Epidemiologia delle strongilosi dell'asino: quali applicazioni per il controllo delle infezioni da elminti?

Strongylosis in equids, despite being very common, have never been studied from a strictly ecological point of view. Mathematical models are important ecological tools used to study the temporal dynamics of parasite populations, and are useful to study the effect of different biological parameters, as well as to analyse the outcome produced by perturbations such as anthelmintic treatments. This work describes the study of the temporal dynamics of strongyles infection in an organic donkey population, performed using coprological quantitative analysis and donkeys’ age as a proxy of the time of infection. Force of infection was then estimated for Strongylus vulgaris and small strongyles and the results used as the basis for the development of mathematical models. In particular, the comparison of models output and field data made it possible to estimate the transmission coefficient  and to consequently calculate the basic reproduction number R0 and the threshold host density. Small strongyles model includes hypobiosis and, more interestingly as never found in literature, a density-dependent development rate of hypobiotic larvae in adult parasites in order to simulate a negative feedback between larvae emergence from hypobiosis and adult parasite abundance. Simulations of pharmacological and environmental treatments showed that parasite eradication was possible for S. vulgaris only, while small strongyles, due to hypobiosis and density-dependent development rate of their hypobiotic larvae, are very difficult to control and impossible to eradicate. In addition, density-dependence in larval development has been demonstrated to act as a key factor in improving parasite population survival and abundance even in absence of human intervention.

Allevamento massale di Aedes albopictus (Skuse) nell’ambito della tecnica SIT (Tecnica dell’Insetto Sterile)

Dal 1999 presso il laboratorio del Centro Agricoltura Ambiente “G. Nicoli” a Crevalcore (BO) è in corso una sperimentazione finalizzata a verificare la possibilità di attuare la tecnica del maschio sterile (SIT) in Italia contro Aedes albopictus. Alcuni aspetti per migliorare l’efficienza di questa struttura pilota, oggetto della presente ricerca, sono stati: 1) studio degli effetti di determinati costituenti della dieta larvale a) sullo sviluppo larvale stesso, per individuare intervalli limite di densità larvale e di concentrazione di cibo in cui è possibile lo sviluppo di tale specie, e b) sulla qualità dei maschi adulti ottenuti; 2) la valutazione di attrezzatura per l’allevamento massale e 3) la possibilità di migliorare la dieta larvale mediante integrazione di carboidrati. Dalle prove di valutazione della dieta larvale si è potuto osservare che, per quanto riguarda i parametri larvali, le due diete denominate “IAEA” (1 e 2) sono risultate più efficaci rispetto alla dieta standard “CAA”. Tali diete sono perciò da preferirsi nel loro possibile impiego in biofabbriche per l’allevamento massale. Le prove condotte sugli adulti allevati con le diverse diete hanno suggerito la necessità di valutare una possibile integrazione di componenti per migliorarne la longevità. Risulta altresì opportuno continuare la ricerca per ottimizzare la dieta larvale così da ottenere maschi di elevata qualità. Grazie ai risultati ottenuti dalle prove per valutare l’impiego di attrezzatura massale (vassoi di grandi dimensioni e carrello) si è potuto definire un modello per l’allevamento di Ae. albopictus con parametri standardizzati di densità larvale, dose di dieta, temperatura dell’acqua di allevamento, percentuale di maschi passati al setacciamento e rendimento di allevamento. Prove future saranno necessarie per testare altri componenti della dieta ricchi in carboidrati, quali saccarosio, da aggiungere alla dieta larvale per migliorare le qualità degli adulti ottenuti senza provocare effetti negativi sui parametri dello sviluppo larvale.

Development of sexing systems functional to mass production of Aedes albopictus sterile males

Aedes albopictus is a vector able to transmit several arboviruses. Due to its high impact on human health, it is important to develop an efficient control strategy for this pest. Nowadays, control based on chemical insecticides is limited by the number of available active principles and the occurrence of resistance. A valuable alternative to the conventional control strategies is the sterile insect technique (SIT) which relies on releasing sterile males of the target insect. Mating between wild females and sterile males results in no viable offspring. A crucial aspect of SIT is the production of a large number of sterile males with a low presence of females that can bite and transmit viruses. The present thesis aimed to find, implement and study the most reliable mechanical sex sorter and protocol to implement male productivity and reduce female contamination. In addition, I evaluated different variables and sorting protocols to enable female recovery for breeding purposes. Furthermore, I studied the creation of a hyper-protandric strain potentially able to produce only males. I also assessed the integration of artificial intelligence with an optical unit to identify sexes at the adult stage. All these applications helped to realise a mass production model in Italy with a potential weekly production of 1 million males. Moreover, I studied and applied for aerial sterile male release in an urban environment. This technology could allow the release of males in a wide area, overcoming environmental and urban obstacles. However, the development and application of drone technologies in a metropolitan area close to airports, such as in Bologna area, must fit specific requirements. Lastly, at Réunion Island, during a Short Term Scientific Mission France (AIM-COST Action), Indian Ocean, I studied the Boosted SIT application. Coating sterile males with Pyriproxyfen may help spread the insecticide into the larval breeding sites.