about
Change in Anopheles richness and composition in response to artificial flooding during the creation of the Jirau hydroelectric dam in Porto Velho, BrazilClimate change and mosquito-borne diseaseLife-table studies revealed significant effects of deforestation on the development and survivorship of Anopheles minimus larvaeGreen Infrastructure, Ecosystem Services, and Human HealthDeforestation and avian infectious diseasesClimate, environmental and socio-economic change: weighing up the balance in vector-borne disease transmissionBiodiversity, traditional medicine and public health: where do they meet?The history of Chagas diseaseLand Use Influences Mosquito Communities and Disease Risk on Remote Tropical Islands: A Case Study Using a Novel Sampling TechniqueDoes deforestation promote or inhibit malaria transmission in the Amazon? A systematic literature review and critical appraisal of current evidenceThe cross-cutting contribution of the end of neglected tropical diseases to the sustainable development goalsThe history of leishmaniasis.Global warming and malaria: knowing the horse before hitching the cartPromoting human health through forests: overview and major challengesEnvironmental factors associated with the distribution of Anopheles gambiae s.s in Ghana; an important vector of lymphatic filariasis and malariaEnvironmental risk factors for the incidence of American cutaneous leishmaniasis in a sub-Andean zone of Colombia (Chaparral, Tolima)Spatial heterogeneity and temporal evolution of malaria transmission risk in Dakar, Senegal, according to remotely sensed environmental data.Transmission of Onchocerca volvulus by Simulium neavei in Mount Elgon focus of Eastern Uganda has been interrupted.A review of malaria transmission dynamics in forest ecosystemsEnvironment and health: 7. Species loss and ecosystem disruption--the implications for human health.Epidemiological and clinical changes in American tegumentary leishmaniasis in an area of Leishmania (Viannia) braziliensis transmission over a 20-year period.Litchi-associated acute encephalitis in children, Northern Vietnam, 2004-2009.Association of anthropogenic land use change and increased abundance of the Chagas disease vector Rhodnius pallescens in a rural landscape of Panama.Malaria entomological risk factors in relation to land cover in the Lower Caura River Basin, Venezuela.Development of environmental tools for anopheline larval control.Defining the global spatial limits of malaria transmission in 2005Baseline malaria vector transmission dynamics in communities in Ahafo mining area in Ghana.A global assessment of closed forests, deforestation and malaria risk.Distribution and abundance of phlebotominae, vectors of leishmaniasis, in Argentina: spatial and temporal analysis at different scales.Long-term reduction of Trypanosoma cruzi infection in sylvatic mammals following deforestation and sustained vector surveillance in northwestern Argentina.Larval Habitat Associations with Human Land Uses, Roads, Rivers, and Land Cover for Anopheles albimanus, A. pseudopunctipennis, and A. punctimacula (Diptera: Culicidae) in Coastal and Highland Ecuador.Wildlife trade and global disease emergence.The Occurrence of Red-Back Spider Latrodectus hasselti (Araneae: Theridiidae) in Bandar Abbas, Southern Part of Iran.Deforestation, drainage network, indigenous status, and geographical differences of malaria in the State of Amazonas.Integrated Tools for American Cutaneous Leishmaniasis Surveillance and Control: Intervention in an Endemic Area in Rio de Janeiro, RJ, Brazil.Anthropogenically driven environmental changes shift the ecological dynamics of hemorrhagic fever with renal syndromeResponse of Anopheles gambiae s.l. (Diptera: Culicidae) to larval habitat age in western Kenya highlands.The association of Triatoma maculata (Ericsson 1848) with the gecko Thecadactylus rapicauda (Houttuyn 1782) (Reptilia: Squamata: Gekkonidae): a strategy of domiciliation of the Chagas disease peridomestic vector in Venezuela?The Imaramagambo Onchocerciasis Focus in Southwestern Uganda: Interruption of Transmission After Disappearance of the Vector Simulium neavei and Its Associated Freshwater Crabs.Population structure of the Chagas disease vector, Triatoma infestans, at the urban-rural interface.
P2860
Q24324526-5A8A996F-861F-45CD-A334-7D2CB846655AQ24814175-B2176603-F881-43E5-9016-205BDAB330B1Q26315422-C5469E2C-4DC6-42A4-B3A3-86F500DA1C88Q26795862-97112E7A-38F9-4679-8A61-F0652F398B8FQ27490986-61F6B3AF-68CF-404C-B441-544F92D46FC5Q28087411-00B8FFC4-A0F1-4A5C-8C4A-3C95B0D7D7D4Q28221280-6BC1D176-AA89-4917-BB0B-7B8040919226Q28655492-5E99785C-67C1-40BC-AC8F-C2F159C995AEQ28656082-FC6EC49C-CA26-489A-B80E-CF298AB2EB34Q29994571-B674C35D-E644-4B25-9CAA-626F89E8573AQ30061753-46655818-D8B7-4B51-9E99-14D6B89544D1Q30235945-4B566141-6573-430E-924C-A5D9F1EE6D89Q30397822-00F34B64-5D0C-4809-B206-A33DC4C79E3DQ33476910-D384CE17-B25B-4555-BF80-D1134C41BB28Q33548701-EF88FEAF-C9F9-4519-87F6-665F7B1B112AQ33617575-D292CBEF-9092-4590-AF04-5CD427994318Q33683930-DA517BE2-98FC-42B7-9E7B-5C5AB8E0068EQ33719650-D395194F-0471-4B8A-ABC5-8BCAC811BCADQ33755273-EE5EC669-626F-4D1F-8B11-175DA63CD2E4Q34154009-2F7A5FF5-5EE7-4540-A859-C8D6A16244D5Q34189150-B747EBF6-6E7A-4C17-A8A8-F2319A02687CQ34307793-48078EAA-7744-401A-8BE9-3FBEE92E1612Q34422314-81F7EA06-4CAD-4851-85D4-E3DC4563F51BQ34665921-10534A5B-2F0F-4D51-AA92-7F2915C7235AQ35126530-9D0A795D-BB9F-4805-87B7-A4479F5B61D1Q35132255-3EDC2A0D-05F9-404D-931E-A958BDAEFC87Q35319728-A27538FA-234C-4D61-A814-D5C33C6D6724Q35480496-7F7F2996-2868-4A8A-B4C7-7B0B50FAAF75Q35725515-E3C2A62E-0194-447B-9B1B-8A0C4CCF32EAQ35754109-2020411D-EAEB-44C6-A19F-FB36F4443408Q35841472-88F80D34-96F9-4596-824B-E9238307925DQ36022010-3632D432-90D0-4EA8-81AD-A4CEEB361A71Q36065031-EB1583D1-CF45-489E-955E-3C06494C3F33Q36107920-C3F27B20-2883-491B-830F-7C917BA14F12Q36231072-9DA7550B-6488-4DB0-A0CB-DCA4942E7D8AQ36265004-182DDF13-CBFD-4BCF-927D-4D4233F922C4Q36588734-59157E0D-DA32-4D44-BC11-1B957EA29B6AQ36734237-A55FA5B6-92F1-4EAB-B718-DFFAA813B379Q37151143-79663E34-1AA8-421A-89AF-AC753DD73BD7Q37240810-7638D882-874F-4A94-A68B-EB824530C209
P2860
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
Deforestation: effects on vector-borne disease.
@en
Deforestation: effects on vector-borne disease.
@nl
type
label
Deforestation: effects on vector-borne disease.
@en
Deforestation: effects on vector-borne disease.
@nl
prefLabel
Deforestation: effects on vector-borne disease.
@en
Deforestation: effects on vector-borne disease.
@nl
P2093
P1433
P1476
Deforestation: effects on vector-borne disease.
@en
P2093
P304
P478
P577
1993-01-01T00:00:00Z