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Benjamin Kerbs Daniel J. Crawford Griffin White Mnica Moura Lurdes Borges Silva Hanno Schaefer Keely Brown Mark E. Mort John K. Kelly 《Ecology and evolution》2020,10(24):13990
Genome‐wide genotyping and Bayesian inference method (BORICE) were employed to estimate outcrossing rates and paternity in two small plant populations of Tolpis succulenta (Asteraceae) on Graciosa island in the Azores. These two known extant populations of T. succulenta on Graciosa have recently evolved self‐compatibility. Despite the expectation that selfing would occur at an appreciable rate (self‐incompatible populations of the same species show low but nonzero selfing), high outcrossing was found in progeny arrays from maternal plants in both populations. This is inconsistent with an immediate transition to high selfing following the breakdown of a genetic incompatibility system. This finding is surprising given the small population sizes and the recent colonization of an island from self‐incompatible colonists of T. succulenta from another island in the Azores, and a potential paucity of pollinators, all factors selecting for selfing through reproductive assurance. The self‐compatible lineage(s) likely have high inbreeding depression (ID) that effectively halts the evolution of increased selfing, but this remains to be determined. Like their progeny, all maternal plants in both populations are fully outbred, which is consistent with but not proof of high ID. High multiple paternity was found in both populations, which may be due in part to the abundant pollinators observed during the flowering season. 相似文献
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CHARLES E. JARVIS 《Botanical journal of the Linnean Society. Linnean Society of London》1992,109(4):503-513
JARVIS, C. E., 1992. The Linnaean Plant Name Typification Project. Carl Linnaeus (1707–1778) introduced the consistent use of binomial names for plants and animals. As he published more than 9000 plant names, valid under the International Code of Botanical Nomenclature, their application is of considerable importance. Professor Steam's reputation as a Linnaean scholar brought him literally hundreds of requests, from all over the world, for help in the interpretation of Linnaean names. In 1980 he was instrumental in obtaining funding for a pilot study for the typification of Linnaean names. The Project was subsequently core-funded by the Natural History Museum, and has developed into an international Project that has attracted support and collaboration on a worldwide basis. The aims, methodology and progress of the Project are reviewed, and the names Crepis barbata L. and Hieracium capense L. are lectotypified. 相似文献
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To date, the implications of the predicted greater intra‐annual variability and extremes in precipitation on ecosystem functioning have received little attention. This study presents results on leaf‐level physiological responses of five species covering the functional groups grasses, forbs, and legumes in the understorey of a Mediterranean oak woodland, with increasing precipitation variability, without altering total annual precipitation inputs. Although extending the dry period between precipitation events from 3 to 6 weeks led to increased soil moisture deficit, overall treatment effects on photosynthetic performance were not observed in the studied species. This resilience to prolonged water stress was explained by different physiological and morphological strategies to withstand periods below the wilting point, that is, isohydric behavior in Agrostis, Rumex, and Tuberaria, leaf succulence in Rumex, and taproots in Tolpis. In addition, quick recovery upon irrigation events and species‐specific adaptations of water‐use efficiency with longer dry periods and larger precipitation events contributed to the observed resilience in productivity of the annual plant community. Although none of the species exhibited a change in cover with increasing precipitation variability, leaf physiology of the legume Ornithopus exhibited signs of sensitivity to moisture deficit, which may have implications for the agricultural practice of seeding legume‐rich mixtures in Mediterranean grassland‐type systems. This highlights the need for long‐term precipitation manipulation experiments to capture possible directional changes in species composition and seed bank development, which can subsequently affect ecosystem state and functioning. 相似文献
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