Abstract

Conversion of inorganic nitrogen by mutualistic nitrogen-fixing bacteria is essential for plant growth and reproduction, as well as the development of chemical and mechanical defenses. It is unclear, however, how these bacteria alter co-occurring symbioses at higher trophic levels; e.g., extrafloral nectary (EFN) induction, in response to herbivory, to attract defensive mutualists. We hypothesized that plants colonized by nitrogen-fixing bacteria would mount a larger inducible, defensive response than plants lacking symbioses, as defensive traits are costly. We predicted that bean plants, Vicia faba L., harboring Rhizobium leguminosarum bv. viciae Frank would produce more EFNs upon leaf damage, than plants lacking the symbionts, as EFN induction in V. faba is resource-dependent. Here we report that V. faba colonized by R. leguminosarum produced similar numbers of EFNs as did plants without symbionts. Plants with symbionts, however, produced significantly fewer EFNs over 1 week in response to leaf damage, than those without leaf damage. As such, nitrogen-fixing bacteria may not always benefit the host plant, but rather, the utility of these bacteria may be dependent on the prevailing ecological conditions.

Highlights

  • Nitrogen-fixing bacteria—host plant mutualisms have been studied for decades [1,2]

  • There was no difference in the number of extrafloral nectary (EFN) on inoculated vs. uninoculated plants

  • Symbioses are frequently nested within each other [30], changes in one mutualism may indirectly alter the functioning of other mutualisms

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Summary

Introduction

The conversion of atmospheric nitrogen to ammonium in plant root nodules, is used for plant growth and reproduction as well as chemical defenses [3,4] Despite their ubiquity, these symbioses are very host specific; only certain species or strains of bacteria can colonize host plants [5,6]. Viciae Frank [5,7,8] This nitrogen-fixing bacteria increases plant size, vigor, and seed set [9]. Whether this symbiont alters broad bean ecological interactions with higher trophic levels, through altered defensive capabilities, is unknown

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