Source reduction of mosquito larval habitats has unexpected consequences on malaria transmission.
about
Modeling the effects of integrating larval habitat source reduction and insecticide treated nets for malaria controlMonitoring population and environmental parameters of invasive mosquito species in EuropeEcology: a prerequisite for malaria elimination and eradicationRisk mapping of Anopheles gambiae s.l. densities using remotely-sensed environmental and meteorological data in an urban area: Dakar, Senegal.Preventing childhood malaria in Africa by protecting adults from mosquitoes with insecticide-treated nets.Application of loop analysis for evaluation of malaria control interventions.Clustering of vector control interventions has important consequences for their effectiveness: a modelling study.Agent-based modelling of mosquito foraging behaviour for malaria controlSugar deprivation reduces insemination of Anopheles gambiae (Diptera: Culicidae), despite daily recruitment of adults, and predicts decline in model populations.A broad assessment of factors determining Culicoides imicola abundance: modelling the present and forecasting its future in climate change scenariosInsecticide susceptibility of Anopheles mosquitoes changes in response to variations in the larval environment.Natural plant sugar sources of Anopheles mosquitoes strongly impact malaria transmission potentialUsing the entomological inoculation rate to assess the impact of vector control on malaria parasite transmission and elimination.A network population model of the dynamics and control of African malaria vectors.The temporal spectrum of adult mosquito population fluctuations: conceptual and modeling implications.Landscape movements of Anopheles gambiae malaria vector mosquitoes in rural GambiaMosquito population regulation and larval source management in heterogeneous environments.Laboratory experiments on stranding of Anopheles larvae under different shoreline environmental conditionsGeographic profiling as a novel spatial tool for targeting infectious disease control.Modelling the impact of vector control interventions on Anopheles gambiae population dynamics.Field and Laboratory Evaluation of Bioefficacy of an Insect Growth Regulator (Dimilin) as a Larvicide against Mosquito and Housefly Larvae.Target product profile choices for intra-domiciliary malaria vector control pesticide products: repel or kill?Larval source management for malaria control in Africa: myths and reality.Exploring the contributions of bed nets, cattle, insecticides and excitorepellency to malaria control: a deterministic model of mosquito host-seeking behaviour and mortality.Deforestation and Malaria on the Amazon Frontier: Larval Clustering of Anopheles darlingi (Diptera: Culicidae) Determines Focal Distribution of Malaria.Shifts in malaria vector species composition and transmission dynamics along the Kenyan coast over the past 20 years.Potential of household environmental resources and practices in eliminating residual malaria transmission: a case study of Tanzania, Burundi, Malawi and LiberiaIntegrated vector management for malaria control.Predicting the impact of insecticide-treated bed nets on malaria transmission: the devil is in the detail.Environmental determinants of malaria transmission in African villages.Habitat discrimination by gravid Anopheles gambiae sensu lato--a push-pull systemExperience- and age-mediated oviposition behaviour in the yellow fever mosquito Stegomyia aegypti (=Aedes aegypti).Habitat modification for mosquito control in the Ilparpa Swamp, Northern Territory, Australia.Why Use of Interventions Targeting Outdoor Biting Mosquitoes will be Necessary to Achieve Malaria EliminationWater surface area and depth determine oviposition choice in Aedes albopictus (Diptera: Culicidae).A delay equation model for oviposition habitat selection by mosquitoes.Oviposition strategies of temporary pool mosquitoes in relation to weather, tidal regime and land use in a temperate wetland.Attacking the mosquito on multiple fronts: Insights from the Vector Control Optimization Model (VCOM) for malaria elimination.A Bug's Life and the Spatial Ontologies of Mosquito Management
P2860
Q21142765-185F3427-10C6-475D-934A-A67B85A2AA51Q28656198-EC13378D-A9E5-448D-9F1D-902C4CB610E4Q28749981-FC2E13F4-C3CF-4C6F-B2D5-FF024C4E5B8DQ30580915-D4420E52-D63E-4A20-92C6-7278E6E591EAQ33289778-2C6DF433-7476-45F1-913E-3FF77EA976FEQ33597968-F05B76CC-2D6D-49BF-A347-D91ACBF9E398Q33605055-85BF2235-18A0-450B-9A0F-415FF14C1B1CQ33637641-B7C3DDD3-ED14-43EC-A5F0-B122B29C6B0DQ33668343-4D84741D-620F-4A8A-9180-00529C2EA68FQ33769427-EDC84E68-393F-4BDC-A807-D0C5963599BEQ33808018-C0EAF834-BBE5-485C-83B9-6A6AF22A8F93Q33809196-7A7D1947-33CB-4373-AA2F-6196E105CDDEQ33934180-BE2C5F3F-9B31-4211-9241-9493D9E24A48Q34238275-194AB480-6F86-4CAB-83DE-269C8F921B78Q34639925-6CB79E35-7B77-4D43-B952-85E4996BB449Q34850375-8472E6F7-2AD6-4B33-935D-339A2B99EC75Q34949018-A54C0212-9FAF-4AAC-A08D-54C3BC004999Q35047979-C161AC42-44F8-4AAC-AE7A-4BC0315DF68DQ35068056-303752C8-C254-4DCA-B7BA-E66D62A4C745Q35172605-3301B98D-9B5D-43A4-B3AE-0EFB73D15424Q35220199-571B75F2-E441-44D5-AAE0-B7D4C824C8FFQ35428591-7C6FB285-FD07-494F-BDCC-6C242AC8F379Q35739767-4486272F-915C-4E13-A0A4-5C624B49DF62Q35942564-E69ED0E5-DF01-476C-89DD-6674A4E2B0A3Q36436216-B903FA86-E07C-4C26-BF48-B06931242621Q36531319-A307823C-066C-48C7-BA40-F9B2CB6F353BQ36612819-673BC4F9-AF18-4767-B557-62A68E6E2674Q37018655-827E6304-D0A7-433B-8B7B-D278907D9DB8Q37428355-B53A88A4-3496-48D9-BFF0-AB367508F25FQ37460862-F1DA97FE-195B-438E-8D53-F31B20E0D482Q37683613-45161641-BF2B-4DEC-BBC8-1213B21DDD4AQ39005773-CDF818AF-0693-4021-9102-1B273C40BD7EQ40009981-957CBBEC-DFFA-4510-BD79-F729CC9F3DE4Q42198274-09A0B2AA-A651-45D1-A515-88C55F7CF924Q42977460-C4710BBB-E098-41CD-B6D9-797915AE4FF5Q44161001-C7C64976-224A-4D6C-9D03-C36026A857B3Q44164230-A34D12DB-6DFA-45FD-A564-83BA9E0AAD70Q46161091-544850C9-724E-4385-A7CC-1BA0A6C553DDQ58293424-F2D64C78-914F-448D-BDD1-9C2B7B6516C1
P2860
Source reduction of mosquito larval habitats has unexpected consequences on malaria transmission.
description
2006 nî lūn-bûn
@nan
2006 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Source reduction of mosquito l ...... ences on malaria transmission.
@ast
Source reduction of mosquito l ...... ences on malaria transmission.
@en
type
label
Source reduction of mosquito l ...... ences on malaria transmission.
@ast
Source reduction of mosquito l ...... ences on malaria transmission.
@en
prefLabel
Source reduction of mosquito l ...... ences on malaria transmission.
@ast
Source reduction of mosquito l ...... ences on malaria transmission.
@en
P2093
P2860
P921
P356
P1476
Source reduction of mosquito l ...... ences on malaria transmission.
@en
P2093
James L Regens
Robert J Novak
Weidong Gu
P2860
P304
17560-17563
P356
10.1073/PNAS.0608452103
P407
P50
P577
2006-11-03T00:00:00Z