SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022240075> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2022240075 endingPage "299" @default.
W2022240075 startingPage "290" @default.
W2022240075 abstract "Comparative phylogeography has emerged as a means of understanding the spatial patterns of genetic divergence of codistributed species. However, researchers are often frustrated because of the lack of appropriate statistical tests to assess concordancy of multiple phylogeographic trees. We develop a method for testing congruence across multiple species and synthesizing the data into a regional supertree. Nine phylogeographic data sets of species with different life histories and ecologies were statistically compared using maximum agreement subtrees (MAST) and showed a high degree of concordancy. A supertree combining the different phylogeographic trees was then computed using matrix representation with parsimony, and the groups defined by this supertree were tested against climatic data to investigate a potential mechanism driving divergence. Our data suggest that species and genetic lineages in California are shaped by climatic regimes. The supertree method in combination with MAST represents a new approach to test congruence hypotheses and detect common geographic signals in comparative phylogeography." @default.
W2022240075 created "2016-06-24" @default.
W2022240075 creator A5032471004 @default.
W2022240075 creator A5086298808 @default.
W2022240075 date "2005-08-01" @default.
W2022240075 modified "2023-09-30" @default.
W2022240075 title "Congruence, Consensus, and the Comparative Phylogeography of Codistributed Species in California" @default.
W2022240075 cites W1507941837 @default.
W2022240075 cites W1845324334 @default.
W2022240075 cites W1897550767 @default.
W2022240075 cites W1969353826 @default.
W2022240075 cites W1986570030 @default.
W2022240075 cites W1991701064 @default.
W2022240075 cites W1993724417 @default.
W2022240075 cites W1998887513 @default.
W2022240075 cites W1999936399 @default.
W2022240075 cites W2002116543 @default.
W2022240075 cites W2015972440 @default.
W2022240075 cites W2054759840 @default.
W2022240075 cites W2055667566 @default.
W2022240075 cites W2065461553 @default.
W2022240075 cites W2077832271 @default.
W2022240075 cites W2082246635 @default.
W2022240075 cites W2094277888 @default.
W2022240075 cites W2099708131 @default.
W2022240075 cites W2101006486 @default.
W2022240075 cites W2101385609 @default.
W2022240075 cites W2105629202 @default.
W2022240075 cites W2109596230 @default.
W2022240075 cites W2114415740 @default.
W2022240075 cites W2114419569 @default.
W2022240075 cites W2116907165 @default.
W2022240075 cites W2120236445 @default.
W2022240075 cites W2124537820 @default.
W2022240075 cites W2127474816 @default.
W2022240075 cites W2129038966 @default.
W2022240075 cites W2142312644 @default.
W2022240075 cites W2142943897 @default.
W2022240075 cites W2144898181 @default.
W2022240075 cites W2146243941 @default.
W2022240075 cites W2147071859 @default.
W2022240075 cites W2150477652 @default.
W2022240075 cites W2152068897 @default.
W2022240075 cites W2154925080 @default.
W2022240075 cites W2162348455 @default.
W2022240075 cites W2162725264 @default.
W2022240075 cites W2163924163 @default.
W2022240075 cites W2164771696 @default.
W2022240075 cites W2170296013 @default.
W2022240075 cites W2176663134 @default.
W2022240075 cites W2179445247 @default.
W2022240075 cites W2313571697 @default.
W2022240075 cites W2315589119 @default.
W2022240075 cites W2315781448 @default.
W2022240075 cites W2319208898 @default.
W2022240075 cites W2327122818 @default.
W2022240075 cites W2332820683 @default.
W2022240075 cites W4237562461 @default.
W2022240075 cites W4238041775 @default.
W2022240075 cites W4243526039 @default.
W2022240075 cites W4252554302 @default.
W2022240075 doi "https://doi.org/10.1086/431283" @default.
W2022240075 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16032580" @default.
W2022240075 hasPublicationYear "2005" @default.
W2022240075 type Work @default.
W2022240075 sameAs 2022240075 @default.
W2022240075 citedByCount "126" @default.
W2022240075 countsByYear W20222400752012 @default.
W2022240075 countsByYear W20222400752013 @default.
W2022240075 countsByYear W20222400752014 @default.
W2022240075 countsByYear W20222400752015 @default.
W2022240075 countsByYear W20222400752016 @default.
W2022240075 countsByYear W20222400752017 @default.
W2022240075 countsByYear W20222400752018 @default.
W2022240075 countsByYear W20222400752019 @default.
W2022240075 countsByYear W20222400752020 @default.
W2022240075 countsByYear W20222400752021 @default.
W2022240075 countsByYear W20222400752022 @default.
W2022240075 countsByYear W20222400752023 @default.
W2022240075 crossrefType "journal-article" @default.
W2022240075 hasAuthorship W2022240075A5032471004 @default.
W2022240075 hasAuthorship W2022240075A5086298808 @default.
W2022240075 hasConcept C104317684 @default.
W2022240075 hasConcept C138885662 @default.
W2022240075 hasConcept C18903297 @default.
W2022240075 hasConcept C207390915 @default.
W2022240075 hasConcept C41895202 @default.
W2022240075 hasConcept C54355233 @default.
W2022240075 hasConcept C55919133 @default.
W2022240075 hasConcept C78458016 @default.
W2022240075 hasConcept C86803240 @default.
W2022240075 hasConcept C90132467 @default.
W2022240075 hasConcept C94043034 @default.
W2022240075 hasConceptScore W2022240075C104317684 @default.
W2022240075 hasConceptScore W2022240075C138885662 @default.
W2022240075 hasConceptScore W2022240075C18903297 @default.
W2022240075 hasConceptScore W2022240075C207390915 @default.
W2022240075 hasConceptScore W2022240075C41895202 @default.