| Nome |
# |
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Exploring vector-borne infection ecology in multi-host communities: a case study of West Nile virus, file e1dbfeaa-e0e4-4ac9-e053-1705fe0a1c61
|
685
|
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Quantitative impacts of temperature on mosquito dynamics and their transmitted pathogens: a modelling approach, file e1dbfeab-e667-4ac9-e053-1705fe0a1c61
|
683
|
|
Climate change and biodiversity loss as drivers for zoonotic diseases emergence in the Alps: the case of tick-borne encephalitis, file e1dbfeaa-5f78-4ac9-e053-1705fe0a1c61
|
648
|
|
Recent increase of Dobrava-Belgrade virus (DOBV) in yellow-necked mice in northern Italy, file e1dbfeaa-8257-4ac9-e053-1705fe0a1c61
|
537
|
|
Impact of vector ecology on virus amplification and spillover into humans and livestock: the case of West Nile virus in Europe, file e1dbfeaa-83f9-4ac9-e053-1705fe0a1c61
|
469
|
|
Assessment of the effectiveness of a seasonal-long insecticide-based control strategy against Aedes albopictus nuisance in an urban area, file e1dbfeaa-d464-4ac9-e053-1705fe0a1c61
|
357
|
|
Molecular detection of tick borne bacteria in questing Ixodes ricinus ticks in Northern Italy, file e1dbfeab-9c3a-4ac9-e053-1705fe0a1c61
|
324
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|
Modeling the West Nile virus incidence and seroprevalence in the avian host population in northern Italy, file 86adfa89-f3d3-41d8-ae9b-3cb7951c6660
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313
|
|
Identification of Ixodes ricinus blood meals using an automated protocol with high resolution melting analysis (HRMA) reveals the importance of domestic dogs as larval tick hosts in Italian alpine forests, file e1dbfeaa-f306-4ac9-e053-1705fe0a1c61
|
298
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|
Enhancement of Aedes albopictus collections by ovitrap and sticky adult trap, file e1dbfeaa-d77f-4ac9-e053-1705fe0a1c61
|
284
|
|
Il ruolo dei modelli deterministici nella prevenzione delle malattie endemiche: il caso del West Nile Virus, file e1dbfeac-00cf-4ac9-e053-1705fe0a1c61
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284
|
|
Modelling the human force of infection of West Nile virus in Europe, file 1210aa98-216d-4d56-a614-c1fd16a0baf7
|
279
|
|
Estimating spatio-temporal dynamics of Aedes albopictus dispersal to guide control interventions in case of exotic Arboviruses in temperate regions, file e1dbfeab-b5d9-4ac9-e053-1705fe0a1c61
|
279
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|
Zanzare invasive in Trentino: principali azioni di controllo, file e1dbfeab-0828-4ac9-e053-1705fe0a1c61
|
270
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|
Temporal variation of Dobrava-Belgrade virus (Bunyaviridae, Hantavirus) seroprevalence in a yellow-necked mice population in northern Italy, file e1dbfeaa-a277-4ac9-e053-1705fe0a1c61
|
267
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|
The effect of interspecific competition between Culex pipiens and Aedes albopictus in northern Italy, file e1dbfeaa-e7a5-4ac9-e053-1705fe0a1c61
|
267
|
|
Forest structure and roe deer abundance predict tick-borne encephalitis risk in Italy, file e1dbfeaa-5d5b-4ac9-e053-1705fe0a1c61
|
262
|
|
Spatial and temporal hot spots of Aedes albopictus abundance inside and outside a South European metropolitan area, file e1dbfeaa-e372-4ac9-e053-1705fe0a1c61
|
259
|
|
TIGREPAT: surveillance and control program of invasive Aedes species and related arboviruses in Northern Italy, file e1dbfeab-c55f-4ac9-e053-1705fe0a1c61
|
240
|
|
Early warning of West Nile virus mosquito vector: climate and land use models successfully explain phenology and abundance of Culex pipiens mosquitoes in north-western Italy, file e1dbfeaa-7c53-4ac9-e053-1705fe0a1c61
|
231
|
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Assessing the distribution of disease vectors and fruit crop pests from satellite in GRASS GIS 7, file e1dbfeaa-80b5-4ac9-e053-1705fe0a1c61
|
230
|
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Bayesian statistical models to evaluate the efficacy of traditional and innovative mosquito control interventions, file e1dbfeac-00cd-4ac9-e053-1705fe0a1c61
|
229
|
|
The effect of interspecific competition on the temporal dynamics of Aedes albopictus and Culex pipiens, file e1dbfeaa-fe9e-4ac9-e053-1705fe0a1c61
|
225
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Early detection of tick-borne encephalitis virus spatial distribution and activity in the province of Trento, northern Italy, file e1dbfeaa-6265-4ac9-e053-1705fe0a1c61
|
224
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West Nile virus transmission and human infection risk in Veneto (Italy): a modelling analysis, file e1dbfeab-81c1-4ac9-e053-1705fe0a1c61
|
223
|
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Transmission dynamics of the ongoing chikungunya outbreak in Central Italy: from coastal areas to the metropolitan city of Rome, summer 2017, file e1dbfeab-445e-4ac9-e053-1705fe0a1c61
|
222
|
|
New adhesive traps to monitor urban mosquitoes with a case study to assess the efficacy of insecticide control strategies in temperate areas, file e1dbfeaa-db45-4ac9-e053-1705fe0a1c61
|
215
|
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Models for host-macroparasite interactions in
micromammals, file e1dbfeaa-62b7-4ac9-e053-1705fe0a1c61
|
211
|
|
Lyme borreliosis in Europe, file e1dbfeaa-5d54-4ac9-e053-1705fe0a1c61
|
209
|
|
Pattern of tick aggregation on mice: larger than expected distribution tail enhances the spread of tick-borne pathogens, file e1dbfeaa-8219-4ac9-e053-1705fe0a1c61
|
205
|
|
Identifying the environmental conditions favouring West Nile virus outbreaks in Europe, file e1dbfeaa-8102-4ac9-e053-1705fe0a1c61
|
204
|
|
Assessing the potential risk of Zika virus epidemics in temperate areas with established Aedes albopictus populations, file e1dbfeaa-d45c-4ac9-e053-1705fe0a1c61
|
203
|
|
Temporal patterns of Culex pipiens and Aedes albopictus in northern Italy: the effect of interspecific competition, file e1dbfeaa-e67e-4ac9-e053-1705fe0a1c61
|
201
|
|
Effectiveness and economic assessment of routine larviciding for prevention of chikungunya and dengue in temperate urban settings in Europe, file e1dbfeab-3d13-4ac9-e053-1705fe0a1c61
|
198
|
|
Quantifying the spatial spread of dengue in a non-endemic Brazilian metropolis via transmission chain reconstruction, file e1dbfeab-7391-4ac9-e053-1705fe0a1c61
|
194
|
|
Mapping of Aedes albopictus abundance at a local scale in Italy, file e1dbfeab-3ae3-4ac9-e053-1705fe0a1c61
|
190
|
|
The containment of potential outbreaks triggered by imported Chikungunya cases in Italy: a cost utility epidemiological assessment of vector control measures, file e1dbfeab-7344-4ac9-e053-1705fe0a1c61
|
182
|
|
Understanding West Nile virus ecology in Europe: Culex pipiens host feeding preference in a hotspot of virus emergence, file e1dbfeaa-e1b1-4ac9-e053-1705fe0a1c61
|
179
|
|
Effectiveness of Ultra-Low Volume insecticide spraying to prevent dengue in a non-endemic metropolitan area of Brazil, file e1dbfeab-9e20-4ac9-e053-1705fe0a1c61
|
174
|
|
The role of climatic and density dependent factors in shaping mosquito population dynamics: the case of Culex pipiens in Northwestern Italy, file e1dbfeaa-d989-4ac9-e053-1705fe0a1c61
|
172
|
|
Potential risk of dengue and chikungunya outbreaks in northern Italy based on a population model of Aedes albopictus (Diptera: Culicidae), file e1dbfeaa-dd97-4ac9-e053-1705fe0a1c61
|
172
|
|
Assessing the risk of autochthonous yellow fever transmission in Lazio, central Italy, file e1dbfeab-8e8e-4ac9-e053-1705fe0a1c61
|
172
|
|
Temporal changes in rodent- and tick-borne diseases in Europe: how are they linked?, file e1dbfeaa-a32f-4ac9-e053-1705fe0a1c61
|
170
|
|
Estimating the risk of Dengue, Chikungunya and Zika outbreaks in a large European city, file e1dbfeab-93e4-4ac9-e053-1705fe0a1c61
|
168
|
|
First outbreak of Zika virus in the continental United States: a modelling analysis, file e1dbfeab-41b3-4ac9-e053-1705fe0a1c61
|
164
|
|
Masting, rodent dynamics and tick-borne encephalitis risk, file e1dbfeaa-5f74-4ac9-e053-1705fe0a1c61
|
155
|
|
A quantitative comparison of West Nile virus incidence from 2013 to 2018 in Emilia-Romagna, Italy, file e1dbfeab-b93d-4ac9-e053-1705fe0a1c61
|
141
|
|
Parasites and wildlife in a changing world: the vector-host- pathogen interaction as a learning case, file e1dbfeab-aca3-4ac9-e053-1705fe0a1c61
|
136
|
|
Effect of climate and habitat type on the spatio-temporal variability of tick-borne bacteria in Europe, file e1dbfeab-56df-4ac9-e053-1705fe0a1c61
|
133
|
|
First report of the influence of temperature on the bionomics and population dynamics of Aedes koreicus, a new invasive alien species in Europe, file e1dbfeab-bfd0-4ac9-e053-1705fe0a1c61
|
129
|
|
The role of climatic factors in shaping mosquito population dynamics: the case of Culex pipiens in Northwestern Italy, file e1dbfeaa-9cfd-4ac9-e053-1705fe0a1c61
|
124
|
|
Environmental and landscape factors associated with West Nile vector population dynamics in North-western Italy, file e1dbfeaa-79b0-4ac9-e053-1705fe0a1c61
|
123
|
|
Modelling Aedes albopictus dynamics and related Arbovirus outbreaks risk in central Italy, file e1dbfeab-9d62-4ac9-e053-1705fe0a1c61
|
120
|
|
Risk factors and tick-borne encephalitis spatio-temporal variation: a case study in northern Italy, file e1dbfeab-9c38-4ac9-e053-1705fe0a1c61
|
114
|
|
RoBo pathogens recorded in northern Italy: a summary review, file e1dbfeaa-5f4f-4ac9-e053-1705fe0a1c61
|
111
|
|
From eggs to bites: do ovitrap data provide reliable estimates of Aedes albopictus biting females?, file e1dbfeab-066a-4ac9-e053-1705fe0a1c61
|
107
|
|
Rodents, deer and ticks: how their
interaction affects tick-borne diseases
emergence and spread, file e1dbfeaa-5f54-4ac9-e053-1705fe0a1c61
|
94
|
|
Modelling the impact of multi-host helminth parasites on hosts’ population dynamics, file e1dbfeaa-79ae-4ac9-e053-1705fe0a1c61
|
90
|
|
Building an early warning system for tick- and rodent-born diseases in Europe, file e1dbfeaa-717a-4ac9-e053-1705fe0a1c61
|
89
|
|
Identifying the hazards correlated with rodent and tick-borne diseases in Europe, file e1dbfeaa-8306-4ac9-e053-1705fe0a1c61
|
88
|
|
Species distribution modeling of a new invasive mosquito: a Bayesian approach, file e1dbfeaa-838a-4ac9-e053-1705fe0a1c61
|
88
|
|
Loss of protozoan and metazoan intestinal symbiont biodiversity in wild primates living in unprotected forests, file e1dbfeab-d5a3-4ac9-e053-1705fe0a1c61
|
84
|
|
Biotic and abiotic factors affecting phenology of Ixodes ricinus (Acari Ixodidae) in Italy, file e1dbfeaa-5f9f-4ac9-e053-1705fe0a1c61
|
81
|
|
Modelling vector dynamic and arbovirus outbreaks in Europe, file e1dbfeab-ab4f-4ac9-e053-1705fe0a1c61
|
79
|
|
Risk Assessment of the emergence of arboviruses diseases transmitted by mosquitoes (Diptera: Culicidae). A case study in the Autonomous Province of Trento:
the RISKTIGER project, file e1dbfeaa-5f58-4ac9-e053-1705fe0a1c61
|
72
|
|
Estimating the probability of arbovirus outbreaks in large southern European city infested by Aedes albopictus, file e1dbfeab-6abf-4ac9-e053-1705fe0a1c61
|
70
|
|
Temporal changes in rodent density and climatic factors as ecological drivers of tick-borne encephalitis (TBE) within a natural endemic foci, file e1dbfeab-8512-4ac9-e053-1705fe0a1c61
|
69
|
|
Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: a laboratory experiment, file e1dbfeab-eae3-4ac9-e053-1705fe0a1c61
|
68
|
|
Global changes and wildlife zoonotic disease emergence: the case of tick-borne encephalitis, file e1dbfeaa-7c3c-4ac9-e053-1705fe0a1c61
|
67
|
|
Modelling the impact of helminth parasite on rock partridge population dynamics, file e1dbfeaa-6589-4ac9-e053-1705fe0a1c61
|
62
|
|
Ticks are different, file e1dbfeab-523c-4ac9-e053-1705fe0a1c61
|
62
|
|
Modelling West Nile virus transmission and human infection risk in Veneto (Italy), file e1dbfeab-75dd-4ac9-e053-1705fe0a1c61
|
62
|
|
Remotely sensed climatic factors associated with tick phenology and infestation of hosts, file e1dbfeaa-5f4d-4ac9-e053-1705fe0a1c61
|
60
|
|
Entomological survey confirms changes in mosquito composition and abundance in Senegal and reveals discrepancies among results by different host-seeking female traps, file e1dbfeac-0805-4ac9-e053-1705fe0a1c61
|
60
|
|
Epidemiology of West Nile virus in Africa: an underestimated threat, file e1dbfeac-10e5-4ac9-e053-1705fe0a1c61
|
60
|
|
Influence of temperature on the biology of Aedes koreicus: an experimental and modelling study, file e1dbfeab-8292-4ac9-e053-1705fe0a1c61
|
59
|
|
Early warning of tick-borne encephalitis: climatic variables and rodent density successfully explain Ixodes ricinus co-feeding transmission in northern Italy, file e1dbfeab-bdf2-4ac9-e053-1705fe0a1c61
|
58
|
|
Empirical assessment of deer density threshold on Tick borne encephalitis risk under natural conditions, file e1dbfeaa-5f76-4ac9-e053-1705fe0a1c61
|
57
|
|
Disentangling the ecological conditions favouring West Nile virus hazard in the Old World, file e1dbfeaa-7c7b-4ac9-e053-1705fe0a1c61
|
55
|
|
Cervidi, piccoli mammiferi e zecche: un approccio sperimentale alla determinazione del rischio da TBD (malattie trasmesse da zecche), file e1dbfeaa-621a-4ac9-e053-1705fe0a1c61
|
54
|
|
Deer density drives tick infestation pattern on rodents and TBE hazard: empirical and theoretical investigations, file e1dbfeaa-715c-4ac9-e053-1705fe0a1c61
|
53
|
|
Sudden increase in seroprevalence of Dobrava-Belgrade virus (DOBV) in the province of Trento, Italy, file e1dbfeaa-7d0c-4ac9-e053-1705fe0a1c61
|
53
|
|
Understanding the dynamics of West Nile virus in Emilia-Romagna, Italy, file e1dbfeab-43eb-4ac9-e053-1705fe0a1c61
|
51
|
|
Spatial modes for transmission of chikungunya virus during a large chikungunya outbreak in Italy: a modeling analysis, file e1dbfeab-fc01-4ac9-e053-1705fe0a1c61
|
50
|
|
Ranging behaviour and pattern of infection with the tick I. ricinus of the yellow necked mouse (Apodemus flavicollis) in northern Italy, file e1dbfeaa-6229-4ac9-e053-1705fe0a1c61
|
49
|
|
Determination of ecological parameters of the invasive mosquito species Aedes albopictus and Aedes koreicus in a mountainous environment of Northeastern Italy and experimental and applied control, file e1dbfeab-33fe-4ac9-e053-1705fe0a1c61
|
49
|
|
Emerging rodent-borne viral diseases in Italy: distribution and observed trends in the Province of Trento, Italy, file e1dbfeab-539e-4ac9-e053-1705fe0a1c61
|
49
|
|
Selezione del microhabitat di Apodemus flavicollis in un'area endemica per la TBE in Trentino, file e1dbfeaa-62c9-4ac9-e053-1705fe0a1c61
|
48
|
|
Modelling the impact of helminth parasite
on rock partridge population dynamics, file e1dbfeaa-64e7-4ac9-e053-1705fe0a1c61
|
45
|
|
Estimating Aedes albopictus biting females by ovitrap surveillance data in an area at high-risk of exotic arbovirus introduction, file e1dbfeab-345e-4ac9-e053-1705fe0a1c61
|
45
|
|
Mathematical modelling of mosquito dispersal, file e1dbfeab-cb6a-4ac9-e053-1705fe0a1c61
|
41
|
|
Effect of deer density on tick-borne encephalitis dynamics, file e1dbfeaa-651c-4ac9-e053-1705fe0a1c61
|
40
|
|
Global change and biodiversity loss as drivers for zoonotic disease emergence: study cases in the Italian Alps, file e1dbfeaa-81b7-4ac9-e053-1705fe0a1c61
|
40
|
|
West Nile virus Lineage 2 overwintering in Italy, file ef719a94-3eae-4039-87b5-7b95901647c4
|
40
|
|
Recent increase in prevalence of antibodies to Dobrava-Belgrade virus (DOBV) in yellow-necked mice in northern Italy, file e1dbfeaa-82ac-4ac9-e053-1705fe0a1c61
|
38
|
|
Modelling the effects of tick-host interaction on pathogen dynamics: TBE as a case study, file e1dbfeaa-e564-4ac9-e053-1705fe0a1c61
|
38
|
|
Aedes albopictus bionomics data collection by citizen participation on Procida Island, a promising Mediterranean site for the assessment of innovative and community-based integrated pest management methods, file e1dbfeac-0165-4ac9-e053-1705fe0a1c61
|
38
|
|
Species distribution modeling of a new invasive mosquito: a Bayesian approach, file e1dbfeaa-8389-4ac9-e053-1705fe0a1c61
|
37
|
|
An integrated control program against Aedes albopictus in Northern Italy: a case study, file e1dbfeaa-fac3-4ac9-e053-1705fe0a1c61
|
37
|
|
Modelling the first outbreak of Zika virus in continental USA, file e1dbfeab-4247-4ac9-e053-1705fe0a1c61
|
36
|
| Totale |
16.130 |