12 research outputs found
Risks to pollinators and pollination from invasive alien species
Invasive alien species modify pollinator biodiversity and the services they provide that underpin ecosystem function and human well-being. Building on the Intergovernmental Science-Policy Platform for Biodiversity and Ecosystem Services (IPBES) global assessment of pollinators and pollination, we synthesize current understanding of invasive alien impacts on pollinators and pollination. Invasive alien species create risks and opportunities for pollinator nutrition, re-organize species interactions to affect native pollination and community stability, and spread and select for virulent diseases. Risks are complex but substantial, and depend greatly on the ecological function and evolutionary history of both the invader and the recipient ecosystem. We highlight evolutionary implications for pollination from invasive alien species, and identify future research directions, key messages and options for decision-making
Increased divergence in floral morphology strongly reduces gene flow in sympatric sexually deceptive orchids with the same pollinator
In sexually deceptive orchids, pollinator specificity is the main factor responsible for species isolation. The two sexually deceptive orchids Ophrys chestermanii and Ophrys normanii occur sympatrically on Sardinia and attract the same pollinator, males of Bombus vestalis, by producing the same odour bouquets. Since gene flow between these two species has been shown to be almost absent, their genetic distinctness seems to be preserved by other forms of reproductive barrier than pollinator specificity. The aim of this study is to investigate the nature and strength of these isolation barriers which apparently halt gene flow between these two orchids that share the same pollinator. Morphological measurements, combined with observations of cross-pseudocopulations, revealed that, in sympatry, the longer caudicles of O. normanii and the smaller and differently shaped stigmatic cavity in O. chestermanii are the main factors preventing gene flow between these two sympatric species. In contrast, other pre- or post-mating barriers seem to be weak or absent, as the two species have overlapping flowering time and we were able to rear hybrid offspring from interspecific manual crosses. At the same time, genetic analysis of orchid plantlets collected at sympatric sites detected the presence of only two putative hybrid individuals. Thus, the probability of natural cross-pollination between O. normanii and O. chestermanii seems to be strongly limited by divergence in their floral morphology. For some traits, this divergence was found increased between sympatric populations
Data from: Sexual selection on cuticular hydrocarbons of male sagebrush crickets in the wild
Cuticular hydrocarbons (CHCs) play an essential role in mate recognition in insects but the form and intensity of sexual selection on CHCs has only been evaluated in a handful of studies, and never in a natural population. We quantified sexual selection operating on CHCs in a wild population of sagebrush crickets, a species in which nuptial feeding by females imposes an unambiguous phenotypic marker on males. Multivariate selection analysis revealed a saddle-shaped fitness surface, suggesting a complex interplay between the total abundance of CHCs and specific CHC combinations in their influence on female choice. The fitness surface resulting from two axes of disruptive selection reflected a trade-off between short- and long-chained CHCs, suggesting that males may be sacrificing some level of desiccation resistance in favour of increased attractiveness. There was a significant correlation between male body size and total CHC abundance, suggesting that male CHCs provide females with a reliable cue for maximizing benefits obtained from males. Notwithstanding the conspicuousness of males’ acoustic signals, our results suggest that selection imposed on males via female mating preferences may be far more complex than previously appreciated and operating in multiple sensory modalities
Microheterogeneity of serogroup A (subgroup III) Neisseria meningitidis during an outbreak in northern Ghana
During a meningitis outbreak in the eastern subdistrict of the Kassena-Nankana District of the Upper East Region of Ghana, we analysed cerebrospinal fluid from suspected meningitis cases for the most common causative organisms. In 50 of 92 samples analysed, serogroup A Neisseria meningitidis were detected. The ages of serogroup A N. meningitidis patients ranged from 4 months to 64 years. The case fatality ratio was 20%. Coma or stupor on presentation worsened the prognosis. All serogroup A N. meningitidis isolates recovered revealed the A: 4: P1.9, 20 phenotype characteristic for the subgroup III clonal grouping. No evidence for resistance to penicillin G, chloramphenicol, cefotaxime, ciprofloxacin, rifampicin or tetracycline was found. All strains were resistant to sulphadiazine. Restriction analysis patterns of opa, iga and ingA genes were characteristic for the majority of N. meningitidis serogroup A subgroup III bacteria isolated in Africa after the 1987 epidemic in Mecca. Differences in pulsed-field gel electrophoresis patterns of NheI and SpeI digested DNA revealed microheterogeneity among the Ghanaian isolates