Identification of female sex pheromone for monitoring the barred tooth striped moth, trichopteryx polycommata, a priority conservation species

Pheromone-baited traps can be excellent tools for sensitive detection of insects of conservation concern. Here, identification of the sex pheromone of Trichopteryx polycommata (Denis & Schiffermüller, 1775), an under-recorded UK priority species, is reported. In analyses of extracts of the pheromone glands of female T. polycommata by gas chromatography coupled to electroantennographic recording from the antenna of a male moth, a single active component was detected. This was identified as (Z,Z)-6,9-nonadecadiene (Z,Z6,9-19:H) by comparison of its mass spectrum and retention times with those of the synthetic standard. In a pilot field trial in Kent, UK, T. polycommata males were caught in pheromone traps baited with lures loaded with 1 mg and 2 mg (Z,Z)-6,9-19:H. Optimum lure loading was identified in a further five trials in Kent, Sussex and Lancashire where lures of 0, 0.001, 0.01, 0.1, 1, 2, 5 and 10 mg loadings were tested. Traps baited with 1 to 10 mg of ZZ6,9-19:H caught significantly more T. polycommata than traps baited with 0 mg and 0.001 mg. In a pilot survey of T. polycommata using pheromone lures around Morecambe Bay, UK, T. polycommata males were captured at 122 new sites within the three counties where trials took place, demonstrating the potential of pheromone monitoring to increase knowledge of abundance, distribution and ecology of this elusive species

Readability following cultural and linguistic adaptations of an Internet-based Intervention for Tinnitus for use in the United States

Purpose: An Internet-based tinnitus intervention for use in the United States could improve the provision of tinnitus-related services. Although such interventions have undergone clinical trials in Europe, the UK, and Australia, their suitability for adults with tinnitus in the US has not been established. The aim of this study was to improve the cultural and linguistic suitability, and lower the readability level, of an existing program for tinnitus to ensure its suitability for US English-and Spanish-speaking populations. Method: Guidelines for cultural adaptation were followed and involved four phases: (i) cultural adaptations, as interventions targeted at specific cultures have been shown to improve outcomes; (ii) creating Spanish materials to improve access of the materials to the large Spanish-speaking population in the US; (iii) professional review of the materials for acceptability as an intervention tool for a US population; and (iv) literacy level adjustments to make the content accessible to those with lower levels of health literacy skills. Results: Cultural adaptations were made by using word substitutions, changing examples and modifying the spelling of certain words. The materials were then translated into Spanish and cross-checked. Professional review ensured suitability of the chapters. Literacy level adjustments ensured all chapters were within the guidelines for readability grade levels below the 6th-grade level. Conclusions: The previously developed tinnitus materials were revised to adhere to best practice guidelines and ensure cultural suitability for adults with tinnitus in the US. As it is also available in Spanish, members of the large Hispanic community also have access to the intervention in their first language. Further studies should determine whether these changes improve patients’ self-efficacy, engagement, and motivation to complete the intervention

Pheromones and Other Semiochemicals for Monitoring Rare and Endangered Species

As global biodiversity declines, biodiversity and conservation have become ever more important research topics. Research in chemical ecology for conservation purposes has not adapted to address this need. During the last 10-15 years, only a few insect pheromones have been developed for biodiversity and conservation studies, including the identification and application of pheromones specifically for population monitoring. These investigations, supplemented with our knowledge from decades of studying pest insects, demonstrate that monitoring with pheromones and other semiochemicals can be applied widely for conservation of rare and threatened insects. Here, I summarize ongoing conservation research, and outline potential applications of chemical ecology and pheromone-based monitoring to studies of insect biodiversity and conservation research. Such applications include monitoring of insect population dynamics and distribution changes, including delineation of current ranges, the tracking of range expansions and contractions, and determination of their underlying causes. Sensitive and selective monitoring systems can further elucidate the importance of insect dispersal and landscape movements for conservation. Pheromone-based monitoring of indicator species will also be useful in identifying biodiversity hotspots, and in characterizing general changes in biodiversity in response to landscape, climatic, or other environmental changes

"Fool me once, but rarely fool me twice": recapture rates and the effect of lure-ageing in pheromone traps for the burnet moth Zygaena filipendulae

Pheromone lures are a powerful tool in monitoring and recording moths. An important part of accurately interpreting the data obtained is determining the recapture rate of pheromone traps and the longevity of pheromone lures. This study investigates the recapture rate and longevity of Zygaena filipendulae (Linnaeus, 1758) pheromone lures. 175 Z. filipendulae were trapped using a pheromone, individually marked and then released within a 1 metre radius of a pheromone trap. The recapture rate of the pheromone traps and the number of times individuals were caught was studied over 5 consecutive days. The recapture rate dropped from 52% on the first day to 9% on the fifth day. 45% of marked moths were not recaptured, 36% were recaptured once, 14% were recaptured twice, 2% were recaptured 3 times and 3% were recaptured 4 times. In the lure longevity experiment lures were exposed to field conditions for 0, 1, 3, 5, 7, 14, 28, 42, 56, 70 and 84 days. The lures of different ages were tested for attractiveness in the field. Lures that had been exposed for 0, 1 and 3 days attracted significantly more moths, but all lures still attracted moths and an endpoint in the lure's longevity was not reached. The implications of these findings are discussed