‘Environmental and Economic Costs of the Application of Pesticides Primarily in the United States’
about
Erythritol, a non-nutritive sugar alcohol sweetener and the main component of truvia®, is a palatable ingested insecticidePesticide exposure, safety issues, and risk assessment indicatorsA Review of Bioinsecticidal Activity of Solanaceae AlkaloidsDetoxifying symbionts in agriculturally important pest insectsIntegration of Plant Defense Traits with Biological Control of Arthropod Pests: Challenges and OpportunitiesMaximizing Information Yield From Pheromone-Baited Monitoring Traps: Estimating Plume Reach, Trapping Radius, and Absolute Density of Cydia pomonella (Lepidoptera: Tortricidae) in Michigan Apple.Pesticide Knowledge and Safety Practices among Farm Workers in Kuwait: Results of a Survey.Glyphosate Residues in Groundwater, Drinking Water and Urine of Subsistence Farmers from Intensive Agriculture Localities: A Survey in Hopelchén, Campeche, Mexico.Removal of methyl parathion and tetrachlorvinphos by a bacterial consortium immobilized on tezontle-packed up-flow reactor.Spider-venom peptides as bioinsecticidesImpact of insecticides on the invasive Halyomorpha halys (Hemiptera: Pentatomidae): analysis of insecticide lethality.Natural enemy interactions constrain pest control in complex agricultural landscapes.The economics of atrazine.Advancing the science of microbial symbiosis to support invasive species management: a case study on Phragmites in the Great Lakes.Stochastic developmental variation, an epigenetic source of phenotypic diversity with far-reaching biological consequences.Can the parasitoid Necremnus tutae (Hymenoptera: Eulophidae) improve existing biological control of the tomato leafminer Tuta aboluta (Lepidoptera: Gelechiidae)?Herbicides do not ensure for higher wheat yield, but eliminate rare plant species.Seasonal and Spatial Environmental Influence on Opisthorchis viverrini Intermediate Hosts, Abundance, and Distribution: Insights on Transmission Dynamics and Sustainable ControlTemporal sampling helps unravel the genetic structure of naturally occurring populations of a phytoparasitic nematode. 1. Insights from the estimation of effective population sizesModeling Ghanaian cocoa farmers' decision to use pesticide and frequency of application: the case of Brong Ahafo RegionPesticide tolerance in amphibians: induced tolerance in susceptible populations, constitutive tolerance in tolerant populations.A perspective on the potential risks of emerging contaminants to human and environmental health.Complementarity among natural enemies enhances pest suppression.Monitoring of Pesticide Residues in Commonly Used Fruits and Vegetables in Kuwait.Assessing Probabilistic Risk Assessment Approaches for Insect Biological Control Introductions.RNA interference of carboxyesterases causes nymph mortality in the Asian citrus psyllid, Diaphorina citri.Here today, gone tomorrow: Short-term retention of pesticide-induced tolerance in amphibians.Scale-dependent effects of landscape composition and configuration on natural enemy diversity, crop herbivory, and yields.Impact of atrazine prohibition on the sustainability of weed management in Wisconsin maize production.Toxicity to Diaphania hyalinata, selectivity to non-target species and phytotoxicity of furanones and phthalide analogues.Bird use of organic apple orchards: Frugivory, pest control and implications for production.Tillage Reduces Survival of Grape Berry Moth (Lepidoptera: Tortricidae), via Burial Rather Than Mechanical Injury.Predator-prey trophic relationships in response to organic management practices.The effect of insecticide synergist treatment on genome-wide gene expression in a polyphagous pestSABP2, a methyl salicylate esterase is required for the systemic acquired resistance induced by acibenzolar-S-methyl in plants.Economic burden of acute pesticide poisoning in South Korea.A coupled stochastic/deterministic model to estimate the evolution of the risk of water contamination by pesticides across Canada.Pesticide use and economic impacts on health.Effect of a rock dust amendment on disease severity of tomato bacterial wilt.Residue levels of organochlorine pesticides in some ecosystem components of Manzala Lake.
P2860
Q21559459-6B9C9D01-B419-4811-8524-DCFC88980666Q24625123-AE370D4A-389C-4630-9CD0-19AD326F7F4FQ26764760-3F2CC1AC-E14B-4FF7-AD8C-789D02BED335Q28066298-948DFEF8-1272-4E3D-87C5-EBE59858172BQ28075708-47AA7314-F334-4376-9637-B244B08EA297Q33552784-F811905C-3F2F-4D73-8CA6-6523B9EE1408Q33615856-EC10E384-D178-4C1B-9EDE-F50CD3B14423Q33839636-06D405C2-A073-4EDE-B47E-821565B432A0Q33887024-90CC4A3D-FD58-476A-8EC0-CA2FE9B05EC7Q34319661-B816CEEC-A884-41A4-9A70-61422DDD5793Q34479482-D1CB4C27-1B78-4926-86BC-6F1AF4DF2127Q34628237-1348FDB5-31F5-427F-8B01-D701697C872FQ34726273-46A94D3B-2E4F-4F4F-BF23-A5BD618E5E91Q35099519-BB15520C-16E7-4C2B-A203-9CDFCFF59331Q35571789-2EA5FA0E-1427-41AE-90BA-C90C7B06158AQ36001099-7AFAE390-F1F5-4587-A90E-BC2357C5A19FQ36084316-E1B56450-C126-4888-A212-A7B68E1E5FABQ36202457-84776645-E24D-4B6E-AEC7-336069865378Q36651163-9260B2B5-877C-436A-B8F3-63579B9B11BEQ37104399-4232B863-DAC3-4CD1-B795-08D8FA3C83FBQ37244648-59064EA8-087D-4B4D-B34E-D4406AD530B2Q38552210-3BBB52B6-903E-44AF-8CF0-354502E5F0E7Q38623008-056E7A6E-24BC-4314-8474-745B31082407Q38652705-17C6F0DD-9524-46C2-A596-72EF689C7A2AQ38689604-1DD1FD24-9752-4A18-BD53-4F366F767DF4Q38962375-89E8B19B-DD73-48F4-8311-B17F5D36BAD3Q39010946-CB91F295-4998-483E-89C7-473F4DEB195BQ39746190-56904633-CEB4-47AE-ADCB-BFF9939596A4Q39833257-39919F43-A3C3-4E2B-80F8-273CF6758C26Q40199757-FF443DBD-4521-448E-8DC6-5DB19D18F70EQ41073832-9A9C0F2F-6932-45BA-9B2C-EF0B91B73298Q41988509-81C26449-6C6F-4D7B-9A29-5AA8870E3DA8Q42651119-3AA18B88-D01F-4BB6-99A6-1E87330AFD2AQ42658887-7D0E3DB3-A8BF-45E8-A60B-A1325997B5E2Q42973951-FB266D91-2943-4D1A-B2BE-3B71964448D9Q43822985-215B5C2F-391A-4079-839F-DDA24A38B834Q43867039-CE57E510-1EEA-4E90-93A4-71165FC1E525Q44088978-B5A20E2B-415E-4972-B1D1-959669BCA60BQ44121006-F258EDFE-D682-488C-9BEB-A10CFDE84B35Q45370547-5F57D2BC-6FB1-4CE2-B7D7-EE05B71D6AD8
P2860
‘Environmental and Economic Costs of the Application of Pesticides Primarily in the United States’
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2005
@uk
name
‘Environmental and Economic Co ...... rimarily in the United States’
@en
‘Environmental and Economic Co ...... rimarily in the United States’
@nl
type
label
‘Environmental and Economic Co ...... rimarily in the United States’
@en
‘Environmental and Economic Co ...... rimarily in the United States’
@nl
prefLabel
‘Environmental and Economic Co ...... rimarily in the United States’
@en
‘Environmental and Economic Co ...... rimarily in the United States’
@nl
P1476
‘Environmental and Economic Co ...... rimarily in the United States’
@en
P2093
David Pimentel
P2888
P304
P356
10.1007/S10668-005-7314-2
P577
2005-06-01T00:00:00Z