb5QrLvlEVEtLvfZsaZ6lPT4HrmDEU2D4Qfb7SdDFgc12x-sDGbuFchYNPMwdL2kSNJBibmQ_ckYcsOfUzSHNu0iJd91A&smid=share-url\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Animals Are Running Out of Places to Live\"})}),'.\"']}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"608\",src:\"https://framerusercontent.com/images/N68fjd4tN9gEEXeDehcKSLjAlk.png\",srcSet:\"https://framerusercontent.com/images/N68fjd4tN9gEEXeDehcKSLjAlk.png?scale-down-to=512 512w,https://framerusercontent.com/images/N68fjd4tN9gEEXeDehcKSLjAlk.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/N68fjd4tN9gEEXeDehcKSLjAlk.png 1598w\",style:{aspectRatio:\"1598 / 1216\"},width:\"799\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/t(\"p\",{children:[\"Some of the species featured in the NYT article. Photo Credits: White-Fronted Brown Lemur \u2013 Frank Vassen via \",/*#__PURE__*/e(a,{href:\"https://www.flickr.com/photos/42244964@N03/4023109222\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Flickr\"})}),\", \",/*#__PURE__*/e(a,{href:\"https://creativecommons.org/licenses/by/2.0/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"CC BY 2.0\"})}),\"; Honduran White Bat \u2013 Leyo via \",/*#__PURE__*/e(a,{href:\"https://commons.wikimedia.org/wiki/File:Ectophylla_alba_Costa_Rica.jpg\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Wikimedia\"})}),\", \",/*#__PURE__*/e(a,{href:\"https://creativecommons.org/licenses/by-sa/2.5/ch/deed.en\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"CC BY-SA 2.5 CH\"})}),\"; Shining Honeycreeper \u2013 \",/*#__PURE__*/e(a,{href:\"https://ast.wikipedia.org/wiki/Cyanerpes_lucidus#/media/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Jan Axel\"})}),\" via Wikipedia, \",/*#__PURE__*/e(a,{href:\"https://creativecommons.org/licenses/by/3.0/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"CC BY 3.0\"})}),\"; Abah River Flying Frog \u2013 \",/*#__PURE__*/e(a,{href:\"http://www.thainationalparks.com/khao-sok-national-park\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Thai National Parks\"})}),\", \",/*#__PURE__*/e(a,{href:\"https://creativecommons.org/licenses/by-sa/2.0/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"CC BY-SA 2.0\"})})]})}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/e(\"p\",{children:\"\u201CCan we find a way to share the planet with the rest of its inhabitants?\u201D rings the plea from the article, which shares the faces of those species facing the most severe habitat loss \u2013 species like the miniscule Honduran White Bat, which has suffered a 53% loss of suitable habitat area and a 46% decrease in habitat connectivity since 2001, and the Madagascar-endemic White-Fronted Brown Lemur, which has lost 40% and 36% of its habitat area and connectivity, respectively.\"}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"469\",src:\"https://framerusercontent.com/images/seoRfd9FVmwqU3DCHWb01Cjg7o.png\",srcSet:\"https://framerusercontent.com/images/seoRfd9FVmwqU3DCHWb01Cjg7o.png?scale-down-to=512 512w,https://framerusercontent.com/images/seoRfd9FVmwqU3DCHWb01Cjg7o.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/seoRfd9FVmwqU3DCHWb01Cjg7o.png 1590w\",style:{aspectRatio:\"1590 / 938\"},width:\"795\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"Screenshot from past version of Map of Life\"})}),/*#__PURE__*/e(\"p\",{children:\"The Species Habitat Index is one among our suite of biodiversity indicators that measures annual, species-level change in habitat as well as nationally-aggregated indices. Fusing remotely sensed environmental layers with species occurrence, distribution, and trait data, we calculate the change in suitable habitat area and connectivity for tens of thousands of terrestrial vertebrate species over two decades to track how ecosystem integrity and species populations change over time. The Species Habitat Index addresses Goal A of the Convention on Biological Diversity\u2019s Post-2020 Global Biodiversity Framework:\"}),/*#__PURE__*/e(\"p\",{children:\"Goal A: The integrity of all ecosystems is enhanced, with an increase of at least 15 per cent in the area, connectivity and integrity of natural ecosystems, supporting healthy and resilient populations of all species, the rate of extinctions has been reduced at least tenfold, and the risk of species extinctions across all taxonomic and functional groups, is halved, and genetic diversity of wild and domesticated species is safeguarded, with at least 90 per cent of genetic diversity within all species maintained.\"}),/*#__PURE__*/e(\"p\",{children:\"The NYT article highlights the crucial decisions currently underway at the COP15 in Montreal, where BGC Center members are leading conversations about the implementation of the biodiversity indicators for national monitoring and conservation decision making.\"}),/*#__PURE__*/t(\"p\",{children:[\"Read the full article on \",/*#__PURE__*/e(a,{href:\"https://www.nytimes.com/interactive/2022/12/09/climate/biodiversity-habitat-loss-climate.html?unlocked_article_code=I4ZyYn11IX0coKgKexXjpwboRT90tl2ggqHznTaicdjhGppWbRmV1YSsSRqm-mH8fHzyI2LvqQe9eCpqtB9lHEE4vuDVroQqQEIuET3BjDpiwHsyZ1ftObGDS0t1DnQzbaQrV9tI8_YP-izDJcX4PMv4RJXYYr-NMWEliqw1lr5QHv2OCbWc1RPBmdPd2ouourKe0L8zy7ZapArPFXQ9F4POvnlrn4ZnjGQYb4puBj3kU3w81Cdq82FFWV1cCFbxtKNKSokmFN_JBu6rzhzyX2OBOL0KwPb5QrLvlEVEtLvfZsaZ6lPT4HrmDEU2D4Qfb7SdDFgc12x-sDGbuFchYNPMwdL2kSNJBibmQ_ckYcsOfUzSHNu0iJd91A&smid=share-url\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"the New York Times\"})}),\" and learn more about the Species Habitat Index at \",/*#__PURE__*/e(a,{href:\"https://mapoflife.ai/dashboard/documentation\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"here\"})}),\".\"]})]});export const richText2=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"513\",src:\"https://framerusercontent.com/images/t3Iymej0KziTh1LpSbx4IBsfC8.png\",srcSet:\"https://framerusercontent.com/images/t3Iymej0KziTh1LpSbx4IBsfC8.png?scale-down-to=512 512w,https://framerusercontent.com/images/t3Iymej0KziTh1LpSbx4IBsfC8.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/t3Iymej0KziTh1LpSbx4IBsfC8.png 1838w\",style:{aspectRatio:\"1838 / 1026\"},width:\"919\"}),/*#__PURE__*/e(\"p\",{children:\"As the world\u2019s nations prepare to set new goals for protecting biodiversity, Yale researchers have identified where data gaps continue to limit effective conservation\\xa0decisions.\"}),/*#__PURE__*/e(\"p\",{children:\"In a new study, a team of researchers created maps and assessed regional trends in how well existing species data are able to represent the distribution of 31,000 terrestrial vertebrates worldwide and therefore help inform policies and actions for sustaining biodiversity and its\\xa0benefits.\"}),/*#__PURE__*/t(\"p\",{children:[\"\u201CThese maps highlight the most rewarding opportunities for citizen scientists, and government agencies, and scientists to support biodiversity monitoring and help close critical knowledge gaps,\u201D said Walter Jetz, professor of ecology and evolutionary biology and of the environment, director of the \",/*#__PURE__*/e(a,{href:\"https://bgc.yale.edu/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Yale Center for Biodiversity and Global Change\"})}),\" (BGC), and senior author of the\\xa0paper.\"]}),/*#__PURE__*/e(\"p\",{children:\"The study was published Aug. 10 in the journal PLOS\\xa0Biology.\"}),/*#__PURE__*/e(\"p\",{children:\"The need for such information is critical as environmental and policy leaders continue to create strategies to protect species diversity worldwide as part of the Convention on Biological Diversity, an international treaty with the aim of conserving and managing global biodiversity which is assessing progress towards those\\xa0goals.\"}),/*#__PURE__*/e(\"p\",{children:\"Jetz and his team have created one of the key tools used by world leaders to monitor, research, and create policies that protect species worldwide \u2014 Map of Life.\"}),/*#__PURE__*/e(\"p\",{children:\"In the new study, the researchers present a framework to help pinpoint where additional monitoring is most needed. While there has been a dramatic increase in the amount of data collected on vertebrate species in the past 20 years, they find, not all of this data has yielded new insights on biodiversity. For instance, data on bird species shared by citizen scientists and others tend to be redundant due to the popularity of certain species commonly found in highly populated areas. Most new data collected on birds are from the same species and\\xa0places.\"}),/*#__PURE__*/e(\"p\",{children:\"The analysis was conducted by Yale\u2019s Ruth Oliver, an associate research scientist at the Center for Biodiversity and Global Change, Jetz, and\\xa0colleagues.\"}),/*#__PURE__*/e(\"p\",{children:\"Alarmingly, the study finds that data critical for characterizing biodiversity in many countries has leveled off or, in some cases, even decreased. According to the analysis, 42% of countries have inadequate information on vertebrate biodiversity and have seen either no increase or a decrease in data coverage. Only 17% of countries have achieved sufficient data coverage and also seen an increase in new information on\\xa0species.\"}),/*#__PURE__*/e(\"p\",{children:\"\u201CWe hope our work quantifying the tremendous complementary value of observations of underreported biodiversity can support more effective data collection going forward,\u201D Oliver said. \u201CIt\u2019s amazing how much we still don\u2019t know about the known species on this\\xa0planet.\u201D\"}),/*#__PURE__*/e(\"p\",{children:\"While the indices used in the study were used to demonstrate the biological diversity of terrestrial vertebrates, they can be readily updated as new data becomes available and expanded to other taxa, such as marine and invertebrate species. \"}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(a,{href:\"https://news.yale.edu/2021/08/11/worlds-biodiversity-maps-contain-many-gaps-yale-study-finds\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"View the article on Yale News\"})})})]});export const richText3=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"The Gonzaga's leaf frog (Pithecopus gonzagai) was discovered in 2020 in northeastern Brazil, an area that could hold many more undescribed vertebrates.Diego J. Santana\"})}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/t(\"p\",{children:[\"Ecologists involved in mapping all life on Earth have now taken the next step: predicting where the life we don't know about is waiting to be discovered. As a first pass, they have created an interactive map showing diversity hot spots with the richest potential for new mammal, bird, reptile, and amphibian species. They describe their results today in\",/*#__PURE__*/e(a,{href:\"https://www.nature.com/articles/s41559-021-01411-5\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/t(n.a,{children:[\" \",/*#__PURE__*/e(\"em\",{children:\"Nature Ecology & Evolution\"})]})}),\".\"]}),/*#__PURE__*/e(\"p\",{children:'\"Unknown species are usually left out of conservation planning, management, and decision-making,\" says co-author Mario Moura, an ecologist at the Federal University of Para\\xedba. \"If we want to improve biodiversity conservation worldwide, we need to better know its species.\"'}),/*#__PURE__*/e(\"p\",{children:'It never sat well with Moura that an estimated 85% of Earth\\'s species are still undescribed. So, in 2018, this newly minted Ph.D. in ecology teamed up with ecologist Walter Jetz at Yale University to come up with a way to better predict where those unknowns are. \"The chances of being discovered and described early are not equal among species,\" Moura explains. For example, large mammals living near people are much more likely to have been documented by scientists than tiny frogs living in a remote jungle.'}),/*#__PURE__*/e(\"p\",{children:'Over 2 years, Moura and Jetz compiled data on size, habitat, and nine other attributes\u2014including how many taxonomists study them\u2014for all of the known 32,000 vertebrates. Using a computer model, they determined the probability of when an organism with different combinations of these attributes would have been\u2014or will be\u2014discovered and where. \"Our approach uses known species to predict unknown ones,\" Moura says.'}),/*#__PURE__*/e(\"p\",{children:\"They predict that some places, such as the Guinean forests of West Africa and many Southeast Asian islands, are likely to be rich in undescribed organisms because they have high densities of species but are relatively inaccessible. More than 10% of the world's undiscovered land vertebrates are in Brazil; Madagascar, Colombia, and Indonesia account for 5% each, Moura and Jetz conclude. Overall, such discovery hot spots account for just 10% of the Earth's land surface but hold almost 70% of the projected future discoveries of new species, they note.\"}),/*#__PURE__*/e(\"p\",{children:\"Many of those discoveries will be in tropical forests and will uncover lots of frogs, geckos, and other amphibians and reptiles, which represent three-quarters of what's still unknown, the researchers report. Among mammals, they expect more rodents, bats, and primates to be uncovered; among birds, perhaps just a few songbirds.\"}),/*#__PURE__*/e(\"p\",{children:'Their new map of \"species discovery potential\" can help guide conservation planning, Jetz says. \"I see tremendous opportunity for the findings to help more efficiently deploy the limited resources and time for discovery work.\" Researchers could use the maps, for instance, to target areas expected to be hit hard by climate change, in order to better understand the impacts.'}),/*#__PURE__*/e(\"p\",{children:\"In the meantime, the mapmakers say they are not done. Next, they hope to develop similar maps that could help scientists find and describe thousands of species of invertebrates and plants.\"})]});export const richText4=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/t(\"p\",{children:[\"This antelope is just one of hundreds of species that may be imperiled in the next four to five decades, according to a recent NASA-funded \",/*#__PURE__*/e(a,{href:\"https://doi.org/10.1038/s41558-019-0406-z\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"study\"})}),\". Researchers from Yale University \",/*#__PURE__*/e(a,{href:\"https://news.yale.edu/2019/03/04/due-humans-extinction-risk-1700-animal-species-increase-2070\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"examined the habitats\"})}),\" of 19,400 species to learn how they might be affected by human land-use and encroachment, such as urban development and deforestation. They found that habitats for nearly 1,700 bird, mammal, and amphibian species are expected to shrink about 6 to 10 percent per decade by 2070, greatly increasing the risk of extinction for these animals.\"]}),/*#__PURE__*/e(\"p\",{children:\"\u201CWe all want to see economic progress and development, and that necessarily implies further human-induced changes to landscapes,\u201D said Walter Jetz, co-author of the study and professor of ecology at Yale. \u201CBut unless potential impacts of this land use on biodiversity are known and addressed in some form, the long-term consequences could lead to species forever lost for future generations.\u201D\"}),/*#__PURE__*/t(\"p\",{children:[\"The maps on this page show the potential decrease of suitable habitats for two vulnerable species. The map above shows the habitat change for the Nile lechwes from 2015 (left) to 2070 (right). The antelope species could lose approximately 70 percent of its suitable habitat and become \",/*#__PURE__*/e(a,{href:\"https://www.iucnredlist.org/species/11034/50189177\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"\u201Ccritically endangered\u201D\"})}),\" by 2070.\"]}),/*#__PURE__*/t(\"p\",{children:[\"The map below shows the habitat of \",/*#__PURE__*/e(\"em\",{children:\"Oreophryne monticola\"}),\", a frog endemic to Indonesia. The frog is currently listed as \",/*#__PURE__*/e(a,{href:\"https://www.iucnredlist.org/species/57925/114919880\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"\u201Cendangered\u201D\"})}),\" and is predicted to lose more than 50 percent of its habitat in Lombok and Bali by 2070.\"]}),/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"542\",src:\"https://framerusercontent.com/images/ClkpEPNvpOcognWlDrFh95mTCY.png\",srcSet:\"https://framerusercontent.com/images/ClkpEPNvpOcognWlDrFh95mTCY.png?scale-down-to=512 512w,https://framerusercontent.com/images/ClkpEPNvpOcognWlDrFh95mTCY.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/ClkpEPNvpOcognWlDrFh95mTCY.png 1440w\",style:{aspectRatio:\"1440 / 1084\"},width:\"720\"}),/*#__PURE__*/e(\"p\",{children:\"\u201CIf a country is projected to see a lot of change of swamps or forest to agriculture, this a good predictor that some species in that area are in jeopardy,\u201D said Jetz. \u201CThat doesn\u2019t mean these species are necessarily going to go extinct, but they are going to be put under pressure.\u201D\"}),/*#__PURE__*/e(\"p\",{children:\"According to the study, amphibians will be the most affected by human land use, followed by birds and mammals. Geographically, species living in South America, Southeast Asia, Central and East Africa, and Mesoamerica are expected to experience the most habitat loss and the greatest increase of extinction risk.\"}),/*#__PURE__*/e(\"p\",{children:\"To make these predictions, Jetz and co-author Ryan Powers created a model that allowed them to analyze 2015 habitat conditions of about 19,400 species under anticipated changes in land-use in these areas.\"}),/*#__PURE__*/t(\"p\",{children:[\"To first estimate the area of suitable habitats in 2015, the team used several remote sensing layers. Elevation data came from Shuttle Radar Topography Mission (SRTM) and the \",/*#__PURE__*/e(a,{href:\"https://asterweb.jpl.nasa.gov/gdem.asp\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Advanced Spaceborne Thermal Emission and Reflection Radiometer\"})}),\" (ASTER). Tree cover data came from the \",/*#__PURE__*/e(a,{href:\"https://earthenginepartners.appspot.com/science-2013-global-forest\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Global Forest Change data set\"})}),\", which uses \",/*#__PURE__*/e(a,{href:\"https://landsat.gsfc.nasa.gov/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Landsat\"})}),\" data to document global tree cover gains and losses.\"]}),/*#__PURE__*/t(\"p\",{children:[\"The researchers then ran a model combining this habitat suitability information with future land-cover projections from the \",/*#__PURE__*/e(a,{href:\"http://luh.umd.edu/\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Land Use Harmonization data set\"})}),\" in order to estimate decadal changes from 2015 to 2070. They ran the numbers under four different socioeconomic \",/*#__PURE__*/e(a,{href:\"https://www.ipcc-data.org/guidelines/pages/glossary/glossary_r.html\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"scenarios\"})}),\" that would bring variations in land use. (The maps on this page show the \u201Cmiddle-of-the-road\u201D economic scenario and assume no land will be recovered once destroyed.) Even in the best cases, many species are predicted to experience habitat losses by 2070.\"]}),/*#__PURE__*/e(\"p\",{children:\"\u201CEven though we might see certain losses into the future no matter what we do,\u201D said Jetz, \u201Cwe can adjust to have the greatest chance of preserving life.\u201D The study could help future conservation efforts by local, national, and international organizations.\"}),/*#__PURE__*/t(\"p\",{children:[\"The research by Jetz and Powers feeds into an initiative called the \",/*#__PURE__*/e(a,{href:\"https://mapoflife.ai/dashboard/species\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Map of Life\"})}),\", a NASA-funded public web platform designed to integrate large amounts of biodiversity and environmental data from researchers and citizen scientists. The global database aims to support a worldwide monitoring of species distributions.\"]}),/*#__PURE__*/t(\"p\",{children:[/*#__PURE__*/e(\"em\",{children:\"NASA Earth Observatory images by Lauren Dauphin, using data from \"}),/*#__PURE__*/e(a,{href:\"https://doi.org/10.1038/s41558-019-0406-z\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:/*#__PURE__*/e(\"em\",{children:\"Powers, Ryan, et al. (2019)\"})})}),/*#__PURE__*/e(\"em\",{children:\". Story by \"}),/*#__PURE__*/e(a,{href:\"https://earthobservatory.nasa.gov/about/kasha-patel\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:/*#__PURE__*/e(\"em\",{children:\"Kasha Patel\"})})}),/*#__PURE__*/e(\"em\",{children:\".\"})]}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(a,{href:\"https://earthobservatory.nasa.gov/images/145340/study-projects-troubles-for-1700-vertebrate-species\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"View article on NASA Earth Observatory\"})})})]});export const richText5=/*#__PURE__*/t(o.Fragment,{children:[/*#__PURE__*/e(\"img\",{alt:\"\",className:\"framer-image\",height:\"502\",src:\"https://framerusercontent.com/images/5MDvLo7rxXBHdOqvPjZJW5ubo.png\",srcSet:\"https://framerusercontent.com/images/5MDvLo7rxXBHdOqvPjZJW5ubo.png?scale-down-to=512 512w,https://framerusercontent.com/images/5MDvLo7rxXBHdOqvPjZJW5ubo.png?scale-down-to=1024 1024w,https://framerusercontent.com/images/5MDvLo7rxXBHdOqvPjZJW5ubo.png 1840w\",style:{aspectRatio:\"1840 / 1004\"},width:\"920\"}),/*#__PURE__*/e(\"blockquote\",{children:/*#__PURE__*/e(\"p\",{children:\"The Nile lechwe (pictured) is an already endangered antelope species in East Africa. This study predicts that under the most plausible ecological future(s) it may lose 70% of its remaining habitat due to large-scale, human-driven land conversions, such as those already underway to support agricultural exports to Asia. (Illustration by Michael S.\\xa0Helfenbein)\"})}),/*#__PURE__*/e(\"p\",{children:/*#__PURE__*/e(\"br\",{className:\"trailing-break\"})}),/*#__PURE__*/t(\"p\",{children:[\"As humans continue to expand our use of land across the planet, we leave other species little ground to stand on. By 2070, increased human land-use is expected to put 1,700 species of amphibians, birds, and mammals at greater extinction risk by shrinking their natural habitats, according to\",/*#__PURE__*/e(a,{href:\"https://www.nature.com/articles/s41558-019-0406-z\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!0,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\" a study by Yale ecologists published in Nature Climate Change\"})}),\".\"]}),/*#__PURE__*/e(\"p\",{children:\"To make this prediction, the ecologists combined information on the current geographic distributions of about 19,400 species worldwide with changes to the land cover projected under four different trajectories for the world scientists have agreed on as likely. These potential paths represent reasonable expectations about future developments in global society, demographics, and\\xa0economics.\"}),/*#__PURE__*/e(\"p\",{children:\"\u201COur findings link these plausible futures with their implications for biodiversity,\u201D said Walter Jetz, co-author and professor of ecology and evolutionary biology and of forestry and environmental studies at Yale. \u201COur analyses allow us to track how political and economic decisions \u2014 through their associated changes to the global land cover \u2014 are expected to cause habitat range declines in species\\xa0worldwide.\u201D\"}),/*#__PURE__*/e(\"p\",{children:\"While biodiversity erosion in far-away parts of the planet may not seem to affect us directly, its consequences for human livelihood can reverberate\\xa0globally.\"}),/*#__PURE__*/e(\"p\",{children:\"Walter\\xa0Jetz\"}),/*#__PURE__*/e(\"p\",{children:\"The study shows that under a middle-of-the-road scenario of moderate changes in human land-use about 1,700 species will likely experience marked increases in their extinction risk over the next 50 years: They will lose roughly 30-50% of their present habitat ranges by 2070. These species of concern include 886 species of amphibians, 436 species of birds, and 376 species of mammals \u2014 all of which are predicted to have a high increase in their risk of\\xa0extinction.\"}),/*#__PURE__*/t(\"p\",{children:[\"Among them are species whose fates will be particularly dire, such as the Lombok cross frog (Indonesia), the Nile lechwe (South Sudan), the pale-browed treehunter (Brazil) and the curve-billed reedhaunter (Argentina, Brazil, Uruguay) which are all predicted to lose around half of their present day geographic range in the next five decades. These projections and all other analyzed species can be examined at the \",/*#__PURE__*/e(a,{href:\"https://www.mapoflife.ai/platform\",motionChild:!0,nodeId:\"qLblOxXgR\",openInNewTab:!1,scopeId:\"contentManagement\",smoothScroll:!1,children:/*#__PURE__*/e(n.a,{children:\"Map of Life\\xa0website\"})}),\".\"]}),/*#__PURE__*/e(\"p\",{children:\"\u201CThe integration of our analyses with the Map of Life can support anyone keen to assess how species may suffer under specific future land-use scenarios and help prevent or mitigate these effects,\u201D said Ryan P. Powers, co-author and former postdoctoral fellow in the Jetz Lab at\\xa0Yale.\"}),/*#__PURE__*/e(\"p\",{children:\"Species living in Central and East Africa, Mesoamerica, South America, and Southeast Asia will suffer the greatest habitat loss and increased extinction risk. But Jetz cautioned the global public against assuming that the losses are only the problem of the countries within whose borders they\\xa0occur.\"}),/*#__PURE__*/e(\"p\",{children:\"\u201CLosses in species populations can irreversibly hamper the functioning of ecosystems and human quality of life,\u201D said Jetz. \u201CWhile biodiversity erosion in far-away parts of the planet may not seem to affect us directly, its consequences for human livelihood can reverberate globally. It is also often the far-away demand that drives these losses \u2014 think tropical hardwoods, palm oil, or soybeans \u2014 thus making us all\\xa0co-responsible.\u201D\"}),/*#__PURE__*/e(\"p\",{children:\"The study was funded by grants from the National Science Foundation, the Natural Sciences and Engineering Research Council of Canada, and the National Aeronautics and Space\\xa0Administration.\"})]});\nexport const __FramerMetadata__ = {\"exports\":{\"richText3\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"richText4\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"richText\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"richText2\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"richText1\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"richText5\":{\"type\":\"variable\",\"annotations\":{\"framerContractVersion\":\"1\"}},\"__FramerMetadata__\":{\"type\":\"variable\"}}}"],
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