Search

Your search keyword '"Marucco, F."' showing total 30 results
Start Over Author "Marucco, F."
30 results on '"Marucco, F."'

1. When enough is enough: Optimising monitoring effort for large‐scale wolf population size estimation in the Italian Alps.

Author

Boiani, M. V., Dupont, P., Bischof, R., Milleret, C., Friard, O., Geary, M., Avanzinelli, E., von Hardenberg, A., and Marucco, F.

Subjects
DNA analysis, COST analysis, WOLVES, CARNIVOROUS animals, SUSTAINABILITY
Abstract

The ongoing expansion of wolf (Canis lupus) populations in Europe has led to a growing demand for up‐to‐date abundance estimates. Non‐invasive genetic sampling (NGS) is now widely used to monitor wolves, as it allows individual identification and abundance estimation without physically capturing individuals. However, NGS is resource‐intensive, partly due to the elusive behaviour and wide distribution of wolves, as well as the cost of DNA analyses. Optimisation of sampling strategies is therefore a requirement for the long‐term sustainability of wolf monitoring programs. Using data from the 2020–2021 Italian Alpine wolf monitoring, we investigate how (i) reducing the number of samples genotyped, (ii) reducing the number of transects, and (iii) reducing the number of repetitions of each search transect impacted spatial capture‐recapture population size estimates. Our study revealed that a 25% reduction in the number of transects or, alternatively, a 50% reduction in the maximum number of repetitions yielded abundance estimates comparable to those obtained using the entire dataset. These modifications would result in a 2046 km reduction in total transect length and 19,628 km reduction in total distance searched. Further reducing the number of transects resulted in up to 15% lower and up to 17% less precise abundance estimates. Reducing only the number of genotyped samples led to higher (5%) and less precise (20%) abundance estimates. Randomly subsampling genotyped samples reduced the number of detections per individual, whereas subsampling search transects resulted in a less pronounced decrease in both the total number of detections and individuals detected. Our work shows how it is possible to optimise wolf monitoring by reducing search effort while maintaining the quality of abundance estimates, by adopting a modelling framework that uses a first survey dataset. We further provide general guidelines on how to optimise sampling effort when using spatial capture‐recapture in large‐scale monitoring programmes. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

2. A multidisciplinary approach to estimating wolf population size for long-term conservation

Author

Marucco, F., Boiani, M.V., Dupont, P., Milleret, C., Avanzinelli, E., Pilgrim, K., Schwartz, A.M.K., von Hardenberg, A., Perrone, S., Friard, O., Menzano, A., Bisi, F., Fattori, U., Tomasella, M., Calderola, S., Carolfi, S., Ferrari, P., Chioso, C., Truc, F., Bombieri, G., Pedrotti, L., Righetti, D., Acutis, P.L., Guglielmo, F., Hauffe, H.C., Rossi, C., Caniglia, R., Aragno, P., La Morgia, V., Genovesi, P., and Bischof, R.

Subjects
genetic sampling, monitoring, Settore BIO/05 - ZOOLOGIA, population modelling, large carnivores, citizen science, imperfect detection, spatial capture-recapture
Published
2023

5. Unravelling the scientific debate on how to address wolf-dog hybridization in Europe

Author

Donfrancesco, V., Ciucci, Paolo, Salvatori, V., Benson, D., Andersen, L.W., Bassi, E., Blanco, J.C., Boitani, L., Caniglia, R., Canu, A., Capitani, C., Chapron, Guillaume, Czarnomska, S.D., Fabbri, Elena, Galaverni, M., Galov, A., Gimenez, O., Godinho, Raquel, Greco, C., Hindrikson, M., Huber, D., Hulva, P., Jedrzejewski, W., Kusak, J., Linnell, J.D.C., Llaneza, Luis, López-Bao, José V., Männil, P., Marucco, F., Mattioli, L., Milanesi, Pietro, Milleret, C., Myslajek, R.W., Ordiz, A., Palacios, V., Pedersen, H.C., Pertoldi, Cino, Pilot, M., Randi, E., Rodríguez, Alejandro, Saarma, U., Sand, H., Scandura, M., Stronen, A.V., Tsingarska, E., Mukherjee, N., Donfrancesco, V., Ciucci, Paolo, Salvatori, V., Benson, D., Andersen, L.W., Bassi, E., Blanco, J.C., Boitani, L., Caniglia, R., Canu, A., Capitani, C., Chapron, Guillaume, Czarnomska, S.D., Fabbri, Elena, Galaverni, M., Galov, A., Gimenez, O., Godinho, Raquel, Greco, C., Hindrikson, M., Huber, D., Hulva, P., Jedrzejewski, W., Kusak, J., Linnell, J.D.C., Llaneza, Luis, López-Bao, José V., Männil, P., Marucco, F., Mattioli, L., Milanesi, Pietro, Milleret, C., Myslajek, R.W., Ordiz, A., Palacios, V., Pedersen, H.C., Pertoldi, Cino, Pilot, M., Randi, E., Rodríguez, Alejandro, Saarma, U., Sand, H., Scandura, M., Stronen, A.V., Tsingarska, E., and Mukherjee, N.

Abstract

Anthropogenic hybridization is widely perceived as a threat to the conservation of biodiversity. Nevertheless, to date, relevant policy and management interventions are unresolved and highly convoluted. While this is due to the inherent complexity of the issue, we hereby hypothesize that a lack of agreement concerning management goals and approaches, within the scientific community, may explain the lack of social awareness on this phenomenon, and the absence of effective pressure on decision-makers. By focusing on wolf x dog hybridization in Europe, we hereby (a) assess the state of the art of issues on wolf x dog hybridization within the scientific community, (b) assess the conceptual bases for different viewpoints, and (c) provide a conceptual framework aiming at reducing the disagreements. We adopted the Delphi technique, involving a three-round iterative survey addressed to a selected sample of experts who published at Web of Science listed journals, in the last 10 years on wolf x dog hybridization and related topics. Consensus was reached that admixed individuals should always be defined according to their genetic profile, and that a reference threshold for admixture (i.e., q-value in assignment tests) should be formally adopted for their identification. To mitigate hybridization, experts agreed on adopting preventive, proactive and, when concerning small and recovering wolf populations, reactive interventions. Overall, experts' consensus waned as the issues addressed became increasingly practical, including the adoption of lethal removal. We suggest three non-mutually exclusive explanations for this trend: (i) value-laden viewpoints increasingly emerge when addressing practical issues, and are particularly diverging between experts with different disciplinary backgrounds (e.g., ecologists, geneticists); (ii) some experts prefer avoiding the risk of potentially giving carte blanche to wolf opponents to (illegally) remove wolves, based on the wolf x dog hybridiz

Published
2019

7. Gastrointestinal helminths of wolves (Canis lupus Linnaeus, 1758) in Piedmont, north-western Italy.

Author

de Macedo, M.R.P., Zanet, S., Bruno, S., Tolosano, A., Marucco, F., Rossi, L., Muller, G., and Ferroglio, E.

Subjects
HELMINTHS, WOLVES, TAPEWORMS, NEMATODES, CANIS, ANCYLOSTOMA, TOXOCARA
Abstract

Free-ranging grey wolves (Canis lupus), which are presently recolonizing Italy, can be parasitized by a diversity of helminths, but have rarely been subject to studies of their parasites. Therefore, this study aims to determine the prevalence of gastrointestinal helminths of road-killed grey wolves from the Piedmont region of Italy. Forty-two wolves were collected and examined for the presence of helminths. We recorded 12 helminth species: nine Nematoda and three Cestoda. The nematodes were: Ancylostoma caninum (7.1%), Capillaria sp. (2.4%), Molineus sp. (2.4%), Pterygodermatites affinis (11.9%), Physaloptera sibirica (9.5%), Toxocara canis (9.5%), Toxascaris leonina (2.4%) and Uncinaria stenocephala (26.2%); the cestodes were: Dipylidium caninum (4.8%), Mesocestoides sp. (4.8%) and Taenia multiceps (76.2%). Physaloptera sibirica had the highest mean intensity and T. multiceps had the highest prevalence. Based on age and sex, no differences in the intensity or prevalence of helminth species were found among the hosts. Molineus sp. was recorded for the first time in wolves from the Palearctic region; P. affinis and P. sibirica are respectively reported for the first time in wolves from Europe and Italy. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

8. Mapping range dynamics from opportunistic data: spatiotemporal modelling of the lynx distribution in the Alps over 21 years

Author

Molinari-Jobin, A., primary, Kéry, M., additional, Marboutin, E., additional, Marucco, F., additional, Zimmermann, F., additional, Molinari, P., additional, Frick, H., additional, Fuxjäger, C., additional, Wölfl, S., additional, Bled, F., additional, Breitenmoser-Würsten, C., additional, Kos, I., additional, Wölfl, M., additional, Černe, R., additional, Müller, O., additional, and Breitenmoser, U., additional

Published
2017
Full Text
View/download PDF

9. Mapping range dynamics from opportunistic data: spatiotemporal modelling of the lynx distribution in the Alps over 21 years.

Author

Molinari‐Jobin, A., Kéry, M., Marboutin, E., Marucco, F., Zimmermann, F., Molinari, P., Frick, H., Fuxjäger, C., Wölfl, S., Bled, F., Breitenmoser‐Würsten, C., Kos, I., Wölfl, M., Černe, R., Müller, O., and Breitenmoser, U.

Subjects
LYNX, SPATIOTEMPORAL processes, ZOOGEOGRAPHY, WILDLIFE conservation
Abstract

Abstract: The Eurasian lynx is of special conservation concern based on the European Union's Habitat Directive and its populations need to be maintained or restored at favourable conservation status. To evaluate lynx population status, appropriate monitoring needs to be in place. We modelled the distribution dynamics of lynx in the Alps (200 000 km2) during 1994–2014 at a resolution of 100 km2. Lynx distribution and detection probability varied by year, country, forest cover, elevation and distance to the nearest release site. Occupancy of neighbouring quadrats had a strong positive effect on colonization and persistence rates. Our analyses demonstrate the importance of accounting for imperfect detection: the raw data underestimated the lynx range by 55% on average, depending on country and winter. Over the past 20 years the Alpine lynx range has expanded at an average rate of 4% per year, which was partly due to the lynx translocations to new areas. Our approach to large‐scale distribution modelling and analysing trends using site occupancy models can be applied retrospectively and is useful in many cases where a network of trained people is established to report the presence of target species, for example, in Europe where member states of the European Union have to report conservation status of species of community interest. Hence, dynamic occupancy models are an appealing framework for inference about the large‐scale range dynamics based on opportunistic data and a useful tool for large‐scale management and conservation programmes. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

14. From the Apennines to the Alps: colonization genetics of the naturally expanding Italian wolf (Canis lupus) population

Author

Fabbri, E., Miquel, C., Lucchini, V., Santini, A., Caniglia, R., Duchamp, C., Weber, J. -M., Lequette, B., Marucco, F., Boitani, L., Fumagalli, L., Taberlet, P., Randi, E., Istituto Nazionale per la Fauna Selvatica (INFS), Istituto Nazionale per la Fauna Selvatica, Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Centre National d'étude et de recherche appliqué sur les prédateurs, Office National de la Chasse et de la Faune Sauvage, KORA, Parc National du Mercantour, Department of Ecosystem and Conservation Sciences, University of Montana, Dipartimento di Biologia Animale e dell?Uomo, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Laboratoire de Biologie de la Conservation (LBC), Université de Lausanne (UNIL), and Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])

Subjects
Gene Flow, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, Wolves, Genotype, Geography, spatial population structure, Bayes Theorem, [SDV.BID]Life Sciences [q-bio]/Biodiversity, Bayesian assignment testing, autocorrelation analyses, Founder Effect, Canis lupus, wolf, Italy, Animals, Cluster Analysis, Animal Migration, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, colonization genetics, Autocorrelation analyses, Colonization genetics, Spatial population structure, Wolf, Microsatellite Repeats
Abstract

Times Cited: 3; International audience; Wolves in Italy strongly declined in the past and were confined south of the Alps since the turn of the last century, reduced in the 1970s to approximately 100 individuals surviving in two fragmented subpopulations in the central-southern Apennines. The Italian wolves are presently expanding in the Apennines, and started to recolonize the western Alps in Italy, France and Switzerland about 16 years ago. In this study, we used a population genetic approach to elucidate some aspects of the wolf recolonization process. DNA extracted from 3068 tissue and scat samples collected in the Apennines (the source populations) and in the Alps (the colony), were genotyped at 12 microsatellite loci aiming to assess (i) the strength of the bottleneck and founder effects during the onset of colonization; (ii)the rates of gene flow between source and colony; and (iii) the minimum number of colonizers that are needed to explain the genetic variability observed in the colony. We identified a total of 435 distinct wolf genotypes, which showed that wolves in the Alps: (i) have significantly lower genetic diversity (heterozygosity, allelic richness, number of private alleles) than wolves in the Apennines; (ii) are genetically distinct using pairwise F-ST values, population assignment test and Bayesian clustering; (iii) are not in genetic equilibrium (significant bottleneck test). Spatial autocorrelations are significant among samples separated up to c. 230 km, roughly correspondent to the apparent gap in permanent wolf presence between the Alps and north Apennines. The estimated number of first-generation migrants indicates that migration has been unidirectional and male-biased, from the Apennines to the Alps, and that wolves in southern Italy did not contribute to the Alpine population. These results suggest that: (i) the Alps were colonized by a few long-range migrating wolves originating in the north Apennine subpopulation; (ii) during the colonization process there has been a moderate bottleneck; and (iii) gene flow between sources and colonies was moderate (corresponding to 1.25-2.50 wolves per generation), despite high potential for dispersal. Bottleneck simulations showed that a total of c. 8-16 effective founders are needed to explain the genetic diversity observed in the Alps. Levels of genetic diversity in the expanding Alpine wolf population, and the permanence of genetic structuring, will depend on the future rates of gene flow among distinct wolf subpopulation fragments.

Published
2007

15. Non-invasive molecular tracking of colonizing wolf (Canis lupus) packs in the western Italian Alps

Author

Lucchini, V., Fabbri, E., Marucco, F., Ricci, S., Boitani, L., and Randi, E.

Subjects
Conservation of Natural Resources, Molecular sexing, mtDNA control-region, Population, Pilot Projects, DNA, Mitochondrial, Polymerase Chain Reaction, Canis lupus, Individual molecular tracking, Microsatellites, Noninvasive genetics, Animals, Behavior, Animal, Feces, Genetics, Population, Italy, Locus Control Region, Microsatellite Repeats, Phylogeny, Sequence Analysis, DNA, Sex Chromosomes, Wolves, Genetics, Behavior, Animal, DNA, Mitochondrial, Sequence Analysis
Abstract

We used noninvasive methods to obtain genetic and demographic data on the wolf packs (Canis lupus), which are now recolonizing the Alps, a century after their eradication. DNA samples, extracted from presumed wolf scats collected in the western Italian Alps (Piemonte), were genotyped to determine species and sex by sequencing parts of the mitochondrial DNA (mtDNA) control-region and ZFX/ZFY genes. Individual genotypes were identified by multilocus microsatellite analyses using a multiple tubes polymerase chain reaction (PCR). The performance of the laboratory protocols was affected by the age of samples. The quality of excremental DNA extracts was higher in samples freshly collected on snow in winter than in samples that were older or collected during summer. Preliminary mtDNA screening of all samples allowed species identification and was a good predictor of further PCR performances. Wolf, and not prey, DNA targets were preferentially amplified. Allelic dropout occurred more frequently than false alleles, but the probability of false homozygote determinations was always0.001. A panel of six to nine microsatellites would allow identification of individual wolf genotypes, also whether related, with a probability of identity of0.015. Genealogical relationships among individuals could be determined reliably if the number of candidate parents was 6-8, and most of them had been sampled and correctly genotyped. Genetic data indicate that colonizing Alpine wolves originate exclusively from the Italian source population and retain a high proportion of its genetic diversity. Spatial and temporal locations of individual genotypes, and kinship analyses, suggest that two distinct packs of closely related wolves, plus some unrelated individuals, ranged in the study areas. This is in agreement with field observations.

Published
2002

17. Neutron scattering of H.T.S.C. Materials : Zn substituted Versus Pure YBCO, Nuclear and Magnetic Structures, Spin Excitations.

Author

Collin, G., primary, Villeneuve, R., additional, Sidis, Y., additional, Bourges, Ph., additional, Hennion, B., additional, Onufrieva, F., additional, Gillon, B., additional, Bouree, F., additional, Mirebeau, I., additional, Mendels, P., additional, Alloul, H., additional, Marucco, F., additional, and Schweiss, P., additional

Published
1994
Full Text
View/download PDF

19. Assessment of the conservation status of the Wolf (Canis lupus) in Europe

Author

Biotani, L., Kaczensky, P., Alvares, F., Andrén, H., Balys, V., Blanco, J. C., Chapron, G., Chiriac, S., Cirovic, D., Drouet-Houguet, N., Groff, C., Huber, D., Illppoulos, Y., Ionescu, O., Kojola, I., Krofel, M., Kutal, M., Linnell, J., Majic, A., Mannil, P., Marucco, F., Melovski, D., Mengüllüoglu, D., Joachim Mergeay, Nowak, S., Ozolins, J., Perovic, A., Rauer, G., Reinhardt, I., Rigg, R., Salvatori, V., Sanaja, B., Schley, L., Shkvyria, M., Sunde, P., Tirronen, K., Trajce, A., Trbojevic, I., Trouwborst, A., Arx, M., Wolfl, M., Zlatanova, D., and Patko, L.

22. Estimating distribution and abundance of wide-ranging species with integrated spatial models: Opportunities revealed by the first wolf assessment in south-central Italy.

Author

Gervasi V, Aragno P, Salvatori V, Caniglia R, De Angelis D, Fabbri E, La Morgia V, Marucco F, Velli E, and Genovesi P

Abstract

Estimating demographic parameters for wide-ranging and elusive species living at low density is challenging, especially at the scale of an entire country. To produce wolf distribution and abundance estimates for the whole south-central portion of the Italian wolf population, we developed an integrated spatial model, based on the data collected during a 7-month sampling campaign in 2020-2021. Data collection comprised an extensive survey of wolf presence signs, and an intensive survey in 13 sampling areas, aimed at collecting non-invasive genetic samples (NGS). The model comprised (i) a single-season, multiple data-source, multi-event occupancy model and (ii) a spatially explicit capture-recapture model. The information about species' absence was used to inform local density estimates. We also performed a simulation-based assessment, to estimate the best conditions for optimizing sub-sampling and population modelling in the future. The integrated spatial model estimated that 74.2% of the study area in south-central Italy (95% CIs = 70.5% to 77.9%) was occupied by wolves, for a total extent of the wolf distribution of 108,534 km 2 (95% CIs = 103,200 to 114,000). The estimate of total population size for the Apennine wolf population was of 2557 individuals (SD = 171.5; 95% CIs = 2127 to 2844). Simulations suggested that the integrated spatial model was associated with an average tendency to slightly underestimate population size. Also, the main contribution of the integrated approach was to increase precision in the abundance estimates, whereas it did not affect accuracy significantly. In the future, the area subject to NGS should be increased to at least 30%, while at least a similar proportion should be sampled for presence-absence data, to further improve the accuracy of population size estimates and avoid the risk of underestimation. This approach could be applied to other wide-ranging species and in other geographical areas, but specific a priori evaluations of model requirements and expected performance should be made., Competing Interests: The authors certify that they have no affiliations with or involvement in any organization or entity with any financial interest or non‐financial interest in the subject matter or materials discussed in this manuscript., (© 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2024
Full Text
View/download PDF

23. A multidisciplinary approach to estimating wolf population size for long-term conservation.

Author

Marucco F, Boiani MV, Dupont P, Milleret C, Avanzinelli E, Pilgrim K, Schwartz MK, von Hardenberg A, Perrone DS, Friard OP, Menzano A, Bisi F, Fattori U, Tomasella M, Calderola S, Carolfi S, Ferrari P, Chioso C, Truc F, Bombieri G, Pedrotti L, Righetti D, Acutis PL, Guglielmo F, Hauffe HC, Rossi C, Caniglia R, Aragno P, La Morgia V, Genovesi P, and Bischof R

Subjects
Animals, Humans, Conservation of Natural Resources, Population Density, Animals, Wild, Wolves genetics
Abstract

The wolf (Canis lupus) is among the most controversial of wildlife species. Abundance estimates are required to inform public debate and policy decisions, but obtaining them at biologically relevant scales is challenging. We developed a system for comprehensive population estimation across the Italian alpine region (100,000 km 2 ), involving 1513 trained operators representing 160 institutions. This extensive network allowed for coordinated genetic sample collection and landscape-level spatial capture-recapture analyses that transcended administrative boundaries to produce the first estimates of key parameters for wolf population status assessment. Wolf abundance was estimated at 952 individuals (95% credible interval 816-1120) and 135 reproductive units (i.e., packs) (95% credible interval 112-165). We also estimated that mature individuals accounted for 33-45% of the entire population. The monitoring effort was spatially estimated thereby overcoming an important limitation of citizen science data. This is an important approach for promoting wolf-human coexistence based on wolf abundance monitoring and an endorsement of large-scale harmonized conservation practices., (© 2023 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published
2023
Full Text
View/download PDF

24. Transboundary Monitoring of the Wolf Alpine Population over 21 Years and Seven Countries.

Author

Marucco F, Reinhardt I, Avanzinelli E, Zimmermann F, Manz R, Potočnik H, Černe R, Rauer G, Walter T, Knauer F, Chapron G, and Duchamp C

Abstract

Wolves have large spatial requirements and their expansion in Europe is occurring over national boundaries, hence the need to develop monitoring programs at the population level. Wolves in the Alps are defined as a functional population and management unit. The range of this wolf Alpine population now covers seven countries: Italy, France, Austria, Switzerland, Slovenia, Liechtenstein and Germany, making the development of a joint and coordinated monitoring program particularly challenging. In the framework of the Wolf Alpine Group (WAG), researchers developed uniform criteria for the assessment and interpretation of field data collected in the frame of different national monitoring programs. This standardization allowed for data comparability across borders and the joint evaluation of distribution and consistency at the population level. We documented the increase in the number of wolf reproductive units (packs and pairs) over 21 years, from 1 in 1993-1994 up to 243 units in 2020-2021, and examined the pattern of expansion over the Alps. This long-term and large-scale approach is a successful example of transboundary monitoring of a large carnivore population that, despite administrative fragmentation, provides robust indexes of population size and distribution that are of relevance for wolf conservation and management at the transnational Alpine scale.

Published
2023
Full Text
View/download PDF

25. Wolf Dispersal Patterns in the Italian Alps and Implications for Wildlife Diseases Spreading.

Author

Marucco F, Pilgrim KL, Avanzinelli E, Schwartz MK, and Rossi L

Abstract

Wildlife dispersal directly influences population expansion patterns, and may have indirect effects on the spread of wildlife diseases. Despite its importance to conservation, little is known about dispersal for several species. Dispersal processes in expanding wolf ( Canis lupus ) populations in Europe is not well documented. Documenting the natural dispersal pattern of the expanding wolf population in the Alps might help understanding the overall population dynamics and identifying diseases that might be connected with the process. We documented 55 natural dispersal events of the expanding Italian wolf alpine population over a 20-year period through the use of non-invasive genetic sampling. We examined a 16-locus microsatellite DNA dataset of 2857 wolf samples mainly collected in the Western Alps. From this, we identified 915 individuals, recaptured 387 (42.3%) of individuals, documenting 55 dispersal events. On average, the minimum straight dispersal distance was 65.8 km (±67.7 km), from 7.7 km to 517.2 km. We discussed the potential implications for maintaining genetic diversity of the population and for wildlife diseases spreading.

Published
2022
Full Text
View/download PDF

26. Dirofilaria immitis in wolves recolonizing northern Italy: are wolves competent hosts?

Author

Moroni B, Rossi L, Meneguz PG, Orusa R, Zoppi S, Robetto S, Marucco F, and Tizzani P

Subjects
Animals, Animals, Wild parasitology, Dirofilaria immitis genetics, Dirofilaria immitis physiology, Dirofilariasis epidemiology, Female, Foxes parasitology, Host Specificity, Italy epidemiology, Male, Microfilariae parasitology, Dirofilaria immitis isolation & purification, Dirofilariasis parasitology, Wolves parasitology
Abstract

Background: Wild carnivores such as the grey wolf (Canis lupus), red fox (Vulpes vulpes) and golden jackal (Canis aureus) are recognized hosts of Dirofilaria immitis. However, few studies have focused on their actual role in the epidemiology of heartworm infection. This study describes the prevalence and distribution of D. immitis in wolves in a heartworm-endemic area in northern Italy where wolves have recently returned after long-time eradication, and investigates the fertility status of the collected adult nematodes., Methods: In the frame of a long-term wolf monitoring programme in northwestern Italy, 210 wolf carcasses from four provinces were inspected for the presence of filarioid nematodes in the right heart and pulmonary arteries. Female heartworms were measured, and their uterine content analyzed according to a previously described "embryogram" technique., Results: Three wolves, all originating from a single province (Alessandria), were positive for D. immitis (1.42%, 95% CI: 0.48-4.11%, in the whole study area; 13.6%, 95% CI: 4.7-33.3%, limited to the single province from which infected wolves originated). Mean intensity was 5 worms (range: 3-7) and the female worms measured 21-28 cm in length. Six out of 9 female worms harbored uterine microfilariae: 5 were classified as gravid; 1 showed a "discontinuous gradient"; and 3 were non-gravid., Conclusions: The present data show that heartworm infection is already prevalent in wolves that have recolonized the known heartworm-endemic area. Based on "embryogram" results, wolves were shown suitable heartworm hosts. Interestingly, investigated wolves appeared similarly exposed to heartworm infection as sympatric unprotected dogs (owned dogs that have never received any heartworm prevention treatment) sampled at the beginning of the wolf return process.

Published
2020
Full Text
View/download PDF

27. Gastrointestinal helminths of wolves ( Canis lupus Linnaeus, 1758) in Piedmont, north-western Italy.

Author

de Macedo MRP, Zanet S, Bruno S, Tolosano A, Marucco F, Rossi L, Muller G, and Ferroglio E

Subjects
Animals, Europe epidemiology, Female, Helminthiasis, Animal epidemiology, Helminths classification, Intestinal Diseases, Parasitic epidemiology, Italy epidemiology, Male, Prevalence, Gastrointestinal Tract parasitology, Helminthiasis, Animal parasitology, Helminths isolation & purification, Intestinal Diseases, Parasitic veterinary, Wolves parasitology
Abstract

Free-ranging grey wolves (Canis lupus), which are presently recolonizing Italy, can be parasitized by a diversity of helminths, but have rarely been subject to studies of their parasites. Therefore, this study aims to determine the prevalence of gastrointestinal helminths of road-killed grey wolves from the Piedmont region of Italy. Forty-two wolves were collected and examined for the presence of helminths. We recorded 12 helminth species: nine Nematoda and three Cestoda. The nematodes were: Ancylostoma caninum (7.1%), Capillaria sp. (2.4%), Molineus sp. (2.4%), Pterygodermatites affinis (11.9%), Physaloptera sibirica (9.5%), Toxocara canis (9.5%), Toxascaris leonina (2.4%) and Uncinaria stenocephala (26.2%); the cestodes were: Dipylidium caninum (4.8%), Mesocestoides sp. (4.8%) and Taenia multiceps (76.2%). Physaloptera sibirica had the highest mean intensity and T. multiceps had the highest prevalence. Based on age and sex, no differences in the intensity or prevalence of helminth species were found among the hosts. Molineus sp. was recorded for the first time in wolves from the Palearctic region; P. affinis and P. sibirica are respectively reported for the first time in wolves from Europe and Italy.

Published
2019
Full Text
View/download PDF

28. Recovery of large carnivores in Europe's modern human-dominated landscapes.

Author

Chapron G, Kaczensky P, Linnell JD, von Arx M, Huber D, Andrén H, López-Bao JV, Adamec M, Álvares F, Anders O, Balčiauskas L, Balys V, Bedő P, Bego F, Blanco JC, Breitenmoser U, Brøseth H, Bufka L, Bunikyte R, Ciucci P, Dutsov A, Engleder T, Fuxjäger C, Groff C, Holmala K, Hoxha B, Iliopoulos Y, Ionescu O, Jeremić J, Jerina K, Kluth G, Knauer F, Kojola I, Kos I, Krofel M, Kubala J, Kunovac S, Kusak J, Kutal M, Liberg O, Majić A, Männil P, Manz R, Marboutin E, Marucco F, Melovski D, Mersini K, Mertzanis Y, Mysłajek RW, Nowak S, Odden J, Ozolins J, Palomero G, Paunović M, Persson J, Potočnik H, Quenette PY, Rauer G, Reinhardt I, Rigg R, Ryser A, Salvatori V, Skrbinšek T, Stojanov A, Swenson JE, Szemethy L, Trajçe A, Tsingarska-Sedefcheva E, Váňa M, Veeroja R, Wabakken P, Wölfl M, Wölfl S, Zimmermann F, Zlatanova D, and Boitani L

Subjects
Animals, Biodiversity, Europe, Humans, Conservation of Natural Resources, Lynx, Mustelidae, Ursidae, Wolves
Abstract

The conservation of large carnivores is a formidable challenge for biodiversity conservation. Using a data set on the past and current status of brown bears (Ursus arctos), Eurasian lynx (Lynx lynx), gray wolves (Canis lupus), and wolverines (Gulo gulo) in European countries, we show that roughly one-third of mainland Europe hosts at least one large carnivore species, with stable or increasing abundance in most cases in 21st-century records. The reasons for this overall conservation success include protective legislation, supportive public opinion, and a variety of practices making coexistence between large carnivores and people possible. The European situation reveals that large carnivores and people can share the same landscape., (Copyright © 2014, American Association for the Advancement of Science.)

Published
2014
Full Text
View/download PDF

29. From the Apennines to the Alps: colonization genetics of the naturally expanding Italian wolf (Canis lupus) population.

Author

Fabbri E, Miquel C, Lucchini V, Santini A, Caniglia R, Duchamp C, Weber JM, Lequette B, Marucco F, Boitani L, Fumagalli L, Taberlet P, and Randi E

Subjects
Animal Migration, Animals, Bayes Theorem, Cluster Analysis, Founder Effect, Gene Flow, Genotype, Italy, Microsatellite Repeats, Wolves physiology, Geography, Wolves genetics
Abstract

Wolves in Italy strongly declined in the past and were confined south of the Alps since the turn of the last century, reduced in the 1970s to approximately 100 individuals surviving in two fragmented subpopulations in the central-southern Apennines. The Italian wolves are presently expanding in the Apennines, and started to recolonize the western Alps in Italy, France and Switzerland about 16 years ago. In this study, we used a population genetic approach to elucidate some aspects of the wolf recolonization process. DNA extracted from 3068 tissue and scat samples collected in the Apennines (the source populations) and in the Alps (the colony), were genotyped at 12 microsatellite loci aiming to assess (i) the strength of the bottleneck and founder effects during the onset of colonization; (ii) the rates of gene flow between source and colony; and (iii) the minimum number of colonizers that are needed to explain the genetic variability observed in the colony. We identified a total of 435 distinct wolf genotypes, which showed that wolves in the Alps: (i) have significantly lower genetic diversity (heterozygosity, allelic richness, number of private alleles) than wolves in the Apennines; (ii) are genetically distinct using pairwise F(ST) values, population assignment test and Bayesian clustering; (iii) are not in genetic equilibrium (significant bottleneck test). Spatial autocorrelations are significant among samples separated up to c. 230 km, roughly correspondent to the apparent gap in permanent wolf presence between the Alps and north Apennines. The estimated number of first-generation migrants indicates that migration has been unidirectional and male-biased, from the Apennines to the Alps, and that wolves in southern Italy did not contribute to the Alpine population. These results suggest that: (i) the Alps were colonized by a few long-range migrating wolves originating in the north Apennine subpopulation; (ii) during the colonization process there has been a moderate bottleneck; and (iii) gene flow between sources and colonies was moderate (corresponding to 1.25-2.50 wolves per generation), despite high potential for dispersal. Bottleneck simulations showed that a total of c. 8-16 effective founders are needed to explain the genetic diversity observed in the Alps. Levels of genetic diversity in the expanding Alpine wolf population, and the permanence of genetic structuring, will depend on the future rates of gene flow among distinct wolf subpopulation fragments.

Published
2007
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results