Favorabilidad ecogeográfica para el corzo: distribución y abundancia

Species distribution models (SDM) are widely used in ecology, biogeography and conservation. Here, we modelled the distribution of roe deer (Capreolus capreolus) in mainland Spain in order to i) determine its macro-ecological requirements, ii) assess the favourability for this species and iii) explore the model usefulness as an index of the species relative abundance. Our results showed that roe deer distribution can be explained by predictors related with topography, climate, lithology, geography and human activity. Climate was the more relevant factor, followed by human activity, topography, spatial location and lithology. The model accurately predicted the species probability of occurrence and also, but weakly, the species’ relative abundance.Los modelos de distribución de especies (SDM) están siendo cada vez más usados para abordar cuestiones relacionadas con la ecología, biogeografía y conservación de las especies. En este estudio nos proponemos realizar un modelo de distribución para el corzo (Capreolus capreolus) en la España peninsular para estudiar los determinantes macroambientales de su rango de distribución, evaluar la favorabilidad para la especie, y la utilidad del modelo como indicador de su abundancia relativa. El modelo indica que su distribución se puede explicar en términos topográficos, climáticos, litológicos, geográficos y de presión humana. El clima fue el factor que en su efecto puro explicó un mayor porcentaje de variación, y le siguen la presión humana, la topografía, la localización espacial y la litología. El modelo obtenido predijo con elevada precisión la probabilidad de presencia de la especie y con cierto detalle su abundancia relativa

Science-based wildlife disease response

et al.Peer reviewe

Assessment of virulence factors characteristic of human Escherichia coli pathotypes and antimicrobial resistance in O157:H7 and non-O157:H7 isolates from Livestock in Spain

The distribution of virulence factors (VFs) typical of diarrheagenic Escherichia coli and the antimicrobial resistance (AMR) profiles were assessed in 780 isolates from healthy pigs, broilers, and cattle from Spain. VF distribution was broader than expected, although at low prevalence for most genes, with AMR being linked mainly to host species

Mycobacterium bovis: A model pathogen at the interface of livestock, wildlife, and humans

Complex and dynamic interactions involving domestic animals, wildlife, and humans create environments favorable to the emergence of new diseases, or reemergence of diseases in new host species. Today, reservoirs of Mycobacterium bovis, the causative agent of tuberculosis in animals, and sometimes humans, exist in a range of countries and wild animal populations. Free-ranging populations of white-tailed deer in the US, brushtail possum in New Zealand, badger in the Republic of Ireland and the United Kingdom, and wild boar in Spain exemplify established reservoirs of M. bovis. Establishment of these reservoirs is the result of factors such as spillover from livestock, translocation of wildlife, supplemental feeding of wildlife, and wildlife population densities beyond normal habitat carrying capacities. As many countries attempt to eradicate M. bovis from livestock, efforts are impeded by spillback from wildlife reservoirs. It will not be possible to eradicate this important zoonosis from livestock unless transmission between wildlife and domestic animals is halted. Such an endeavor will require a collaborative effort between agricultural, wildlife, environmental, and political interests.Peer Reviewe

Progress in the control of bovine tuberculosis in Spanish wildlife

Special issue: 5th International Conference on Mycobacterium bovis.-- HAL Id: hal-00701898Despite the compulsory test and slaughter campaigns in cattle, bovine tuberculosis (bTB) is still present in Spain, and the role of wildlife reservoirs is increasingly recognized. We provide an update on recent progress made in bTB control in Spanish wildlife, including aspects of epidemiology, surveillance, host-pathogen interaction and wildlife vaccination.At the high densities and in the particular circumstances of Mediterranean environments, wild ungulates, mainly Eurasian wild boar and red deer, are able to maintain Mycobacterium bovis circulation even in absence of domestic livestock. Infection is widespread among wild ungulates in the south of the country, local infection prevalence being as high as 52% in wild boar and 27% in red deer. Risk factors identified include host genetic susceptibility, abundance, spatial aggregation at feeders and waterholes, scavenging, and social behaviour. An increasing trend of bTB compatible lesions was reported among wild boar and red deer inspected between 1992 and 2004 in Southwestern Spain. Sporadic cases of badger TB have been detected, further complicating the picture.Gene expression profiles were characterized in European wild boar and Iberian red deer naturally infected with M. bovis. The comparative analysis of gene expression profiles in wildlife hosts in response to infection advanced our understanding of the molecular mechanisms of infection and pathogenesis, revealed common and distinctive host responses to infection and identified candidate genes associated with resistance to bTB and for the characterization of host response to infection and vaccination.Ongoing research is producing valuable knowledge on vaccine delivery, safety and efficacy issues. Baits for the oral delivery of BCG vaccine preparations to wild boar piglets were developed and evaluated. The use of selective feeders during the summer was found to be a potentially reliable bait-deployment strategy. Safety experiments yielded no isolation of M. bovis BCG from faeces, internal organs at necropsy and the environment, even after oral delivery of very high doses. Finally, preliminary vaccination and challenge experiments suggested that a single oral BCG vaccination may protect wild boar from infection by a virulent M. bovis field strain.Studies on TB at IREC are supported by Grupo Santander – Fundacion Marcelino Botin, and by TB-STEP EU FP7 212414, INIA-MICINN FAU 06-017, and PAI07-0062-6611 Castilla – La Mancha.Peer Reviewe

Caracterización de las formaciones riparias para la clasificación tipológica de los ríos de Navarra, y evaluación de su estado ecológico mediante la aplicación de dos índices de calidad de ribera (RQI y QBR): Comparación entre ellos

Este estudio se enmarca dentro de las medidas llevadas a cabo por el Gobierno de Navarra para alcanzar los objetivos dictados por la Directiva Marco de Agua, DMA. Para la consecución de la evaluación del estado ecológico de los ríos, previamente se deben realizar los estudios de caracterización física y de sus cuencas vertientes obteniendo una tipología de los segmentos fluviales (DMA, artículo 3, anexo II). Hasta el momento se carecía de trabajos de síntesis que ofreciesen una visión de conjunto sobre la vegetación de las riberas en Navarra. Este tipo de trabajos resulta de gran utilidad para la identificación de tramos de ríos con elevado valor ecológico y posibilita la selección adecuada de especies vegetales para la recuperación de ríos degradados, utilizando las plantas más adecuadas, desde el punto de vista territorial y ambientalmente, para cada situación. En este estudio se aporta más información a cada uno de los tipos fluviales presentes en Navarra y se evalúa su interrelación teniendo en cuenta aspectos morfológicos y de ribera. Para ello, se ha realizado una caracterización de las diferentes formaciones riparias, atendiendo a las condiciones de cuenca vertiente y características morfológicas de los tramos en los que se ubican cada una de ellas. Con el objetivo de realizar un mejor enfoque en las medidas de restauración que se establezcan para cada tipo fluvial, se ha evaluado también la calidad ecológica de las riberas según la cuantificación establecida por dos índices distintos: QBR y RQI, determinando en qué aspectos éstas se encuentran más degradadas para cada uno de los tipos fluviales. Para completar los resultados se ha llevado a cabo un análisis de las relaciones entre los diferentes parámetros utilizados, evaluando cómo funcionan los índices QBR y RQI. Este análisis proporciona las bases para la determinación de las condiciones de referencia para cada uno de los tipos fluviales, necesarias para establecer una clasificación de calidades

Seroprevalence and Risk Factors Associated to Mycobacterium bovis in Wild Artiodactyl Species from Southern Spain, 2006–2010

The control of bovine tuberculosis (bTB) is at a critical point in the last stage of eradication in livestock. Wildlife species recently have emerged infected with TB in Europe, particularly ungulates in the Iberian Peninsula. Epidemiological information regarding TB in wild ungulates including affected species, prevalence, associated risk factors and appropriate diagnostic methods need to be obtained in these countries

Quantification of the animal tuberculosis multi-host community offers insights for control

Animal tuberculosis (TB) is a multi-host zoonotic disease whose prevalence in cattle herds in Europe has been increasing, despite a huge investment in eradication. The composition of the host community is a fundamental driver of pathogen transmission, and yet this has not been formally quantified for animal TB in Europe. We quantified multi-host communities of animal TB, using stochastic models to estimate the number of infected domestic and wild hosts in three regions: officially TB-free Central–Western Europe, and two largely TB-endemic regions, the Iberian Peninsula and Britain and Ireland. We show that the estimated number of infected animals in the three regions was 290,059–1,605,612 and the numbers of infected non-bovine domestic and wild hosts always exceeded those of infected cattle, with ratios ranging from 3.3 (1.3–19.6):1 in Britain and Ireland to 84.3 (20.5–864):1 in the Iberian Peninsula. Our results illustrate for the first time the extent to which animal TB systems in some regions of Europe are dominated by non-bovine domestic and wild species. These findings highlight the need to adapt current strategies for effective future control of the disease.This research was funded by MINECO and EU-FEDER WildDriver grant CGL2017-89866; NS was funded by FCT—Fundação para a Ciência e a Tecnologia grant SFRH/BPD/116596/2016

Using integrated wildlife monitoring to prevent future pandemics through one health approach

In the One Health context, Integrated Wildlife Monitoring (IWM) merges wildlife health monitoring (WHM) and host community monitoring to early detect emerging infections, record changes in disease dynamics, and assess the impact of interventions in complex multi-host and multi-pathogen networks. This study reports the deployment and results obtained from a nationwide IWM pilot test in eleven sites representing the habitat diversity of mainland Spain. In each study site, camera-trap networks and sampling of indicator species for antibody and biomarker analysis were used to generate information. The results allowed identifying differences in biodiversity and host community characteristics among the study sites, with a range of 8 to 19 relevant host species per point. The Eurasian wild boar (Sus scrofa) was the most connected and central species of the host communities, becoming a key target indicator species for IWM. A negative relationship between biodiversity and disease risk was detected, with a lower number and prevalence of circulating pathogens in the sites with more species in the community and larger network size. However, this overall trend was modified by specific host-community and environmental factors, such as the relative index of wild boar - red deer interactions or the proximity to urban habitats, suggesting that human-driven imbalances may favour pathogen circulation. The effort of incorporating wildlife population monitoring into the currently applied WHM programs to achieve effective IWM was also evaluated, allowing to identify population monitoring as the most time-consuming component, which should be improved in the future. This first nationwide application of IWM allowed to detect drivers and hotspots for disease transmission risk among wildlife, domestic animals, and humans, as well as identifying key target indicator species for monitoring. Moreover, anthropogenic effects such as artificially high wildlife densities and urbanisation were identified as risk factors for disease prevalence and interspecific transmission

Experimental infection of Eurasian wild boar with Mycobacterium avium subsp. avium

The Eurasian wild boar (Sus scrofa) is increasingly relevant as a host for several pathogenic mycobacteria. We aimed to characterize the first experimental Mycobacterium avium subsp. avium (MAA) infection in wild boar in order to describe the lesions and the immune response as compared to uninfected controls. Twelve 1-4-month-old wild boar piglets were housed in class III bio-containment facilities. Four concentrations of MAA suspension were used: 10, 102 and 104 mycobacteria (2 animals each, oropharyngeal route) and 2.5×106 mycobacteria (2 animals each by the oropharyngeal and nasal routes). No clinical signs were observed and pathology evidenced a low pathogenicity of this MAA strain for this particular host. Bacteriological and pathological evidence of successful infection after experimental inoculation was found for the group challenged with 2.5×106 mycobacteria. These four wild boar showed a positive IFN-γ response to the avian PPD and the real-time RT-PCR data revealed that three genes, complement component C3, IFN-γ and RANTES, were significantly down regulated in infected animals. These results were similar to those found in naturally and experimentally M. bovis-infected wild boar and may constitute biomarkers of mycobacterial infection in this species.The study was funded by INIA-MICINN research grant FAU2006-00017 and Plan NacionalAGL2008-03875. Studies on TB at IREC are also supported by Grupo Santander—Fundación Marcelino Botin.Peer Reviewe