Mate-searching behaviour of common and rare wasps and the implications for pollen movement of the sexually deceptive orchids they pollinate

Pollinator behaviour directly affects patterns of pollen movement and outcrossing rates in plants. In orchids pollinated by sexual deception of insects, patterns of pollen movement are primarily determined by the mate-searching behaviour of the deceived males. Here, using a capture-mark-recapture st...

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Bibliographic Details
Published in:PloS one 2013-03, Vol.8 (3), p.e59111-e59111
Main Authors: Menz, Myles H M, Phillips, Ryan D, Dixon, Kingsley W, Peakall, Rod, Didham, Raphael K
Format: Article
Language:English
Subjects:
Abundance
Analysis
Animal behavior
Animals
Appetitive Behavior
Biology
Capture-recapture studies
Crosses, Genetic
Deception
Diet
Drakaea elastica
Drakaea livida
Ecology
Evolution
Female
Females
Flowers
Flowers & plants
Foraging behavior
Gardens & gardening
Genetics
Insects
Male
Males
Mating Preference, Animal
Orchidaceae
Orchidaceae - genetics
Parks & recreation areas
Plant biology
Plant nectar
Plant reproduction
Pollen
Pollination
Pollinators
Populations
Searching
Sex Attractants
Sexual Behavior, Animal
Spatial distribution
Sympatric populations
Veterinary Science
Wasps
Wasps - physiology
Zaspilothynnus gilesi
Zaspilothynnus nigripes
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Summary:Pollinator behaviour directly affects patterns of pollen movement and outcrossing rates in plants. In orchids pollinated by sexual deception of insects, patterns of pollen movement are primarily determined by the mate-searching behaviour of the deceived males. Here, using a capture-mark-recapture study (CMR) and dietary analysis, we compare mate-searching behaviour in relation to local abundance of two pollinator species and explore the implications for pollen movement in sexually deceptive Drakaea (Orchidaceae). Drakaea are pollinated solely by the sexual deception of male thynnine wasps. The rare Drakaea elastica and widespread D. livida occur sympatrically and are pollinated by the rare but locally common Zaspilothynnus gilesi, and the widespread and abundant Z. nigripes, respectively. Local abundance was significantly different with Z. nigripes twice as abundant as Z. gilesi. For the 653 marked wasps, there was no significant difference in median movement distance between Z. gilesi and Z. nigripes. However, the maximum movement distance was twice as high for Z. gilesi (556 m) compared with Z. nigripes (267 m). This is up to three times greater than previously reported for thynnines in CMR studies. Recapture rates were six times higher in Z. gilesi (57%) compared to Z. nigripes (9%). Pollen loads and wasp longevity were similar, suggesting that this difference in recapture rate arises due to differences in the number of males moving at a scale >500 m rather than through diet or mortality. Differences in the frequency of longer movements may arise due to variation in the spatial distribution of the wingless females. We predict that pollen movement will largely be restricted to within populations of Drakaea (500 m).
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0059111