FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2170777026> ?p ?o ?g. }

• W2170777026 endingPage "1193" @default.
• W2170777026 startingPage "1183" @default.
• W2170777026 abstract "Summary 1. A small number of species‐rich plant genera make a substantial contribution to the α diversity of tropical forests. These ‘species swarms’ ( Gentry 1982 ) challenge a view of community assembly that maintains that niche overlap, and hence, the likelihood of competitive exclusion should increase with phylogenetic affinity. Related species may, however, occupy different microhabitats within a forest stand or, alternatively, differ ecologically in ways that allow them to coexist syntopically. 2. To explore the relationship between phylogenetic history and niche differentiation among sympatric, congeneric species, we performed phylogenetic analyses of microhabitat preferences, photosynthetic and hydraulic traits, and experimental responses to light and water availability for 20 species of Psychotria (Rubiaceae) from Barro Colorado Island (BCI), Panama. 3. The Psychotria present in small (3‐m radius), circular plots were more closely related than expected by chance. Photosynthetic and hydraulic traits were both associated with species habitat distributions, but only hydraulic traits were conserved phylogenetically. Experimental responses to water availability were also conserved phylogenetically. Functional trait analyses revealed little or no evidence of niche partitioning within sites. 4. We conclude that Psychotria species’ responses to both light and moisture availability determine their microhabitat distributions on BCI and that evolutionarily conserved hydraulic traits lead to phylogenetic clustering of co‐occurring species. 5. Synthesis . The evolutionary conservation of hydraulic traits related to soil moisture tolerance largely explains phylogenetic clustering in the local assembly of the hyperdiverse genus Psychotria . We suggest that close relatives are unlikely to exclude one another from shared habitats because resource availability is determined largely by asymmetric competition with the overstorey, rather than by competition with neighbouring understorey plants. In light of the recent biogeographic admixture in central Panama, the phylogenetic niche conservatism exhibited by Psychotria on BCI raises the possibility of an association between local microhabitats and the ancestral climatic regimes under which major Psychotria lineages evolved before arriving in sympatry." @default.
• W2170777026 created "2016-06-24" @default.
• W2170777026 creator A5044912034 @default.
• W2170777026 creator A5072020402 @default.
• W2170777026 creator A5087027557 @default.
• W2170777026 date "2012-06-13" @default.
• W2170777026 modified "2023-10-18" @default.
• W2170777026 title "Trait evolution and the coexistence of a species swarm in the tropical forest understorey" @default.
• W2170777026 cites W1522531406 @default.
• W2170777026 cites W1523391828 @default.
• W2170777026 cites W1727334090 @default.
• W2170777026 cites W1834907958 @default.
• W2170777026 cites W1982787667 @default.
• W2170777026 cites W1988195737 @default.
• W2170777026 cites W1990221500 @default.
• W2170777026 cites W1994507967 @default.
• W2170777026 cites W1997795803 @default.
• W2170777026 cites W1999507064 @default.
• W2170777026 cites W2010907553 @default.
• W2170777026 cites W2012204367 @default.
• W2170777026 cites W2012318025 @default.
• W2170777026 cites W2020215387 @default.
• W2170777026 cites W2022751627 @default.
• W2170777026 cites W2022992970 @default.
• W2170777026 cites W2024882325 @default.
• W2170777026 cites W2034733896 @default.
• W2170777026 cites W2048929317 @default.
• W2170777026 cites W2050125683 @default.
• W2170777026 cites W2052558531 @default.
• W2170777026 cites W2054581223 @default.
• W2170777026 cites W2057819145 @default.
• W2170777026 cites W2064448569 @default.
• W2170777026 cites W2064987933 @default.
• W2170777026 cites W2074517922 @default.
• W2170777026 cites W2078576342 @default.
• W2170777026 cites W2085073796 @default.
• W2170777026 cites W2085533295 @default.
• W2170777026 cites W2094909976 @default.
• W2170777026 cites W2098673312 @default.
• W2170777026 cites W2101819249 @default.
• W2170777026 cites W2102679436 @default.
• W2170777026 cites W2108561831 @default.
• W2170777026 cites W2109628725 @default.
• W2170777026 cites W2111229481 @default.
• W2170777026 cites W2111445984 @default.
• W2170777026 cites W2111568029 @default.
• W2170777026 cites W2113007429 @default.
• W2170777026 cites W2123099878 @default.
• W2170777026 cites W2123828234 @default.
• W2170777026 cites W2126611358 @default.
• W2170777026 cites W2133360663 @default.
• W2170777026 cites W2134981937 @default.
• W2170777026 cites W2135777646 @default.
• W2170777026 cites W2137144458 @default.
• W2170777026 cites W2146382454 @default.
• W2170777026 cites W2147970007 @default.
• W2170777026 cites W2148313899 @default.
• W2170777026 cites W2149364681 @default.
• W2170777026 cites W2153478495 @default.
• W2170777026 cites W2154714696 @default.
• W2170777026 cites W2158086023 @default.
• W2170777026 cites W2161444534 @default.
• W2170777026 cites W2162157929 @default.
• W2170777026 cites W2162474783 @default.
• W2170777026 cites W2162539672 @default.
• W2170777026 cites W2166879862 @default.
• W2170777026 cites W2167863582 @default.
• W2170777026 cites W2175712783 @default.
• W2170777026 cites W2278844608 @default.
• W2170777026 cites W2316267289 @default.
• W2170777026 cites W2322918328 @default.
• W2170777026 cites W2326423017 @default.
• W2170777026 cites W2485626290 @default.
• W2170777026 cites W2486095643 @default.
• W2170777026 cites W4234406353 @default.
• W2170777026 cites W4256241207 @default.
• W2170777026 cites W4375837721 @default.
• W2170777026 cites W47549450 @default.
• W2170777026 doi "https://doi.org/10.1111/j.1365-2745.2012.01993.x" @default.
• W2170777026 hasPublicationYear "2012" @default.
• W2170777026 type Work @default.
• W2170777026 sameAs 2170777026 @default.
• W2170777026 citedByCount "53" @default.
• W2170777026 countsByYear W21707770262012 @default.
• W2170777026 countsByYear W21707770262013 @default.
• W2170777026 countsByYear W21707770262014 @default.
• W2170777026 countsByYear W21707770262015 @default.
• W2170777026 countsByYear W21707770262016 @default.
• W2170777026 countsByYear W21707770262017 @default.
• W2170777026 countsByYear W21707770262018 @default.
• W2170777026 countsByYear W21707770262019 @default.
• W2170777026 countsByYear W21707770262020 @default.
• W2170777026 countsByYear W21707770262021 @default.
• W2170777026 countsByYear W21707770262022 @default.
• W2170777026 countsByYear W21707770262023 @default.
• W2170777026 crossrefType "journal-article" @default.
• W2170777026 hasAuthorship W2170777026A5044912034 @default.
• W2170777026 hasAuthorship W2170777026A5072020402 @default.

• next