Abstract
Local abiotic and biotic conditions can alter the strength of exotic species impacts. To better understand the effects of exotic species on invaded ecosystems and to prioritize management efforts, it is important that exotic species impacts are put in local environmental context. We studied how differences in plant community composition, photosynthetically active radiation (PAR), and available soil N associated with Russian olive presence are conditioned by local environmental variation within a western U.S. riparian ecosystem. In four sites along the South Fork of the Republican River in Colorado, we established 200 pairs of plots (underneath and apart from Russian olive) to measure the effects of invasion across the ecosystem. We used a series of a priori mixed models to identify environmental variables that altered the effects of Russian olive. For all response variables, models that included the interaction of environmental characteristics, such as presence/absence of an existing cottonwood canopy, with the presence/absence of Russian olive canopy were stronger candidate models than those that just included Russian olive canopy presence as a factor. Compared with reference plots outside of Russian olive canopy, plots underneath Russian olive had higher relative exotic cover (exotic/total cover), lower perennial C4 grass cover, and higher perennial forb cover. These effects were reduced, however, in the presence of a cottonwood canopy. As expected, Russian olive was associated with reduced PAR and increased N, but these effects were reduced under cottonwood canopy. Our results demonstrate that local abiotic and biotic environmental factors condition the effects of Russian olive within a heterogeneous riparian ecosystem and suggest that management efforts should be focused in open areas where Russian olive impacts are strongest.
Highlights
Local abiotic and biotic conditions can alter the strength of exotic species impacts
We investigated how the impacts of the exotic Russian olive (Elaeagnus angustifolia L.) vary across a heterogeneous western U.S riparian ecosystem in eastern Colorado
Presence of Russian olive was associated with a higher proportion exotic plant cover, perennial forb cover, and soil N concentration and a lower perennial C4 grass cover and photosynthetically active radiation (PAR)
Summary
Local abiotic and biotic conditions can alter the strength of exotic species impacts. Our results demonstrate that local abiotic and biotic environmental factors condition the effects of Russian olive within a heterogeneous riparian ecosystem and suggest that management efforts should be focused in open areas where Russian olive impacts are strongest. When management funding is limited, we suggest prioritizing control efforts on locations where it is growing in the absence of a cottonwood canopy In these areas, Russian olive has the largest impact on soil N and proportional exotic cover. Castro-Dıez et al (2014) found that impacts of exotic plants on N cycling were greatest in warm moist climates and where there were large functional differences between the invader and native species These recent investigations produced generalizations from meta-analyses of a variety of specific invader–ecosystem combinations (where each invader is present in a single habitat type) but did not examine how impacts of single species vary with environmental context. Understanding the overall impact of an exotic plant species requires assessment of its impact across the range of environmental conditions characteristic of the invaded ecosystem
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