FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2165818823> ?p ?o ?g. }

• W2165818823 endingPage "222" @default.
• W2165818823 startingPage "205" @default.
• W2165818823 abstract "ESR Endangered Species Research Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsSpecials ESR 15:205-222 (2011) - DOI: https://doi.org/10.3354/esr00376 Theme Section: Beyond marine mammal habitat modeling: applications for ecology and conservation Quantifying likely cetacean range shifts in response to global climatic change: implications for conservation strategies in a changing world Emily Lambert1,*, Colin D. MacLeod1, Karen Hall1, Tom Brereton2, Timothy E. Dunn3, Dave Wall4, Paul D. Jepson5, Rob Deaville5, Graham J. Pierce1,6 1Institute of Biological and Environmental Sciences (IBES), University of Aberdeen, Tillydrone Avenue, Aberdeen AB24 2TZ, UK 2Marinelife, 12 St Andrews Road, Bridport, Dorset DT6 3BG, UK 3Joint Nature Conservation Committee, Inverdee House, Baxter Street, Aberdeen AB11 9QA, UK 4Irish Whale and Dolphin Group, Merchants Quay, Kilrush, Co. Clare, Ireland 5Institute of Zoology, Regents Park, London NW1 4RY, UK 6Instituto Español de Oceanografía, Centro Oceanográfico de Vigo, PO Box 1552, 36200 Vigo, Spain *Email: emily.lambert@abdn.ac.uk ABSTRACT: As with many other taxa, climate change is expected to result in geographic range shifts of cetacean species as they track changes in temperature to remain within their ecological niches. Such changes in geographic range could have implications for the conservation and management of cetaceans. Here, we propose a bioclimatic envelope modelling approach for providing quantitative predictions of how the ranges of cetacean species may respond to changing water temperatures. This combines predictions from habitat niche and ‘thermal’ niche models for an individual species to determine probable geographic range under specific climatic conditions. However, if this approach is to be used to inform conservation strategies, it is essential that the ability to predict responses to environmental change is validated beyond the period of data collection used to construct the models. Therefore, in addition to validation of modelled current range, we included a step to validate the models’ ability to predict previous changes in range over time in response to climatic changes using independent data. We demonstrate this approach using common dolphin Delphinus delphis data from the Northeast Atlantic. The combined model was constructed with data collected between 1980 and 2007, and validated using independent distributional records collected between 1930 and 2006. The validated model was then applied to predict future range between 2010 and 2069, based on projected water temperatures. Thus, the modelling approach is shown to provide the type of information required to help ensure that conservation and management strategies remain effective in the face of a changing climate. KEY WORDS: Global climate change · Cetaceans · Range changes · Conservation · Ecological niche model · Water temperature Full text in pdf format PreviousNextCite this article as: Lambert E, MacLeod CD, Hall K, Brereton T and others (2011) Quantifying likely cetacean range shifts in response to global climatic change: implications for conservation strategies in a changing world. Endang Species Res 15:205-222. https://doi.org/10.3354/esr00376 Export citation Mail this link - Contents Mailing Lists - RSS Facebook - Tweet - linkedIn Cited by Published in ESR Vol. 15, No. 3. Online publication date: November 30, 2011 Print ISSN: 1863-5407; Online ISSN: 1613-4796 Copyright © 2011 Inter-Research." @default.
• W2165818823 created "2016-06-24" @default.
• W2165818823 creator A5001143863 @default.
• W2165818823 creator A5008681253 @default.
• W2165818823 creator A5023448038 @default.
• W2165818823 creator A5026568208 @default.
• W2165818823 creator A5027205576 @default.
• W2165818823 creator A5062433834 @default.
• W2165818823 creator A5073081520 @default.
• W2165818823 creator A5081306191 @default.
• W2165818823 creator A5081895967 @default.
• W2165818823 date "2011-11-30" @default.
• W2165818823 modified "2023-09-28" @default.
• W2165818823 title "Quantifying likely cetacean range shifts in response to global climatic change: implications for conservation strategies in a changing world" @default.
• W2165818823 cites W126796405 @default.
• W2165818823 cites W1519918296 @default.
• W2165818823 cites W1553503160 @default.
• W2165818823 cites W1627726926 @default.
• W2165818823 cites W1964935545 @default.
• W2165818823 cites W1964977622 @default.
• W2165818823 cites W1967246556 @default.
• W2165818823 cites W1967552950 @default.
• W2165818823 cites W1971715055 @default.
• W2165818823 cites W1983038171 @default.
• W2165818823 cites W2001953331 @default.
• W2165818823 cites W2009675301 @default.
• W2165818823 cites W2024649846 @default.
• W2165818823 cites W2028472174 @default.
• W2165818823 cites W2039899381 @default.
• W2165818823 cites W2044410193 @default.
• W2165818823 cites W2070308933 @default.
• W2165818823 cites W2092126097 @default.
• W2165818823 cites W2099534828 @default.
• W2165818823 cites W2108207007 @default.
• W2165818823 cites W2111960362 @default.
• W2165818823 cites W2115688587 @default.
• W2165818823 cites W2116282897 @default.
• W2165818823 cites W2119399728 @default.
• W2165818823 cites W2120160157 @default.
• W2165818823 cites W2121179116 @default.
• W2165818823 cites W2121496327 @default.
• W2165818823 cites W2123282200 @default.
• W2165818823 cites W2131417910 @default.
• W2165818823 cites W2131687730 @default.
• W2165818823 cites W2133501143 @default.
• W2165818823 cites W2139997116 @default.
• W2165818823 cites W2140534668 @default.
• W2165818823 cites W2140904470 @default.
• W2165818823 cites W2149507322 @default.
• W2165818823 cites W2155878556 @default.
• W2165818823 cites W2155986656 @default.
• W2165818823 cites W2163816695 @default.
• W2165818823 cites W2168793010 @default.
• W2165818823 cites W2217880123 @default.
• W2165818823 cites W4238380085 @default.
• W2165818823 cites W4250353832 @default.
• W2165818823 doi "https://doi.org/10.3354/esr00376" @default.
• W2165818823 hasPublicationYear "2011" @default.
• W2165818823 type Work @default.
• W2165818823 sameAs 2165818823 @default.
• W2165818823 citedByCount "32" @default.
• W2165818823 countsByYear W21658188232012 @default.
• W2165818823 countsByYear W21658188232013 @default.
• W2165818823 countsByYear W21658188232014 @default.
• W2165818823 countsByYear W21658188232016 @default.
• W2165818823 countsByYear W21658188232017 @default.
• W2165818823 countsByYear W21658188232018 @default.
• W2165818823 countsByYear W21658188232019 @default.
• W2165818823 countsByYear W21658188232021 @default.
• W2165818823 countsByYear W21658188232022 @default.
• W2165818823 countsByYear W21658188232023 @default.
• W2165818823 crossrefType "journal-article" @default.
• W2165818823 hasAuthorship W2165818823A5001143863 @default.
• W2165818823 hasAuthorship W2165818823A5008681253 @default.
• W2165818823 hasAuthorship W2165818823A5023448038 @default.
• W2165818823 hasAuthorship W2165818823A5026568208 @default.
• W2165818823 hasAuthorship W2165818823A5027205576 @default.
• W2165818823 hasAuthorship W2165818823A5062433834 @default.
• W2165818823 hasAuthorship W2165818823A5073081520 @default.
• W2165818823 hasAuthorship W2165818823A5081306191 @default.
• W2165818823 hasAuthorship W2165818823A5081895967 @default.
• W2165818823 hasBestOaLocation W21658188231 @default.
• W2165818823 hasConcept C102715595 @default.
• W2165818823 hasConcept C103215972 @default.
• W2165818823 hasConcept C132651083 @default.
• W2165818823 hasConcept C149340888 @default.
• W2165818823 hasConcept C153991713 @default.
• W2165818823 hasConcept C159985019 @default.
• W2165818823 hasConcept C16989226 @default.
• W2165818823 hasConcept C179345059 @default.
• W2165818823 hasConcept C185933670 @default.
• W2165818823 hasConcept C18903297 @default.
• W2165818823 hasConcept C192562407 @default.
• W2165818823 hasConcept C204323151 @default.
• W2165818823 hasConcept C205649164 @default.
• W2165818823 hasConcept C514101110 @default.
• W2165818823 hasConcept C86803240 @default.
• W2165818823 hasConceptScore W2165818823C102715595 @default.

• next