about
Therapeutic ultrasound as a potential male contraceptive: power, frequency and temperature required to deplete rat testes of meiotic cells and epididymides of sperm determined using a commercially available system.Virology, Epidemiology and Pathology of Glossina Hytrosavirus, and Its Control Prospects in Laboratory Colonies of the Tsetse Fly, Glossina pallidipes (Diptera; Glossinidae)Aedes aegypti Control Strategies in Brazil: Incorporation of New Technologies to Overcome the Persistence of Dengue EpidemicsThe effect of age on the mating competitiveness of male Glossina fuscipes fuscipes and G. palpalis palpalisEvolutionary decay and the prospects for long-term disease intervention using engineered insect vectorsProspects for vector control through genetic manipulation of populationsValidation of a new larval rearing unit for Aedes albopictus (Diptera: Culicidae) mass rearingpiggybac- and PhiC31-mediated genetic transformation of the Asian tiger mosquito, Aedes albopictus (Skuse).CRISPR/Cas9 gene drives in genetically variable and nonrandomly mating wild populations.Cytogenetics of two radiation-induced, sex-linked translocations in the yellow-fever mosquito, Aedes aegyptiCombining tactics to exploit Allee effects for eradication of alien insect populations.Irradiated male tsetse from a 40-year-old colony are still competitive in a Riparian forest in Burkina FasoDevelopment, genetic and cytogenetic analyses of genetic sexing strains of the Mexican fruit fly, Anastrepha ludens Loew (Diptera: Tephritidae)Microsatellite markers from the 'South American fruit fly' Anastrepha fraterculus: a valuable tool for population genetic analysis and SIT applications.Transient population dynamics of mosquitoes during sterile male releases: modelling mating behaviour and perturbations of life history parametersAnopheles arabiensis egg treatment with dieldrin for sex separation leaves residues in male adult mosquitoes that can bioaccumulate in goldfish (Carassius auratus auratus)Silencing the buzz: a new approach to population suppression of mosquitoes by feeding larvae double-stranded RNAsSpermless males elicit large-scale female responses to mating in the malaria mosquito Anopheles gambiaeTHE TOXICOLOGY OF CHEMOSTERILANTS.Standard operating procedures for standardized mass rearing of the dengue and chikungunya vectors Aedes aegypti and Aedes albopictus (Diptera: Culicidae) - II - Egg storage and hatching.A transgenic male-only strain of the New World screwworm for an improved control program using the sterile insect techniqueGenetic sex separation of the malaria vector, Anopheles arabiensis, by exposing eggs to dieldrinMale courtship behavior of the South American fruit fly, Anastrepha fraterculus, from an Argentinean laboratory strain.Chemosterilization of Culex pipiens fatigans Wiedemann by exposure of aquatic stages. I. Sterilization potential of certain aziridinyl compoundsSterilization of Culex pipiens fatigans Wiedemann by apholateChemosterilization of the tropical house mosquito Culex pipiens fatigans Wied.: laboratory and field cage studiesProspects of chemosterilant and genetic control of rodents.Perspectives in the control of infectious diseases by transgenic mosquitoes in the post-genomic era--a review.Prospects for vector control through sterilization proceduresTOXICITY OF METEPA TO RATS WITH NOTES ON TWO OTHER CHEMOSTERILANTS.Eliminating female Anopheles arabiensis by spiking blood meals with toxicants as a sex separation method in the context of the sterile insect techniqueThe effect of the radio-protective agents ethanol, trimethylglycine, and beer on survival of X-ray-sterilized male Aedes aegypti.Transgenic technologies to induce sterilityNew insight-guided approaches to detect, cure, prevent and eliminate malaria.Enhancing the stability and ecological safety of mass-reared transgenic strains for field release by redundant conditional lethality systems.Effects of levonorgestrel-quinestrol (EP-1) treatment on Mongolian gerbil wild populations: a case study.A maleness gene in the malaria mosquito Anopheles gambiae.Implication of SAR of male medfly attractants in insect olfaction.Germline transformation of the diamondback moth, Plutella xylostella L., using the piggyBac transposable element.Temperature-dependent sex-reversal by a transformer-2 gene-edited mutation in the spotted wing drosophila, Drosophila suzukii
P2860
Q21245568-713F10EE-0FEA-4851-B4E2-49C43E60FA69Q24273309-6EA40DC3-3AB6-4B05-8E1D-3F4EDE0C39F4Q24273310-1BF6C1FD-13D9-473D-81B6-AB56C79EF058Q24806481-22112129-223C-4D84-8BD5-2C7ED0719D34Q26822839-BBC1C4FC-799D-4653-83EB-78CB995F8704Q27486972-7F9AD2F0-11AA-4ED4-81D6-086A3998D7ABQ30441218-537A9F16-3F41-4E2D-A8A8-202A2D91C466Q33681053-F21F30D6-5664-4EE9-89C6-DD506A68002BQ33708101-1C2B8FFE-755D-4984-AFE4-66A103C11BC7Q33987023-A79D4820-45CA-4D09-98A5-7F21078C92C2Q34196762-DD4C9FA2-C3FB-49E3-9804-9040DA05EDDBQ34271183-3D70F309-B5D8-40A0-8C61-5D7565B0A4CEQ34631716-F794CE6C-C7CD-4071-A873-68D710AEA100Q34631799-C7DABE54-9B0E-4675-B2E9-AFB9F6E202B4Q35006258-98FB800B-ECB9-424D-8EFE-6C27481FFC0EQ35035305-8E762169-AED9-4924-BD95-0D92EEC26245Q35091719-668BCEF8-41AF-4945-ADCC-79EB5548AB6FQ35170721-392A2610-304A-42F9-A6A6-44F1F4DD35F3Q35499212-C0AEC207-03F8-4F62-9294-98A39CBB55A5Q35799500-25B6ACE0-B6BC-44CC-9687-66DB60C5750BQ36117348-69C694A2-421C-45C9-B011-F2A1ED6F7492Q36125494-77C5D8DF-3EDD-46A7-B32F-B5BDB4E266D3Q36311545-22057306-FE25-4D8A-B9B7-6C36ED6D369AQ36719857-953C7114-5780-4F8B-A9D0-3F2E7D969A23Q36779622-05E6255E-9739-4B7B-BCBC-7BDE46D196DDQ36786180-23C77241-A448-4907-9BD2-34EFDB523B9CQ36786218-DFCA7876-F6E8-4A9F-8BFB-C08372622896Q36870961-B31B21D6-E33D-435B-B571-BD41CCAD47E5Q36912089-363E5E18-4C4B-403E-98B0-F97F281BDF0BQ36912598-AD35B0EA-28BD-42BD-ADF0-10E3AA821157Q36988153-9CFDC50B-8030-471B-A4DB-335A0513AD41Q37046369-86467825-D106-4E7F-8CA1-D7B160EFFB2CQ37420918-4797C3E4-4389-4E6D-9C0C-F5CE4F3E4C45Q38260909-4F83305A-BD10-4CD7-9F5F-A22EFB9EE629Q38533930-10BC91CF-E711-4783-B645-4577BC20042CQ39013206-3191D4E2-B162-4000-BDDF-7EAFC1EA4770Q39149397-3746C41B-16A5-4630-8F64-2EE79332B611Q40606763-9C9D453F-3E80-4C9E-BC70-34D81C432B83Q42013041-DF722F33-32D2-4B08-8D13-C85C35EF8575Q42172489-0BF54C38-613A-4DF8-965B-FEF9165E7257
P2860
description
1959 nî lūn-bûn
@nan
1959年の論文
@ja
1959年学术文章
@wuu
1959年学术文章
@zh
1959年学术文章
@zh-cn
1959年学术文章
@zh-hans
1959年学术文章
@zh-my
1959年学术文章
@zh-sg
1959年學術文章
@yue
1959年學術文章
@zh-hant
name
Sterile-male method of population control.
@en
Sterile-male method of population control.
@nl
type
label
Sterile-male method of population control.
@en
Sterile-male method of population control.
@nl
prefLabel
Sterile-male method of population control.
@en
Sterile-male method of population control.
@nl
P1433
P1476
Sterile-male method of population control.
@en
P2093
KNIPLING EF
P304
P356
10.1126/SCIENCE.130.3380.902
P407
P577
1959-10-01T00:00:00Z