Pollinator rarity as a threat to a plant with a specialized pollination system
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Description
An increasing diversity of highly specialized pollination systems are being discovered, many of which are likely to be vulnerable to anthropogenic landscape modification. Here, we investigate if a specialized pollination system limits the persistence of Caladenia huegelii (Orchidaceae), an endangered species pollinated by sexual deception
of thynnine wasps. Once locally common in part of its geographical range, C. huegelii
is now largely restricted to small habitat remnants in urban areas. Pollinator surveys coupled with DNA barcoding detected a single pollinator taxon, a small form of
Macrothynnus insignis. Phylogenetic analysis revealed that small M. insignis from within
the range of C. huegelii are strongly divergent from other wasp populations, suggesting that some reproductive isolation may exist. Although common in intact landscapes outside the range of C. huegelli, small M. insignis individuals were recorded at only 4% of sites in suitable C. huegelii habitat. Accordingly, reproductive success in C. huegelii was low compared with related Caladenia spp., with 33–60% of populations failing to set fruit in any given year. As such, populations are likely to now persist primarily through individual plant longevity rather than reproduction. Due to the low reproductive success of C. huegelii , ongoing human intervention will almost certainly be needed to sustain the species. Future research will need to focus on optimizing hand pollination to maintain
reproduction and high seed fitness.
of thynnine wasps. Once locally common in part of its geographical range, C. huegelii
is now largely restricted to small habitat remnants in urban areas. Pollinator surveys coupled with DNA barcoding detected a single pollinator taxon, a small form of
Macrothynnus insignis. Phylogenetic analysis revealed that small M. insignis from within
the range of C. huegelii are strongly divergent from other wasp populations, suggesting that some reproductive isolation may exist. Although common in intact landscapes outside the range of C. huegelli, small M. insignis individuals were recorded at only 4% of sites in suitable C. huegelii habitat. Accordingly, reproductive success in C. huegelii was low compared with related Caladenia spp., with 33–60% of populations failing to set fruit in any given year. As such, populations are likely to now persist primarily through individual plant longevity rather than reproduction. Due to the low reproductive success of C. huegelii , ongoing human intervention will almost certainly be needed to sustain the species. Future research will need to focus on optimizing hand pollination to maintain
reproduction and high seed fitness.
Date of Publication
2015-08-08
Publication Type
Article
Subject(s)
Language(s)
en
Contributor(s)
Phillips, RD | |
Peakall, R | |
Retter, BA | |
Montgomery, K | |
Davis, BJ | |
Hayes, C | |
Brown, GR | |
Swarts, ND | |
Dixon, KW |
Additional Credits
Series
Botanical journal of the Linnean Society
Publisher
Oxford University Press
ISSN
1095-8339
Access(Rights)
restricted