Reduced ant defenses in Macaranga myrmecophytes (Euphorbiaceae) infested with a winged phasmid Orthomeria cuprinus

Macaranga is a tree genus that includes many species of myrmecophytes, which are plants that harbor ant colonies within hollow structures known as domatia. The symbiotic ants (plant–ants) protect their host plants against herbivores; this defense mechanism is called ‘ant defense’. A Bornean phasmid...

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Bibliographic Details
Published in:Ecological research 2016-09, Vol.31 (5), p.665-672
Main Authors: Shimizu-kaya, Usun, Itioka, Takao
Format: Article
Language:English
Subjects:
Animal populations
Anti‐herbivore defense
Ant–plant interactions
Behavioral Sciences
Biomedical and Life Sciences
Crematogaster
Defense mechanisms
Ecology
Euphorbiaceae
Evolutionary Biology
Forestry
Formicidae
Herbivores
Host plant use
Host plants
Insects
Life Sciences
Macaranga
Mutualism
Original Article
Plant Sciences
Plasmids
Southeast Asian tropical rainforests
Trees
Zoology
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Summary:Macaranga is a tree genus that includes many species of myrmecophytes, which are plants that harbor ant colonies within hollow structures known as domatia. The symbiotic ants (plant–ants) protect their host plants against herbivores; this defense mechanism is called ‘ant defense’. A Bornean phasmid species Orthomeria cuprinus feeds on two myrmecophytic Macaranga species, Macaranga beccariana and Macaranga hypoleuca , which are obligately associated with Crematogaster ant species. The phasmids elude the ant defense using specialized behavior. However, the mechanisms used by the phasmid to overcome ant defenses have been insufficiently elucidated. We hypothesized that O. cuprinus only feeds on individual plants with weakened ant defenses. To test the hypothesis, we compared the ant defense intensity in phasmid-infested and non-infested M. beccariana trees. The number of plant–ants on the plant surface, the ratio of plant–ant biomass to tree biomass, and the aggressiveness of plant–ants towards experimentally introduced herbivores were significantly lower on the phasmid-infested trees than on the non-infested trees. The phasmid nymphs experimentally introduced into non-infested trees, compared with those experimentally introduced into phasmid-infested trees, were more active on the plant surface, avoiding the plant–ants. These results support the hypothesis and suggest that ant defenses on non-infested trees effectively prevent the phasmids from remaining on the plants. Thus, we suggest that O. cuprinus feeds only on the individual M. beccariana trees having decreased ant defenses, although the factors that reduce the intensity of the ant defenses remain unclear.
ISSN:0912-3814
1440-1703
DOI:10.1007/s11284-016-1374-7