SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2955402911> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2955402911 endingPage "510" @default.
W2955402911 startingPage "499" @default.
W2955402911 abstract "Phyllotactic patterns are some of the most conspicuous in nature. To create these patterns plants must control the divergence angle between the appearance of successive organs, sometimes to within a fraction of a degree. The most common angle is the Fibonacci or golden angle, and its prevalence has led to the hypothesis that it has been selected by evolution as optimal for plants with respect to some fitness benefits, such as light capture. We explore arguments for and against this idea with computer models. We have used both idealized and scanned leaves from Arabidopsis thaliana and Cardamine hirsuta to measure the overlapping leaf area of simulated plants after varying parameters such as leaf shape, incident light angles, and other leaf traits. We find that other angles generated by Fibonacci-like series found in nature are equally optimal for light capture, and therefore should be under similar evolutionary pressure. Our findings suggest that the iterative mechanism for organ positioning itself is a more likely target for evolutionary pressure, rather than a specific divergence angle, and our model demonstrates that the heteroblastic progression of leaf shape in A. thaliana can provide a potential fitness benefit via light capture." @default.
W2955402911 created "2019-07-12" @default.
W2955402911 creator A5002254148 @default.
W2955402911 creator A5009278992 @default.
W2955402911 creator A5014663835 @default.
W2955402911 creator A5047909842 @default.
W2955402911 creator A5086990150 @default.
W2955402911 date "2019-08-02" @default.
W2955402911 modified "2023-10-11" @default.
W2955402911 title "Phyllotaxis: is the golden angle optimal for light capture?" @default.
W2955402911 cites W1508197973 @default.
W2955402911 cites W1531955026 @default.
W2955402911 cites W157140410 @default.
W2955402911 cites W1603993257 @default.
W2955402911 cites W1824202817 @default.
W2955402911 cites W1970072462 @default.
W2955402911 cites W1972112316 @default.
W2955402911 cites W1975288257 @default.
W2955402911 cites W1977402054 @default.
W2955402911 cites W1977501306 @default.
W2955402911 cites W1995728283 @default.
W2955402911 cites W2002351968 @default.
W2955402911 cites W2007220556 @default.
W2955402911 cites W2012312448 @default.
W2955402911 cites W2019421577 @default.
W2955402911 cites W2031674974 @default.
W2955402911 cites W2036454977 @default.
W2955402911 cites W2037756539 @default.
W2955402911 cites W2041019654 @default.
W2955402911 cites W2046289407 @default.
W2955402911 cites W2051206018 @default.
W2955402911 cites W2051600608 @default.
W2955402911 cites W2055750190 @default.
W2955402911 cites W2070386655 @default.
W2955402911 cites W2072729802 @default.
W2955402911 cites W2106015768 @default.
W2955402911 cites W2108872139 @default.
W2955402911 cites W2110857167 @default.
W2955402911 cites W2115826734 @default.
W2955402911 cites W2124194386 @default.
W2955402911 cites W2127928859 @default.
W2955402911 cites W2129847202 @default.
W2955402911 cites W2133757548 @default.
W2955402911 cites W2136775576 @default.
W2955402911 cites W2143831249 @default.
W2955402911 cites W2151585980 @default.
W2955402911 cites W2156746428 @default.
W2955402911 cites W2157169475 @default.
W2955402911 cites W2157846033 @default.
W2955402911 cites W2167417365 @default.
W2955402911 cites W2171711138 @default.
W2955402911 cites W2465001763 @default.
W2955402911 cites W2507362051 @default.
W2955402911 cites W4211245492 @default.
W2955402911 cites W4291015467 @default.
W2955402911 cites W4297632322 @default.
W2955402911 cites W4300925890 @default.
W2955402911 doi "https://doi.org/10.1111/nph.16040" @default.
W2955402911 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31254398" @default.
W2955402911 hasPublicationYear "2019" @default.
W2955402911 type Work @default.
W2955402911 sameAs 2955402911 @default.
W2955402911 citedByCount "27" @default.
W2955402911 countsByYear W29554029112019 @default.
W2955402911 countsByYear W29554029112020 @default.
W2955402911 countsByYear W29554029112021 @default.
W2955402911 countsByYear W29554029112022 @default.
W2955402911 countsByYear W29554029112023 @default.
W2955402911 crossrefType "journal-article" @default.
W2955402911 hasAuthorship W2955402911A5002254148 @default.
W2955402911 hasAuthorship W2955402911A5009278992 @default.
W2955402911 hasAuthorship W2955402911A5014663835 @default.
W2955402911 hasAuthorship W2955402911A5047909842 @default.
W2955402911 hasAuthorship W2955402911A5086990150 @default.
W2955402911 hasBestOaLocation W29554029111 @default.
W2955402911 hasConcept C104317684 @default.
W2955402911 hasConcept C114614502 @default.
W2955402911 hasConcept C123130949 @default.
W2955402911 hasConcept C126021549 @default.
W2955402911 hasConcept C138885662 @default.
W2955402911 hasConcept C143065580 @default.
W2955402911 hasConcept C173734053 @default.
W2955402911 hasConcept C186060115 @default.
W2955402911 hasConcept C18802822 @default.
W2955402911 hasConcept C207390915 @default.
W2955402911 hasConcept C21410773 @default.
W2955402911 hasConcept C2524010 @default.
W2955402911 hasConcept C2775988993 @default.
W2955402911 hasConcept C33923547 @default.
W2955402911 hasConcept C41895202 @default.
W2955402911 hasConcept C54355233 @default.
W2955402911 hasConcept C59822182 @default.
W2955402911 hasConcept C78458016 @default.
W2955402911 hasConcept C86803240 @default.
W2955402911 hasConceptScore W2955402911C104317684 @default.
W2955402911 hasConceptScore W2955402911C114614502 @default.
W2955402911 hasConceptScore W2955402911C123130949 @default.
W2955402911 hasConceptScore W2955402911C126021549 @default.