SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311538192> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4311538192 endingPage "152202" @default.
W4311538192 startingPage "152202" @default.
W4311538192 abstract "Shrubs commonly shape the plant community in arid ecosystems such as deserts. Plant interactions between shrubs and the associated species can be both negative and positive, and direct and indirect. The importance of shrub effects on reproduction is also a key component of facilitation studies in deserts. Here, we tested the hypothesis that shrubs facilitate understory plant community composition and reproduction through both direct and indirect interactions mediated by the associated plant neighbourhood. Using the shrub species Larrea tridentata, we tested the effects of facilitation on understory plant density, floral density, and species richness in the Mojave Desert, California. We found that shrubs decreased the net community-wide plant assembly measures relative to open microsites including total density and species richness at the site tested. There was also evidence that shrubs directly decreased plant fitness by reducing floral density, but this effect depended on the species. The net density and diversity of the annual plant community also influenced plant and floral density under shrubs suggesting significant indirect effects between shrubs and all abundant annual plant species. While both direct and indirect interactions between shrubs and the annual plant community were species-specific, the effects of these interactions had greater impact on plant density than floral density measures. Annual plant density and to a lesser extent floral density are thus driven by both direct and indirect interactions with shrubs." @default.
W4311538192 created "2022-12-27" @default.
W4311538192 creator A5087110634 @default.
W4311538192 creator A5089528877 @default.
W4311538192 date "2023-01-01" @default.
W4311538192 modified "2023-09-26" @default.
W4311538192 title "Direct and indirect interactions between shrubs and the flowering annual community in an arid ecosystem" @default.
W4311538192 cites W1553592219 @default.
W4311538192 cites W1830432349 @default.
W4311538192 cites W1925026455 @default.
W4311538192 cites W1930600188 @default.
W4311538192 cites W1965056547 @default.
W4311538192 cites W1974820063 @default.
W4311538192 cites W1980525894 @default.
W4311538192 cites W1999047637 @default.
W4311538192 cites W1999497943 @default.
W4311538192 cites W2001739164 @default.
W4311538192 cites W2009130252 @default.
W4311538192 cites W2009602136 @default.
W4311538192 cites W2010086195 @default.
W4311538192 cites W2010981035 @default.
W4311538192 cites W2014468596 @default.
W4311538192 cites W2015580426 @default.
W4311538192 cites W2018792395 @default.
W4311538192 cites W2024882325 @default.
W4311538192 cites W2025449234 @default.
W4311538192 cites W2025553684 @default.
W4311538192 cites W2036264264 @default.
W4311538192 cites W2038624757 @default.
W4311538192 cites W2043801469 @default.
W4311538192 cites W2045023421 @default.
W4311538192 cites W2060665028 @default.
W4311538192 cites W2061049798 @default.
W4311538192 cites W2069547193 @default.
W4311538192 cites W2074976739 @default.
W4311538192 cites W2083477884 @default.
W4311538192 cites W2085810943 @default.
W4311538192 cites W2088408586 @default.
W4311538192 cites W2088556917 @default.
W4311538192 cites W2088669732 @default.
W4311538192 cites W2091313257 @default.
W4311538192 cites W2096561867 @default.
W4311538192 cites W2101779208 @default.
W4311538192 cites W2102557771 @default.
W4311538192 cites W2105110063 @default.
W4311538192 cites W2112125262 @default.
W4311538192 cites W2114676012 @default.
W4311538192 cites W2118810119 @default.
W4311538192 cites W2123310219 @default.
W4311538192 cites W2125916927 @default.
W4311538192 cites W2127636362 @default.
W4311538192 cites W2132327625 @default.
W4311538192 cites W2142045810 @default.
W4311538192 cites W2152594244 @default.
W4311538192 cites W2164510880 @default.
W4311538192 cites W2166015583 @default.
W4311538192 cites W2288471982 @default.
W4311538192 cites W2294286176 @default.
W4311538192 cites W2311835225 @default.
W4311538192 cites W2323052220 @default.
W4311538192 cites W2498497804 @default.
W4311538192 cites W2593135748 @default.
W4311538192 cites W2616917785 @default.
W4311538192 cites W2743277572 @default.
W4311538192 cites W2771857917 @default.
W4311538192 cites W2786358356 @default.
W4311538192 cites W2802993438 @default.
W4311538192 cites W2810296506 @default.
W4311538192 cites W2811105108 @default.
W4311538192 cites W2896530903 @default.
W4311538192 cites W2901674983 @default.
W4311538192 cites W2917484867 @default.
W4311538192 cites W2933194550 @default.
W4311538192 cites W2980333053 @default.
W4311538192 cites W2998562763 @default.
W4311538192 cites W3000462902 @default.
W4311538192 cites W3001903861 @default.
W4311538192 cites W3015177175 @default.
W4311538192 cites W3018754781 @default.
W4311538192 cites W3020317518 @default.
W4311538192 cites W3026726163 @default.
W4311538192 cites W3087049189 @default.
W4311538192 cites W3087773159 @default.
W4311538192 cites W3087982732 @default.
W4311538192 cites W3088624612 @default.
W4311538192 cites W3121604782 @default.
W4311538192 cites W3126822883 @default.
W4311538192 cites W3137268898 @default.
W4311538192 cites W3153999239 @default.
W4311538192 cites W3164970246 @default.
W4311538192 cites W3181454666 @default.
W4311538192 cites W3203681581 @default.
W4311538192 cites W4210438799 @default.
W4311538192 cites W4210475352 @default.
W4311538192 cites W4250028678 @default.
W4311538192 cites W4307564567 @default.
W4311538192 doi "https://doi.org/10.1016/j.flora.2022.152202" @default.
W4311538192 hasPublicationYear "2023" @default.