Responses of a native plant species from invaded and uninvaded areas to allelopathic effects of an invader

6533b86dfe1ef96bd12c9809

RESEARCH PRODUCT

Responses of a native plant species from invaded and uninvaded areas to allelopathic effects of an invader

subject

0106 biological sciences Anthriscus sylvestris Lupinus polyphyllus media_common.quotation_subject Lupinus polyphyllus Introduced species Biology 010603 evolutionary biology 01 natural sciences Competition (biology)03 medical and health sciences lcsh:QH540-549.5 Botany vieraslajit lupiinit evolutionary response Ecology Evolution Behavior and Systematics Allelopathy Original Research 030304 developmental biology Nature and Landscape Conservation media_common Local adaptation sopeutuminen 0303 health sciences Ecology 15. Life on land Native plant native plant biology.organism_classification invasion alkuperäiset kasvilajit Local extinction lcsh:Ecology Anthriscus sylvestris sarjakukkaiskasvit local adaptation

description

Invaders exert new selection pressures on the resident species, for example, through competition for resources or by using novel weapons. It has been shown that novel weapons aid invasion but it is unclear whether native species co‐occurring with in‐ vaders have adapted to tolerate these novel weapons. Those resident species which are able to adapt to new selective agents can co‐occur with an invader while others face a risk of local extinction. We ran a factorial common garden experiment to study whether a native plant species, Anthriscus sylvestris, has been able to evolve a greater tolerance to the allelochemicals exerted by the invader, Lupinus polyphyllus. Lupinus polyphyllus produces allelochemicals which potentially act as a novel, strong selective agent on A. sylvestris. We grew A. sylvestris seedlings collected from uninvaded (naïve) and invaded (experienced) sites growing alone and in competition with L. polyphyllus in pots filled with soil with and without activated carbon. Because activated carbon absorbs allelochemicals, its addition should improve especially naïve A. sylvestris per‐ formance in the presence of the invader. To distinguish the allelochemicals absorp‐ tion and fertilizing effects of activated carbon, we grew plants also in a mixture of soil and fertilizer. A common garden experiment indicated that the performances of naïve and experienced A. sylvestris seedlings did not differ when grown with L. polyphyllus. The addition of activated carbon, which reduces interference by allelochemicals, did not induce differences in their performances although it had a positive effect on the aboveground biomass of A. sylvestris. Together, these results suggest that naïve and experienced A. sylvestris plants tolerated equally the invader L. polyphyllus and thus the tolerance has not occurred over the course of invasion. peerReviewed

year	journal	country	edition	language
2019-05-01

http://urn.fi/URN:NBN:fi:jyu-201906053004