Social exclusion modifies climate and deforestation impacts on a vector-borne disease
about
Neglected Tropical Diseases in the Anthropocene: The Cases of Zika, Ebola, and Other InfectionsCombining climatic projections and dispersal ability: a method for estimating the responses of sandfly vector species to climate changeCutaneous leishmaniasis and sand fly fluctuations are associated with el niño in panamáDrivers, dynamics, and control of emerging vector-borne zoonotic diseasesBlood feeding patterns of mosquitoes: random or structured?Deforestation and avian infectious diseasesLeishmaniasis and climate change-case study: ArgentinaMalaria transmission pattern resilience to climatic variability is mediated by insecticide-treated nets.Cutaneous Leishmaniasis in dogs: is high seroprevalence indicative of a reservoir role?Current and future niche of North and Central American sand flies (Diptera: psychodidae) in climate change scenarios.Improving the modeling of disease data from the government surveillance system: a case study on malaria in the Brazilian AmazonSnakebites are associated with poverty, weather fluctuations, and El Niño.Urban transmission of American cutaneous leishmaniasis in Argentina: spatial analysis study.Bayesian spatiotemporal analysis of socio-ecologic drivers of Ross River virus transmission in Queensland, Australia.Phlebotomine fauna (Diptera: Psychodidae) and putative vectors of leishmaniases in impacted area by hydroelectric plant, State of Tocantins, Brazil.The health effects of climate change: a survey of recent quantitative research.Association of anthropogenic land use change and increased abundance of the Chagas disease vector Rhodnius pallescens in a rural landscape of Panama.Forecasting temporal dynamics of cutaneous leishmaniasis in Northeast Brazil.Changes in phlebotomine sand fly species composition following insecticide thermal fogging in a rural setting of Western panamá.Trypanosoma cruzi transmission in a Colombian Caribbean region suggests that secondary vectors play an important epidemiological role.Bayesian geostatistical modeling of leishmaniasis incidence in Brazil.Variability modeling of rainfall, deforestation, and incidence of american tegumentary leishmaniasis in orán, Argentina, 1985-2007.The dynamics of latifundia formation.Survey of wild mammal hosts of cutaneous leishmaniasis parasites in panamá and costa ricaInfection with Trypanosoma cruzi TcII and TcI in free-ranging population of lion tamarins (Leontopithecus spp): an 11-year follow-up.Sensitivity Analysis and Optimal Control of Anthroponotic Cutaneous LeishmaniaClinical cutaneous leishmaniasis rates are associated with household Lutzomyia gomezi, Lu. Panamensis, and Lu. trapidoi abundance in Trinidad de Las Minas, western Panama.Restricted outbreak of American tegumentary leishmaniasis with high microfocal transmissionLeishmaniasis sand fly vector density reduction is less marked in destitute housing after insecticide thermal fogging.Anthropogenic land use change and infectious diseases: a review of the evidence.Microspatial distributional patterns of vectors of cutaneous leishmaniasis in pernambuco, northeastern Brazil.How will climate change pathways and mitigation options alter incidence of vector-borne diseases? A framework for leishmaniasis in South and Meso-America.Ecological interactions among phlebotomines (Diptera: Psychodidae) in an agroforestry environment of northeast Brazil.Do rising temperatures matter?Impact of socio-economic conditions on the incidence of visceral leishmaniasis in Bihar, India.Detection of Leishmania DNA and Blood Meal Identification in Sand Flies (Diptera: Psychodidae) From Lençois Maranhenses National Park Region, Brazil.Macroecological patterns of American Cutaneous Leishmaniasis transmission across the health areas of Panamá (1980–2012).Tracking the distribution and impacts of diseases with biological records and distribution modellingLandscape structure influences avian malaria ecology in the Western Cape, South AfricaVisceral leishmaniasis cyclical trends in Bihar, India - implications for the elimination programme
P2860
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P2860
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
description
2008 nî lūn-bûn
@nan
2008 թուականին հրատարակուած գիտական յօդուած
@hyw
2008 թվականին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@ast
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en-gb
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@nl
type
label
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@ast
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en-gb
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@nl
prefLabel
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@ast
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en-gb
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@nl
P2860
P50
P921
P3181
P1476
Social exclusion modifies climate and deforestation impacts on a vector-borne disease
@en
P2093
Mark L Wilson
P2860
P3181
P356
10.1371/JOURNAL.PNTD.0000176
P407
P577
2008-01-01T00:00:00Z