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Range Map MethodologyRange data for each described species was downloaded from Aquamaps on August 8, 2016 ADDIN ZOTERO_ITEM CSL_CITATION {"citationID":"a1ejo4hnh0k","properties":{"formattedCitation":"(Kaschner et al. 2015)","plainCitation":"(Kaschner et al. 2015)"},"citationItems":[{"id":2169,"uris":[""],"uri":[""],"itemData":{"id":2169,"type":"webpage","title":"AquaMaps: Predicted range maps for aquatic species.","container-title":"AquaMaps","URL":"","author":[{"family":"Kaschner","given":"K."},{"family":"Kesner-Reyes","given":"K."},{"family":"Garilao","given":"C."},{"family":"Rius-Barile","given":"J."},{"family":"Rees","given":"T."},{"family":"Froes","given":"R"}],"issued":{"date-parts":[["2015"]]},"accessed":{"date-parts":[["2016",8,8]]}}}],"schema":""} (Kaschner et al. 2015). For regional the species Abudefduf hoefleri, A. margariteus, and A. vaigiensis “Kiritimati” no data were available from Aquamaps. We downloaded distribution data from museum specimens from FishNet2 () on January 13, 2018 for A. hoefleri and A. margariteus. No data for distribution is available for A. vaigiensis “Kiritimati” besides the collection location for the sample examined in this study.Each coordinate set from Aquamaps is associated with a probability of occurrence = 1.00, except A. saxatilis which was reduced to 0.90 to filter out occurrences outside known range. Data were uploaded in R version 3.3.0 ADDIN ZOTERO_ITEM CSL_CITATION {"citationID":"a1lku1m68sf","properties":{"formattedCitation":"(R Development Core Team 2016)","plainCitation":"(R Development Core Team 2016)"},"citationItems":[{"id":1287,"uris":[""],"uri":[""],"itemData":{"id":1287,"type":"book","title":"R: A language and environment for statistical computing.","publisher":"R Foundation for Statistical Computing","publisher-place":"Vienna, Austria","event-place":"Vienna, Austria","URL":"","ISBN":"3-900051-07-0","author":[{"literal":"R Development Core Team"}],"issued":{"date-parts":[["2016"]]}}}],"schema":""} (R Development Core Team 2016) and plotted on a world map with ggmap version 2.6.1 ADDIN ZOTERO_ITEM CSL_CITATION {"citationID":"a2evue7ljba","properties":{"formattedCitation":"(Kahle and Wickham 2013)","plainCitation":"(Kahle and Wickham 2013)"},"citationItems":[{"id":2170,"uris":[""],"uri":[""],"itemData":{"id":2170,"type":"article-journal","title":"ggmap: Spatial Visualization with ggplot2","container-title":"The R Journal","page":"144-161","volume":"5","issue":"1","author":[{"family":"Kahle","given":"D."},{"family":"Wickham","given":"H."}],"issued":{"date-parts":[["2013"]]}}}],"schema":""} (Kahle and Wickham 2013)and ggplot version 2.2.1 ADDIN ZOTERO_ITEM CSL_CITATION {"citationID":"aebt71k1lg","properties":{"formattedCitation":"(Wickham 2009)","plainCitation":"(Wickham 2009)"},"citationItems":[{"id":2172,"uris":[""],"uri":[""],"itemData":{"id":2172,"type":"book","title":"ggplot2: Elegant Graphics for Data Analysis","publisher":"Springer-Verlag","publisher-place":"New York","event-place":"New York","URL":"","ISBN":"978-0-387-98140-6","author":[{"family":"Wickham","given":"H."}],"issued":{"date-parts":[["2009"]]}}}],"schema":""} (Wickham 2009). For each species the Aquamap distribution points are plotted as a single color, with collection locations bordered in black.Bibliography ADDIN ZOTERO_BIBL {"custom":[]} CSL_BIBLIOGRAPHY Kahle D, Wickham H. 2013. ggmap: Spatial Visualization with ggplot2. R J. 5:144–161.Kaschner K, Kesner-Reyes K, Garilao C, Rius-Barile J, Rees T, Froes R. 2015. AquaMaps: Predicted range maps for aquatic species. AquaMaps. [accessed 2016 Aug 8]. .R Development Core Team. 2016. R: A language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing.Wickham H. 2009. ggplot2: Elegant Graphics for Data Analysis. New York: Springer-Verlag. ................
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