{ "title" : "CoRIS Geoportal GeoRSS.", "description" : "Most recently updated metadata documents.", "copyright" : "", "provider" : "http:\/\/www.coris.noaa.gov\/search", "updated" : "2025-11-03T10:30:18Z", "source" : "http:\/\/www.coris.noaa.gov\/search\/rest\/find\/document?f=pjson&max=10&start=1", "more" : "http:\/\/www.coris.noaa.gov\/search\/rest\/find\/document?f=pjson&max=10&start=11", "totalResults" : 9245, "startIndex" : 1, "itemsPerPage" : 10, "records" : [ { "title" : "Expedition Report: EX2406, Beyond the Blue: Johnston Atoll Mapping", "id" : "{F17DD0A6-81AE-45AA-9A84-C36C4A497272}", "updated" : "2025-11-02T07:07:00Z", "summary" : "From September 14-October 10, 2024 (Hilo, Hawai’i, to Honolulu, Hawai’i), NOAA Ocean Exploration conducted the Beyond the Blue: Johnston Atoll Mapping expedition (EX2406), a mapping expedition to the Johnston Atoll. EX2406 mapped 47,979 sq. km of seafloor...", "bbox" : [163.070637, -0.980462, -159.385349, 19.4], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [163.070637,-0.980462], [163.070637,19.4], [-159.385349,19.4], [-159.385349,-0.980462], [163.070637,-0.980462] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/71902", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BF17DD0A6-81AE-45AA-9A84-C36C4A497272%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BF17DD0A6-81AE-45AA-9A84-C36C4A497272%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.25923\/7vs2-zr57", "type" : "customLink" } ] }, { "title" : "Understanding differential heat tolerance of the threatened mountainous star coral Orbicella faveolata from inshore and offshore reef sites in the Florida Keys using gene network analysis", "id" : "{09638516-7BE2-4FBD-BDAC-A81E3A305D76}", "updated" : "2025-10-29T07:06:44Z", "summary" : "Climate change driven ocean warming is causing widespread degradation of coral reefs. In the Florida Keys, many reefs have lost much of their coral cover, yet some inshore reefs have maintained higher coral cover and exhibited higher bleaching resistance ...", "bbox" : [-87.994896, 24.006308, -79.624306, 30.476], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-87.994896,24.006308], [-87.994896,30.476], [-79.624306,30.476], [-79.624306,24.006308], [-87.994896,24.006308] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/66678", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7B09638516-7BE2-4FBD-BDAC-A81E3A305D76%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7B09638516-7BE2-4FBD-BDAC-A81E3A305D76%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1371\/journal.pclm.0000403", "type" : "customLink" } ] }, { "title" : "Shift from coral to macroalgae dominance on a volcanically acidified reef", "id" : "{31C34139-C610-4C97-82B3-F0A6A76BAE37}", "updated" : "2025-10-29T07:06:34Z", "summary" : "Rising anthropogenic CO2 in the atmosphere is accompanied by an increase in oceanic CO2 and a concomitant decline in seawater pH). This phenomenon, known as ocean acidification (OA), has been experimentally shown to impact the biology and ecology of numer...", "bbox" : [142.0, 14.2, 146.0, 21.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [142.0,14.2], [142.0,21.0], [146.0,21.0], [146.0,14.2], [142.0,14.2] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/61839", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7B31C34139-C610-4C97-82B3-F0A6A76BAE37%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7B31C34139-C610-4C97-82B3-F0A6A76BAE37%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1038\/nclimate2758", "type" : "customLink" } ] }, { "title" : "Coral persistence despite extreme periodic pH fluctuations at a volcanically acidified Caribbean reef", "id" : "{37BB6F9C-BD7C-4CB6-BED9-D79B8510D322}", "updated" : "2025-10-29T07:06:34Z", "summary" : "Naturally acidified environments, such as those caused by volcanic CO2 venting, reveal how complex coral reef ecosystems may respond to future ocean acidification conditions. Few of these sites have been described worldwide, and only a single such site is...", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/61715", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7B37BB6F9C-BD7C-4CB6-BED9-D79B8510D322%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7B37BB6F9C-BD7C-4CB6-BED9-D79B8510D322%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1007\/s00338-020-01927-5", "type" : "customLink" } ] }, { "title" : "Multi‐Factor Coral Disease Risk: A new product for early warning and management", "id" : "{CE41D8CA-FA15-40F5-B1D8-B2BAAD8E4F63}", "updated" : "2025-10-29T07:06:30Z", "summary" : "Ecological forecasts are becoming increasingly valuable tools for conservation and management. However, there are few examples of near‐real‐time forecasting systems that account for the wide range of ecological complexities. We developed a new coral disea...", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/60773", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BCE41D8CA-FA15-40F5-B1D8-B2BAAD8E4F63%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BCE41D8CA-FA15-40F5-B1D8-B2BAAD8E4F63%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1002\/eap.2961", "type" : "customLink" } ] }, { "title" : "Coral reefs in peril in a record-breaking year", "id" : "{C990D74B-AFD8-4ED0-AFC0-021BCE108CE8}", "updated" : "2025-10-29T07:06:21Z", "summary" : "Climate change and its impacts on coral reefs have reached uncharted territory", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/56641", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BC990D74B-AFD8-4ED0-AFC0-021BCE108CE8%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BC990D74B-AFD8-4ED0-AFC0-021BCE108CE8%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1126\/science.adk4532", "type" : "customLink" } ] }, { "title" : "Coral Reef Carbonate Chemistry Reveals Interannual, Seasonal, and Spatial Impacts on Ocean Acidification Off Florida", "id" : "{E389E4A1-2D6E-4614-9DBB-430935C64950}", "updated" : "2025-10-29T07:06:17Z", "summary" : "Ocean acidification (OA) threatens coral reef persistence by decreasing calcification and accelerating the dissolution of reef frameworks. The carbonate chemistry of coastal areas where many reefs exist is strongly influenced by the metabolic activity of ...", "bbox" : [-87.994896, 24.006308, -79.624306, 30.476], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-87.994896,24.006308], [-87.994896,30.476], [-79.624306,30.476], [-79.624306,24.006308], [-87.994896,24.006308] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/56464", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BE389E4A1-2D6E-4614-9DBB-430935C64950%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BE389E4A1-2D6E-4614-9DBB-430935C64950%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1029\/2023GB007789", "type" : "customLink" } ] }, { "title" : "Ocean acidification influences the gene expression and physiology of two Caribbean bioeroding sponges", "id" : "{D355446F-7A80-4B90-8953-F762D79F952F}", "updated" : "2025-10-29T07:06:12Z", "summary" : "IntroductionCoral reef ecosystems are experiencing increased rates of carbonate dissolution due to losses in live coral cover coupled with the impacts of ocean acidification (OA) on coral reef calcifiers and bioeroders. While the stimulating effect of OA ...", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/55516", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BD355446F-7A80-4B90-8953-F762D79F952F%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BD355446F-7A80-4B90-8953-F762D79F952F%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.3389\/fmars.2023.1223380", "type" : "customLink" } ] }, { "title" : "A plan to finish mapping the Pacific U.S. Exclusive Economic Zone", "id" : "{6B912DD7-55AC-44EB-8979-F34A21B760D0}", "updated" : "2025-10-26T07:05:59Z", "summary" : "Program offices throughout NOAA are interested in mapping US waters across the Pacific Ocean; we present here a detailed estimate of the time required to map this area. With a limited number of properly outfitted mapping vessels, and an increasing number ...", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/45359", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7B6B912DD7-55AC-44EB-8979-F34A21B760D0%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7B6B912DD7-55AC-44EB-8979-F34A21B760D0%7D", "type" : "metadata" } ] }, { "title" : "Climate‐induced changes in the suitable habitat of cold‐water corals and commercially important deep‐sea fishes in the North Atlantic", "id" : "{C5A754F5-75B0-4E86-97B3-BB2B27FA0A00}", "updated" : "2025-10-12T07:07:55Z", "summary" : "The deep sea plays a critical role in global climate regulation through uptake and storage of heat and carbon dioxide. However, this regulating service causes warming, acidification and deoxygenation of deep waters, leading to decreased food availability ...", "bbox" : [-180.0, -90.0, 180.0, 90.0], "geometry" : { "type" : "Polygon", "coordinates" : [ [ [-180.0,-90.0], [-180.0,90.0], [180.0,90.0], [180.0,-90.0], [-180.0,-90.0] ] ] }, "links" : [ { "href" : "https:\/\/repository.library.noaa.gov\/view\/noaa\/71824", "type" : "website" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/catalog\/search\/resource\/details.page?uuid=%7BC5A754F5-75B0-4E86-97B3-BB2B27FA0A00%7D", "type" : "details" }, { "href" : "http:\/\/www.coris.noaa.gov\/search\/rest\/document?id=%7BC5A754F5-75B0-4E86-97B3-BB2B27FA0A00%7D", "type" : "metadata" }, { "href" : "https:\/\/doi.org\/10.1111\/gcb.14996", "type" : "customLink" } ] } ] }