Ant–plant mutualism: a dietary by-product of a tropical ant's macronutrient requirements

Ant–plant mutualism: a dietary by-product of a tropical ant's macronutrient requirements

Many arboreal ants depend on myrmecophytic plants for both food and shelter; in return, these ants defend their host plants against herbivores, which are often insects. Ant–plant and other mutualisms do not necessarily involve the exchange of costly rewards or services; they may instead result from...

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Bibliographic Details
Published in:Ecology (Durham) Vol. 98; no. 12; pp. 3141 - 3151
Main Authors: Hernández, Lina M. Arcila, Sanders, Jon G., Miller, Gabriel A., Ravenscraft, Alison, Frederickson, Megan E.
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-12-2017
Ecological Society of America
Subjects:
Ants
ant–plant interactions
Baits
Byproducts
by‐product benefits
Colonies
Cost benefit analysis
Defensive behavior
Diet
diet balance
Fitness
Food plants
Forage
Herbivores
Host plants
Insects
macronutrients
microbiome
Microorganisms
Mutualism
Myrmecophily
Nesting
Nitrogen
Prey
Protein sources
Shelters
stable isotope analysis
Symbionts
trophic level
Workers (insect caste)
stable isotope analysis
trophic level
ant-plant interactions
macronutrients
diet balance
microbiome
by-product benefits
mutualism
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Summary:Many arboreal ants depend on myrmecophytic plants for both food and shelter; in return, these ants defend their host plants against herbivores, which are often insects. Ant–plant and other mutualisms do not necessarily involve the exchange of costly rewards or services; they may instead result from by-product benefits, or positive outcomes that do not entail a cost for one or both partners. Here, we examined whether the plant-ant Allomerus octoarticulatus pays a short-term cost to defend their host plants against herbivores, or whether plant defense is a by-product benefit of ant foraging for insect prey. Because the food offered by antplants is usually nitrogen-poor, arboreal ants may balance their diets by consuming insect prey or associating with microbial symbionts to acquire nitrogen, potentially shifting the costs and benefits of plant defense for the ant partner. To determine the effect of ant diet on an ant–plant mutualism, we compared the behavior, morphology, fitness, stable isotope signatures, and gaster microbiomes of A. octoarticulatus ants nesting in Cordia nodosa trees maintained for nearly a year with or without insect herbivores. At the end of the experiment, ants from herbivore exclosures preferred protein-rich baits more than ants in the control (i.e., herbivores present) treatment. Furthermore, workers in the control treatment were heavier than in the herbivore-exclusion treatment, and worker mass predicted reproductive output, suggesting that foraging for insect prey directly increased ant colony fitness. The gaster microbiome of ants was not significantly affected by the herbivore exclusion treatment. We conclude that the defensive behavior of some phytoecious ants is a by-product of their need for external protein sources; thus, the consumption of insect herbivores by ants benefits both the ant colony and the host plant.
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ISSN:0012-9658
1939-9170
DOI:10.1002/ecy.2036