Ontogenetic patterns in the mechanisms of tolerance to herbivory in Plantago

Background and AimsHerbivory and plant defence differ markedly among seedlings and juvenile and mature plants in most species. While ontogenetic patterns of chemical resistance have been the focus of much research, comparatively little is known about how tolerance to damage changes across ontogeny....

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Bibliographic Details
Published in:Annals of botany 2013-08, Vol.112 (4), p.711-720
Main Author: Barton, Kasey E
Format: Article
Language:English
Subjects:
Animals
Biomass
Defoliation
flowering
Genetics
Herbivores
Herbivory
Juveniles
mature plants
Ontogeny
Original
phenology
Photosynthesis
Plant ecology
Plantaginaceae
Plantago
Plantago - growth & development
Plantago - metabolism
Plantago lanceolata
Plants
seed maturation
Seedlings
Seedlings - growth & development
Seedlings - metabolism
shoots
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Summary:Background and AimsHerbivory and plant defence differ markedly among seedlings and juvenile and mature plants in most species. While ontogenetic patterns of chemical resistance have been the focus of much research, comparatively little is known about how tolerance to damage changes across ontogeny. Due to dramatic shifts in plant size, resource acquisition, stored reserves and growth, it was predicted that tolerance and related underlying mechanisms would differ among ontogenetic stages.MethodsOntogenetic patterns in the mechanisms of tolerance were investigated in Plantago lanceolata and P. major (Plantaginaceae) using the genetic sib-ship approach. Pot-grown plants were subjected to 50 % defoliation at the seedling, juvenile and mature stages and either harvested in the short-term to look at plasticity in growth and photosynthesis in response to damage or allowed to grow through seed maturation to measure phenology, shoot compensation and reproductive fitness.Key ResultsTolerance to defoliation was high in P. lanceolata, but low in P. major, and did not vary among ontogenetic stages in either species. Mechanisms underlying tolerance did vary across ontogeny. In P. lanceolata, tolerance was significantly related to flowering (juveniles) and pre-damage shoot biomass (mature plants). In P. major, tolerance was significantly related to pre-damage root biomass (seedlings) and induction of non-photochemical quenching, a photosynthetic parameter (juveniles).ConclusionsBiomass partitioning was very plastic in response to damage and showed associations with tolerance in both species, indicating a strong role in plant defence. In contrast, photosynthesis and phenology showed weaker responses to damage and were related to tolerance only in certain ontogenetic stages. This study highlights the pivotal role of ontogeny in plant defence and herbivory. Additional studies in more species are needed to determine how seedlings tolerate herbivory in general and whether mechanisms vary across ontogeny in consistent patterns.
ISSN:0305-7364
1095-8290
DOI:10.1093/aob/mct083