Abstract

Invasive plants often interact with antagonists that include native parasitic plants and pathogenic soil microbes, which may reduce fitness of the invaders. However, to date, most of the studies on the ecological consequences of antagonistic interactions between invasive plants and the resident biota focused only on pairwise interactions. A full understanding of invasion dynamics requires studies that test the effects of multiple antagonists on fitness of invasive plants and co‐occurring native plants. Here, we used an invasive plant Mikania micrantha, a co‐occurring native plant Coix lacryma‐jobi, and a native holoparasitic plant Cuscuta campestris to test whether parasitism on M. micrantha interacts with soil fungi and bacteria to reduce fitness of the invader and promote growth of the co‐occurring native plant. In a factorial setup, M. micrantha and C. lacryma‐jobi were grown together in pots in the presence versus absence of parasitism on M. micrantha by C. campestris and in the presence versus absence of full complements of soil bacteria and fungi. Fungicide and bactericide were used to suppress soil fungi and bacteria, respectively. Findings show that heavy parasitism by C. campestris caused the greatest reduction in M. micrantha biomass when soil fungi and bacteria were suppressed. In contrast, the co‐occurring native plant C. lacryma‐jobi experienced the greatest increase in biomass when grown with heavily parasitized M. micrantha and in the presence of a full complement of soil fungi and bacteria. Taken together, our results suggest that selective parasitism on susceptible invasive plants by native parasitic plants and soil microorganisms may diminish competitive ability of invasive plants and facilitate native plant coexistence with invasive plants.

Highlights

  • Invasion of native communities by exotic plant species is a major ele‐ ment of global environmental change reducing native plant diversity (Kourtev, Ehrenfeld, & Häggblom, 2003; Mack et al, 2000; Vila et al., 2011)

  • Parasitism on Mikania by Cuscuta caused a significant decline in biomass of the invader, the magnitude of impact was modified by the presence of fungi and bacteria in the soil

  • Heavy parasitism by C. campestris caused the greatest reduction in M. micrantha biomass when soil fungi and bacteria were suppressed (Figure 1f)

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Summary

| INTRODUCTION

Invasion of native communities by exotic plant species is a major ele‐ ment of global environmental change reducing native plant diversity (Kourtev, Ehrenfeld, & Häggblom, 2003; Mack et al, 2000; Vila et al., 2011). Studies in grasslands and mixed‐grass prairie of North America found that invasive and naturalized alien plants had fewer and weaker associa‐ tions with arbuscular mycorrhizal (AM) fungi than native plant species (Jordan, Aldrich‐Wolfe, Huerd, Larson, & Muehlbauer, 2012; Pringle et al, 2009; Sigüenza, Crowley, & Allen, 2006; Vogelsang & Bever, 2009) These and other findings that did not find dependency of invasive plants on mycorrhizal fungi led to a suggestion that reduced depen‐ dency on microbial mutualists may be an important feature of inva‐ siveness of exotic plants (the degraded mutualism hypothesis; Bunn, Ramsey, & Lekberg, 2015).

| MATERIALS AND METHODS
| Experimental setup
Findings
| DISCUSSION

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