biting flies

Seasonal abundance of the stable fly stomoxys calcitrans in Southwest England

The stable fly Stomoxys calcitrans (L.) is a cosmopolitan biting fly of both economic and welfare concern, primarily as a result of its painful bite, which can cause blood loss, discomfort and loss of productivity in livestock. Between June and November in 2016 and May and December in 2017, Alsynite sticky‐traps were deployed at four Donkey Sanctuary sites in southwest England, which experience recurrent seasonal biting fly problems. The aim was to evaluate the seasonal dynamics of the stable fly populations and the risk factors associated with abundance. In total, 19 835 S. calcitrans were trapped during the study period. In both years, abundance increased gradually over summer months, peaking in late August/September. There were no relationships between seasonally detrended abundance and any climatic factors. Fly abundance was significantly different between sites and population size was consistent between years at three of the four sites. The median chronological age, as determined by pteridine analysis of flies caught live when blood‐feeding, was 4.67 days (interquartile range 3.8–6.2 days) in males and 6.79 days (interquartile range 4.8–10.4 days) in females; there was no significant, consistent change in age or age structure over time, suggesting that adult flies emerge continuously over the summer, rather than in discrete age‐related cohorts. The data suggest that flies are more abundant in the vicinity of active animal facilities, although the strong behavioural association between flies and their hosts means that they are less likely to be caught on traps where host availability is high. The implications of these results for fly management are discussed.

Volume
33
Issue
4
Start page
485
End page
490
Publication date
Country

Control of biting flies of donkeys using fly traps

Status
Applicant(s)
Research award
Start date
End date
Country
Methodology

Trapping  of flies to identify seasonal or other variation in abundance.   Multivariate and GIS analysis to relate abundance to specific environmental features.  Pteridine fluorescence analysis to determine the age of flies collected.  Identification of visual characters responsible for fly attraction using a lab colony of S.calcitrans. Investigation of fly trap design and evaluation of their use in the field.

Aims

To develop a simple, easily managed, inexpensive trap to catch biting flies and reduce biting fly nuisance for donkeys.

Results

Stable fly abundance increased over the course of the summer with peak numbers occurring in September. A high degree of variation in abundance was observed between different trapping sites. Multiple factors appear to affect their local abundance including availability of breeding sites, weather and availability of hosts.  Through pteridine flourescence analysis it was established that there appears to be a continuous emergence of adults throughout the season rather than discrete age-related cohorts.  Population peaks reflected overlapping generations.  Mass trapping for fly population control was not an effective method for supressing the stable fly population. 

Conclusions

The continuous emergence of adult stable flies throughout the summer which results in a continual replenishment of the population makes suppression very difficult. Environmental factors that affect fly abundance should therefore be given careful consideration, such as limiting available breeding sites.  Dung heaps should not be maintained near to where donkeys live and, where possible, dung should be moved off site or stored away from donkey housing. 

Trapping, in the form used in this study, is not likely to be an effective management strategy against S.calcitrans as the number of traps needed to make a sustained impact on the fly population would likely be cost prohibitive and very labour intensive. 

The present study used sticky-traps without an attractive odour bait though and relied on visual stimulus alone for attraction. Future work could investigate the use of chemical attractants as an approach to boosting trap catches, which would potentially make the traps more cost-effective to use.  Further investigation into the optimum spatial arrangement for deployment of traps might also be useful.  

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