An extremely rare serovar of Salmonella enterica (Yopougon) discovered in a Western Whip Snake (Hierophis viridiflavus) from Montecristo Island, Italy: case report and review.

Reptiles, including snakes, can be asymptomatically infected with multiple pathogen microorganisms, including Salmonella spp., which is considered an important concern for public and animal health. Small and uninhabited isles are quite ecologically different from mainland and represent interesting fields of study, to discover unexpected biological and microbiological aspects of their wild inhabitants. This work reports the presence of the very rare Salmonella enterica serovar Yopougon, isolated in a carcass of a native wild snake (Hierophis viridiflavus) from an Italian uninhabited island of Mediterranean Sea, Montecristo. To our knowledge, S. enterica serovar Yopougon was previously isolated only once 34 years earlier in Ivory Coast, from a human fecal sample. In the present study, we present the genomic characterization of the new isolate, the phylogenetic comparison with the previously isolated S. enterica serovar Yopougon strain of human origin and with other sequences available in public databases. In addition, an extensive review of available data in the literature and from our case history is provided. Our finding represents an example of the ability of some pathogens to travel for very long distances within their hosts and then to infect others, even from different taxa.

Monitoring for the possible introduction of Crimean-Congo haemorrhagic fever virus in Italy based on tick sampling on migratory birds and serological survey of sheep flocks.

Crimean-Congo haemorrhagic fever (CCHF), endemic in Africa, Asia, Eastern Europe and the Middle East, is caused by a tibovirus (CCHFV) transmitted in particular by the Hyalomma genus of the Ixodidae family that can remain attached to the host for up to 26days, which in case of migratory birds allows long distance carriage. Although CCHF in domestic ruminants is usually subclinical, they may become reservoirs and act as sentinels for the introduction and/or circulation of CCHFV. In this study, possible CCHFV introduction and circulation in Italy were monitored by tick sampling on migratory birds and by a serosurvey conducted on sheep. While bird tick sampling was conducted in thirteen ringing sites of Central and Southern Italy, the serosurvey was performed on flocks grazing in coastal provinces of Central Italy that are stop over areas for birds flying from Africa, where Hyalomma ticks and CCHFV are endemic, to Central and Northern Europe. A total of 282 ticks (80.8% were Hyalomma spp.) were collected from 139 (0.28%) migratory birds of the 50,325 birds checked with 0.22% infested by Hyalomma spp., involving 22 avian species with a mean number of 1.6 Hyalomma spp. per infested bird. For the serosurvey, 540 sheep sera were randomly collected that resulted all negative when examined by an indirect IgG ELISA, employing a recombinant antigen coded by the CCHFV S gene. While the present study confirmed the introduction of CCHFV potential vectors in Central Italy, transported by migratory birds arriving from endemic areas, the serosurvey results did not put in evidence the concomitant arrival of the virus in the study area during the survey period. In general, in areas potentially at risk of CCHFV introduction and circulation, structured serological monitoring of susceptible domestic animals represents a rational system for an early detection of virus circulation.

Threats from climate change to terrestrial vertebrate hotspots in Europe.

We identified hotspots of terrestrial vertebrate species diversity in Europe and adjacent islands. Moreover, we assessed the extent to which by the end of the 21(st) century such hotspots will be exposed to average monthly temperature and precipitation patterns which can be regarded as extreme if compared to the climate experienced during 1950-2000. In particular, we considered the entire European sub-continent plus Turkey and a total of 1149 species of terrestrial vertebrates. For each species, we developed species-specific expert-based distribution models (validated against field data) which we used to calculate species richness maps for mammals, breeding birds, amphibians, and reptiles. Considering four global circulation model outputs and three emission scenarios, we generated an index of risk of exposure to extreme climates, and we used a bivariate local Moran's I to identify the areas with a significant association between hotspots of diversity and high risk of exposure to extreme climates. Our results outline that the Mediterranean basin represents both an important hotspot for biodiversity and especially for threatened species for all taxa. In particular, the Iberian and Italian peninsulas host particularly high species richness as measured over all groups, while the eastern Mediterranean basin is particularly rich in amphibians and reptiles; the islands (both Macaronesian and Mediterranean) host the highest richness of threatened species for all taxa occurs. Our results suggest that the main hotspots of biodiversity for terrestrial vertebrates may be extensively influenced by the climate change projected to occur over the coming decades, especially in the Mediterranean bioregion, posing serious concerns for biodiversity conservation.

Wildlife strike risk assessment in several Italian airports: lessons from BRI and a new methodology implementation.

The presence of wildlife in airport areas poses substantial hazards to aviation. Wildlife aircraft collisions (hereafter wildlife strikes) cause losses in terms of human lives and direct monetary losses for the aviation industry. In recent years, wildlife strikes have increased in parallel with air traffic increase and species habituation to anthropic areas. In this paper, we used an ecological approach to wildlife strike risk assessment to eight Italian international airports. The main achievement is a site-specific analysis that avoids flattening wildlife strike events on a large scale while maintaining comparable airport risk assessments. This second version of the Birdstrike Risk Index (BRI2) is a sensitive tool that provides different time scale results allowing appropriate management planning. The methodology applied has been developed in accordance with the Italian Civil Aviation Authority, which recognizes it as a national standard implemented in the advisory circular ENAC APT-01B.