Abstract
Rapid range expansion is one of the major attributes of invasion success. During range expansion, dispersing individuals face a novel environment where trade-offs between benefits of reduced conspecific density and pressure from niche competitors may differentially affect life-history traits essential for population growth. In this study, we examined differences in sex ratio, body condition, physiological condition and capacity for energetic investment into reproduction along an actively expanding range of one of the most successful crayfish invaders in Europe, the signal crayfish (Pacifastacus leniusculus). In the examined invasive range, signal crayfish faces competition by a native crayfish, Astacus leptodactylus. By comparing measured parameters between invasion fronts and invasion core sites, we analyzed whether the potential benefits of dispersal to areas with low conspecific density are outweighed by the competitive pressure from a native crayfish. Caught signal crayfish of both sexes from invasion fronts were in a better body condition compared to those from the invasion core, while females from invasion fronts also exhibited better energetic status of hepatopancreas and gonads. At the same time, A. leptodactylus from the contact zones at invasion fronts were in poorer body condition compared to those outside the invaded range. Thus, interspecific competition at invasion fronts affected the native A. leptodactylus more strongly than the signal crayfish, which still benefited from the reduced conspecific density in the presence of a competitor. This study highlights the importance of examining trait variability as invader advances its range, since a shift between the rate of population growth and counteracting pressure from other niche competitors could represent one of the crucial determinants of a lag between establishment and expansion of invasive species.
Highlights
Invasive alien species are a major component of human-induced rapid environmental change (Sih et al 2011; Simberloff et al 2013) and one of the most important drivers of global biodiversity loss and ecosystem degradation (Sala et al 2000; Pyšek and Richardson 2010)
Since the signal crayfish is in close contact with the native crayfish at both upstream and downstream invasion fronts, we explore the potential effects of interspecific competition on spatial distribution of examined traits in signal crayfish individuals from core and front populations
Sex ratio of the signal crayfish differed significantly between examined sites (χ2 = 27.6, p < 0.001), with significantly higher proportion of males recorded at invasion fronts compared to the invasion core sites (Figure 2)
Summary
Invasive alien species are a major component of human-induced rapid environmental change (Sih et al 2011; Simberloff et al 2013) and one of the most important drivers of global biodiversity loss and ecosystem degradation (Sala et al 2000; Pyšek and Richardson 2010). Such adverse impacts are created by a tiny fraction of all introduced species worldwide, which are able to make successful transitions through all stages of the invasion process to become successful invaders (cf Williamson and Fitter 1996; Lockwood et al 2007). Traits which are beneficial for range expansion and population establishment could become increasingly prevalent at expanding range edges and exhibit a spatial gradient along the invasion pathway (cf. Shine et al 2011)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
