Seed predation and defleshing in the agouti-dispersed palm Astrocaryum standleyanum

The agouti (Dasyprocta punctata) meticulously defleshes Astrocaryum standleyanum palm seeds before scatter hoarding. On Barro Colorado Island, Panama, we experimentally tested three hypotheses on how this behaviour could reduce seed predation to the mutual benefit of the tree and the rodent. The fir...

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Bibliographic Details
Published in:Journal of tropical ecology 2010-09, Vol.26 (5), p.473-480
Main Authors: Jansen, Patrick A., Elschot, Kelly, Verkerk, P. Johannes, Wright, S. Joseph
Format: Article
Language:English
Subjects:
Astrocaryum standleyanum
Barro Colorado Island
Beetles
Biological and medical sciences
bruchid beetle
Bruchidae
cache pilferage
Dasyprocta punctata
Dispersal
Ecology
Endocarp
forest
Forest ecology
Fruits
Fundamental and applied biological sciences. Psychology
germination
Germination and dormancy
Infestation
Islands
Larvae
Mammals
Panama
patterns
peru
Plant physiology and development
poachers
Predators
recruitment
Rodents
scatter-hoarding
Scolytidae
Seed dispersal
seed handling
seed predation
Seeds
survival
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Summary:The agouti (Dasyprocta punctata) meticulously defleshes Astrocaryum standleyanum palm seeds before scatter hoarding. On Barro Colorado Island, Panama, we experimentally tested three hypotheses on how this behaviour could reduce seed predation to the mutual benefit of the tree and the rodent. The first and established hypothesis – that defleshing reduces seed predation by bruchid beetles by intercepting larvae – was rejected. Experiments in which manually defleshed seeds or entire fruits were incubated at different times showed that defleshing reduced bruchid infestation before fruit fall but not after fruit fall. The second hypothesis – that defleshing reduces cache pilferage by making seeds less conspicuous – was supported. An experiment in which intact fruits and manually defleshed seeds were placed in mimicked agouti caches and followed showed that seeds with flesh were pilfered at higher rates than defleshed seeds. The third hypothesis – that defleshing reduces post-dispersal infestation of cached seeds – was rejected. An experiment in which intact fruits and manually defleshed seeds were placed in mammal exclosures and later collected to assess infestation showed that burial reduced seed infestation but defleshing did not. Thus, seed defleshing reduced palm seed predation, but in a different way than previously believed. We also found that (1) bruchid beetles can be pre-dispersal rather than post-dispersal seed predators, (2) seed infestation by scolytid beetles may control bruchid larvae, and (3) scolytids rather than bruchids are the main invertebrate seed predators of this palm.
ISSN:0266-4674
1469-7831
DOI:10.1017/S0266467410000337