Abstract
The evolution of competitive ability of invasive plant species is generally studied in the context of adaptive responses to novel biotic environments (enemy release) in introduced ranges. However, invasive plants may also respond to novel abiotic environments. Here we studied differences in competitive ability between Chromolaena odorata plants of populations from nonnative versus native ranges, considering biogeographical differences in both biotic and abiotic environments. An intraspecific competition experiment was conducted at two nutrient levels in a common garden. In both low and high nutrient treatments, C. odorata plants from nonnative ranges showed consistently lower root to shoot ratios than did plants from native ranges grown in both monoculture and competition. In the low nutrient treatment, C. odorata plants from nonnative ranges showed significantly lower competitive ability (competition-driven decreases in plant height and biomass were more), which was associated with their lower root to shoot ratios and higher total leaf phenolic content (defense trait). In the high nutrient treatment, C. odorata plants from nonnative ranges showed lower leaf toughness and cellulosic contents (defense traits) but similar competitive ability compared with plants from native ranges, which was also associated with their lower root to shoot ratios. Our results indicate that genetically based shifts in biomass allocation (responses to abiotic environments) also influence competitive abilities of invasive plants, and provide a first potential mechanism for the interaction between range and environment (environment-dependent difference between ranges).
Highlights
Biological invasions are one of the major threats to natural ecosystems [1]
In low nutrient conditions, C. odorata plants from nonnative ranges showed significantly lower competitive ability and higher total leaf phenolic content than did plants from native ranges, which is contrary to the evolution of increased competitive ability (EICA) hypothesis
C. odorata plants from nonnative ranges showed similar competitive ability and lower leaf toughness and cellulosic contents compared with plants from native ranges, which is consistent with one of the predictions of the EICA hypothesis
Summary
Biological invasions are one of the major threats to natural ecosystems [1]. the reasons why invasive plant species grow more aggressively in their nonnative ranges than in their native ranges are still not well elucidated [2,3,4]. Many studies have found that invasive species escape from natural enemies of their native ranges when being introduced into new ranges [5,6]. Such release from enemies may increase competitive ability of invasive plants by decreasing ecological restrictions, which in turn may cause evolutionary changes [7,8,9]. The evolution of increased competitive ability (EICA) hypothesis posits that invasive plants tend to decrease costly defense traits after long liberation from natural enemies, reallocating the newly available resources to growth and reproduction [2]. Similar or even greater defense is found in some invasive plants compared with their native conspecifics [11,12,13,14], many studies find lower defense in plants from nonnative ranges compared with plants from native ranges [7,9,15,16]
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