{"dcterms:modified":"2023-12-12","dcterms:creator":"UNIMI Dataverse","@type":"ore:ResourceMap","@id":"https://dataverse.unimi.it/api/datasets/export?exporter=OAI_ORE&persistentId=https://doi.org/10.13130/RD_UNIMI/ARAI8C","ore:describes":{"subject":["Earth and Environmental Sciences","Medicine, Health and Life Sciences"],"dateOfDeposit":"2022-03-16","citation:depositor":"Brambilla, Mattia","title":"Species data with variables for \"Identifying climate refugia for high-elevation Alpine birds under current climate warming predictions\"","citation:datasetContact":{"citation:datasetContactName":"Brambilla, Mattia","citation:datasetContactAffiliation":"Università degli Studi di Milano, Dept. Environmental Science and Policy"},"citation:dsDescription":{"citation:dsDescriptionValue":"These files include species location and background points used for Species Distribution Models, with relative values of environmental variables used in the modelling procedure. Files are provided in CSV format and in RDS format (to be used in R for model running). The txt file includes the code for running the main models (MaxEnt) shown in the paper and used to identify climate refugia.\nThe data have been provided by different institutions and have been used under a specific licence for the current study; restrictions hence apply to their availability. Data are made available by the authors in agreement with providing insitutions, but any further use requires the permission of the third parties involved in data provision.\nFor rock ptarmigan, which is a quarry species in many Alpine regions despite the concerning conservation status, coordinates are not provided because of conservation reasons.\nAll data have a spatial resolution of 1 km, and the coordinate reference system is EPSG 3035. See the text of the associated paper for further details."},"publication":{"publicationCitation":"Brambilla, M., Rubolini, D., Appukuttan, O., Calvi, G., Karger, D. N., Kmecl, P., Mihelič, T., Sattler, T., Seaman, B., Teufelbauer, N., Wahl, J., & Celada, C. (2022). Identifying climate refugia for high-elevation Alpine birds under current climate warming predictions. Global Change Biology, 28, 4276–4291.","publicationIDType":"doi","publicationIDNumber":"https://doi.org/10.1111/gcb.16187"},"author":{"citation:authorName":"Brambilla, Mattia","citation:authorAffiliation":"Università degli Studi di Milano, Dept. Environmental Science and Policy","authorIdentifierScheme":"ORCID","authorIdentifier":"0000-0002-7643-4652"},"@id":"https://doi.org/10.13130/RD_UNIMI/ARAI8C","@type":["ore:Aggregation","schema:Dataset"],"schema:version":"1.1","schema:name":"Species data with variables for \"Identifying climate refugia for high-elevation Alpine birds under current climate warming predictions\"","schema:dateModified":"2023-12-12 11:20:50.197","schema:datePublished":"2022-03-31","schema:license":"http://creativecommons.org/publicdomain/zero/1.0","dvcore:fileTermsOfAccess":{"dvcore:fileRequestAccess":false},"schema:includedInDataCatalog":"UNIMI Dataverse","schema:isPartOf":{"schema:name":"Replication Data for \"Identifying climate refugia for high-elevation Alpine birds under current climate warming predictions\"","@id":"https://dataverse.unimi.it/dataverse/Identclimref","schema:description":"Data related to Brambilla, M., Rubolini, D., Appukuttan, O., Calvi, G., Karger, D. N., Kmecl, P., Mihelič, T., Sattler, T., Seaman, B., Teufelbauer, N., Wahl, J., & Celada, C. (2022). Identifying climate refugia for high-elevation Alpine birds under current climate warming predictions. Global Change Biology, 28, 4276–4291. https://doi.org/10.1111/gcb.16187","schema:isPartOf":{"schema:name":"Dipartimento di scienze e politiche ambientali","@id":"https://dataverse.unimi.it/dataverse/ESP","schema:isPartOf":{"schema:name":"UNIMI Dataverse","@id":"https://dataverse.unimi.it/dataverse/unimi","schema:description":"Unimi Dataverse is a repository for research data"}}},"ore:aggregates":[{"schema:description":"R script to compute AICc","schema:name":"Appendix_4_AICc_formula_CB.R","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/SLVDCC","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/SLVDCC","@type":"ore:AggregatedResource","schema:fileFormat":"type/x-r-syntax","dvcore:filesize":1006,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdffee840-a3395e414361","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"866e7a5bfaa25d38a8b6572c2aa681d8"}},{"schema:description":"R codes to run the paper's main SDM (MaxEnt) models","schema:name":"Appendix_5_SDM_script.txt","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/MMPHK8","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/MMPHK8","@type":"ore:AggregatedResource","schema:fileFormat":"text/plain","dvcore:filesize":9757,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fe0082b3f-df94cc3a5ef8","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"b6e43d56219376d06d131bd6b0fbee08"}},{"schema:description":"CSV file used for distribution modelling, including location of occurrence and background points and relative environmental characteristics","schema:name":"DB_alpine_accentor.csv","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/JHF80Z","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/JHF80Z&format=original","@type":"ore:AggregatedResource","schema:fileFormat":"text/csv","dvcore:filesize":5905268,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fa1225c43-9e88e5c3690b","dvcore:currentIngestedName":"DB_alpine_accentor.tab","dvcore:UNF":"UNF:6:FJRaSdJafw8ejPRAx2KxhA==","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"95c907451e362734a162028d38c3fc6d"}},{"schema:description":"CSV file used for distribution modelling, including occurrence and background points and relative environmental characteristics. Coordinates are not shown because of conservation reasons.","schema:name":"DB_rock_ptarmigan_no_coord.csv","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/1DSCX9","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/1DSCX9&format=original","@type":"ore:AggregatedResource","schema:fileFormat":"text/csv","dvcore:filesize":4843418,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fa1227127-9a30e81098d7","dvcore:currentIngestedName":"DB_rock_ptarmigan_no_coord.tab","dvcore:UNF":"UNF:6:D2s28hbhNZ8XCh7BAbZxdg==","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"8339f2c56031629e4307c8f3459c7f1a"}},{"schema:description":"CSV file used for distribution modelling, including location of occurrence and background points and relative environmental characteristics","schema:name":"DB_water_pipit.csv","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/SMV3YB","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/SMV3YB&format=original","@type":"ore:AggregatedResource","schema:fileFormat":"text/csv","dvcore:filesize":6618499,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fa122684f-a3e310df39e1","dvcore:currentIngestedName":"DB_water_pipit.tab","dvcore:UNF":"UNF:6:JQIP5RGENJaZO3Y7gwtxxg==","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"a9b632194272979258af68775327c6e9"}},{"schema:description":"CSV file used for distribution modelling, including location of occurrence and background points and relative environmental characteristics","schema:name":"DB_white-winged_snowfinch.csv","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/RYK9QY","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/RYK9QY&format=original","@type":"ore:AggregatedResource","schema:fileFormat":"text/csv","dvcore:filesize":5581881,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fa1227af7-9f48f6cc3590","dvcore:currentIngestedName":"DB_white-winged_snowfinch.tab","dvcore:UNF":"UNF:6:7hCN3yT/cOvFRDQyLSxYmg==","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"a4ded3d7b708718ccc625945cf3e9d3a"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_alpine_accentor_test.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/CGMCHO","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/CGMCHO","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":2633814,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff8e6a6-d4d6d2afca20","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"5303e86a3bc19f2ef1b152cbbc43d9e6"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_alpine_accentor_train.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/JQKTAW","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/JQKTAW","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":2784403,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff8eb8e-6d071435fa7f","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"1d97b0d8a4b6be9fcdfeff0577ce0151"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_snowfinch_test.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/YRIZNI","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/YRIZNI","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":2583907,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff8f98e-210753d74363","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"d2cce861b9a8d4b5012297f4e80b3837"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_snowfinch_train.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/VENBZG","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/VENBZG","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":2655388,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff8ff23-51185b1220cc","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"bdf5aed8bb4fb00414b925ba0f45c7d3"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_water_pipit_test.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/PNJWUS","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/PNJWUS","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":2732622,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff9046b-5e57740aebde","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"74673353d7506c2b77e43ce857f4f64e"}},{"schema:description":"SWD file (RDS format) for running MaxEnt model in R","schema:name":"SWD_water_pipit_train.rds","dvcore:restricted":false,"schema:version":1,"dvcore:datasetVersionId":1148,"@id":"doi:10.13130/RD_UNIMI/ARAI8C/8QHLVO","schema:sameAs":"https://dataverse.unimi.it/api/access/datafile/:persistentId?persistentId=doi:10.13130/RD_UNIMI/ARAI8C/8QHLVO","@type":"ore:AggregatedResource","schema:fileFormat":"application/gzip","dvcore:filesize":3065592,"dvcore:storageIdentifier":"s3://4s-dataverse-unimi:17fdff909c0-0c8e58756472","dvcore:rootDataFileId":-1,"dvcore:checksum":{"@type":"MD5","@value":"d2036048dbbcb2ba6468fe20c71e15a2"}}],"schema:hasPart":["doi:10.13130/RD_UNIMI/ARAI8C/SLVDCC","doi:10.13130/RD_UNIMI/ARAI8C/MMPHK8","doi:10.13130/RD_UNIMI/ARAI8C/JHF80Z","doi:10.13130/RD_UNIMI/ARAI8C/1DSCX9","doi:10.13130/RD_UNIMI/ARAI8C/SMV3YB","doi:10.13130/RD_UNIMI/ARAI8C/RYK9QY","doi:10.13130/RD_UNIMI/ARAI8C/CGMCHO","doi:10.13130/RD_UNIMI/ARAI8C/JQKTAW","doi:10.13130/RD_UNIMI/ARAI8C/YRIZNI","doi:10.13130/RD_UNIMI/ARAI8C/VENBZG","doi:10.13130/RD_UNIMI/ARAI8C/PNJWUS","doi:10.13130/RD_UNIMI/ARAI8C/8QHLVO"]},"@context":{"author":"http://purl.org/dc/terms/creator","authorIdentifier":"http://purl.org/spar/datacite/AgentIdentifier","authorIdentifierScheme":"http://purl.org/spar/datacite/AgentIdentifierScheme","citation":"https://dataverse.org/schema/citation/","dateOfDeposit":"http://purl.org/dc/terms/dateSubmitted","dcterms":"http://purl.org/dc/terms/","dvcore":"https://dataverse.org/schema/core#","ore":"http://www.openarchives.org/ore/terms/","publication":"http://purl.org/dc/terms/isReferencedBy","publicationCitation":"http://purl.org/dc/terms/bibliographicCitation","publicationIDNumber":"http://purl.org/spar/datacite/ResourceIdentifier","publicationIDType":"http://purl.org/spar/datacite/ResourceIdentifierScheme","schema":"http://schema.org/","subject":"http://purl.org/dc/terms/subject","title":"http://purl.org/dc/terms/title"}}