Pollinator importance networks illustrate the crucial value of bees in a highly speciose plant community
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Accurate predictions of pollination service delivery require a comprehensive understanding of the interactions between plants and flower visitors. To improve measurements of pollinator performance underlying such predictions, we surveyed visitation frequency, pollinator effectiveness (pollen deposition ability) and pollinator importance (the product of visitation frequency and effectiveness) of flower visitors in a diverse Mediterranean flower meadow. With these data we constructed the largest pollinator importance network to date and compared it with the corresponding visitation network to estimate the specialisation of the community with greater precision. Visitation frequencies at the community level were positively correlated with the amount of pollen deposited during individual visits, though rarely correlated at lower taxonomic resolution. Bees had the highest levels of pollinator effectiveness, with Apis, Andrena, Lasioglossum and Osmiini bees being the most effective visitors to a number of plant species. Bomblyiid flies were the most effective non-bee flower visitors. Predictions of community specialisation (H2′) were higher in the pollinator importance network than the visitation network, mirroring previous studies. Our results increase confidence in existing measures of pollinator redundancy at the community level using visitation data, while also providing detailed information on interaction quality at the plant species level.
Ballantyne , G , Baldock , K C R , Rendell , L & Willmer , P G 2017 , ' Pollinator importance networks illustrate the crucial value of bees in a highly speciose plant community ' Scientific Reports , vol. 7 , 8389 . DOI: 10.1038/s41598-017-08798-x
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DescriptionThis research was funded by the Natural Environmental Research Council (grant no. NE/K004522/1).
- Centre for Biological Diversity (CBD) Research
- NERC Sea Mammal Research Unit (SMRU) Research
- Institute of Behavioural and Neural Sciences Research
- Biology Research
- Centre for Higher Education Research (CHER) Research
- Scottish Oceans Institute Research
- St Andrews Sustainability Institute Research
- Centre for Social Learning and Cognitive Evolution Research
- University of St Andrews Research
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