Sublethal effects of a common neonicotinoid pesticide, thiamethoxam, on honey bees: impact on locomotion and thermoregulation

Neonicotinoids have been pointed to as a factor responsible for the increased honey bee colony losses in the last decades. Many studies have investigated the effects of the first marketed neonicotinoid, imidacloprid, while fewer have focused on thiamethoxam. One recent study showed that sublethal doses of thiamethoxam lead to colony failure by decreasing forager homing flight success. We thus decided to investigate the mechanism which caused this phenomenon. Our hypothesis was that this effect was caused by impairment of forager locomotion abilities. Therefore we tested the effects of sublethal acute and chronic exposures to thiamethoxam on forager walking (Chapter 2) and flight (Chapter 3) performances. The acute treatment (1.34 ng/bee) affected walking locomotion firstly triggering hyperactivity (30 min post-treatment) and then impairing motor functioning (60 min post-treatment). 2-day continuous exposures to thiamethoxam (32.5, 45 ppb) elicited fewer effects on walking locomotion, however both exposure modes elicited an increased positive phototaxis. Similarly, in flight experiments, the single dose (1.34 ng/bee) elicited hyperactivity shortly after intoxication (increased flight duration and distance), while longer and continuous exposures (32.5, 45 ppb) impaired forager motor functions (decreased flight duration, distance, velocity). It is known that flight muscles temperature needs to be precisely regulated by bees during flight. Therefore, we further hypothesized that the impaired flight performances of neonicotinoid intoxicated bees were caused also by thermoregulation anomalies. We tested the effects that acute thiamethoxam exposures (0.2, 1, 2 ng/bee) elicit on forager thorax temperature (Chapter 4). Foragers treated with high doses exhibited hyperthermia or hypothermia when respectively exposed to high or low environmental temperatures. In summary, we show that sublethal doses of thiamethoxam affected forager walking and flight locomotion, phototaxis and thermoregulation. We also display the intricate mode of action of thiamethoxam which triggered, at different extents, inverse sublethal effects in relation to time and dose.

Effetti della Salinizzazione sugli Invertebrati del suolo

Lo scopo di questa tesi è quello di valutare l'effetto della salinizzazione dei suoli sugli invertebrati edafici. Nell'ambito di questo obiettivo generale sono state effettuate due distinte attività di ricerca: una indagine sul campo e una serie di esperimenti di laboratorio. Lo studio sul campo è stato condotto nella Pineta di San Vitale (Ravenna, Italia). L'obiettivo specifico è stato quello di valutare la qualità biologica dei suoli attraverso l'analisi del popolamento dei microartropodi edafici, in relazione alla diversità del suolo e in particolare alla salinizzazione. La qualità biologica dei suoli è stata valutata mediante l'indice QBS-ar. La Pineta è stata campionata nella zona Est, più colpita da intrusione salina e nella zona Ovest dove questo fenomeno è meno evidente. I campionamenti sono stati effettuati in primavera ed estate. I risultati confermano che le caratteristiche chimico-fisiche si modificano in base al gradiente sommità dunali-depressioni interdunali. Per quanto riguarda il popolamento dei microartropodi alcune caratteristiche sono comuni alla maggior parte delle stazioni con lo stesso pedotipo. Non è stato evidenziato alcuno stress sui popolamenti attribuibule alla salinizzazione. Nel complesso, i valori di QBS-ar sono piuttosto elevati. Gli esperimenti di laboratorio sono stati finalizzata alla valutazione degli effetti combinati della salinità del suolo e della contaminazione da pesticidi (chlorpyrifos) sul lombrico Eisenia andrei. Nel complesso, i risultati indicano che effetti avversi sui lombrichi sono possibili a livelli di salinizzazione dei suoli ancora compatibili a concentrazioni di chlorpyrifos che sono piuttosto alte in confronto con i tipici risultati di campo, ma ancora compatibili con l'uso consigliato.

Effects of pesticides on honey bees (Apis mellifera L.): study of a specific route of exposure and evaluation of biochemical-physiological changes in the assessment of the pesticides toxicity

In this study, some important aspects of the relationship between honey bees (Apis mellifera L.) and pesticides have been investigated. In the first part of the research, the effects of the exposure of honey bees to neonicotinoids and fipronil contaminated dusts were analyzed. In fact, considerable amounts of these pesticides, employed for maize seed dressing treatments, may be dispersed during the sowing operations, thus representing a way of intoxication for honey bees. In particular, a specific way of exposure to this pesticides formulation, the indirect contact, was taken into account. To this aim, we conducted different experimentations, in laboratory, in semi-field and in open field conditions in order to assess the effects on mortality, foraging behaviour, colony development and capacity of orientation. The real dispersal of contaminated dusts was previously assessed in specific filed trials. In the second part, the impact of various pesticides (chemical and biological) on honey bee biochemical-physiological changes, was evaluated. Different ways and durations of exposure to the tested products were also employed. Three experimentations were performed, combining Bt spores and deltamethrin, Bt spores and fipronil, difenoconazole and deltamethrin. Several important enzymes (GST, ALP, SOD, CAT, G6PDH, GAPDH) were selected in order to test the pesticides induced variations in their activity. In particular, these enzymes are involved in different pathways of detoxification, oxidative stress defence and energetic metabolism. The results showed a significant effect on mortality of neonicotinoids and fipronil contaminated dusts, both in laboratory and in semi-field trials. However, no effects were evidenced in honey bees orientation capacity. The analysis of different biochemical indicators highlighted some interesting physiological variations that can be linked to the pesticide exposure. We therefore stress the attention on the possibility of using such a methodology as a novel toxicity endpoint in environmental risk assessment.