about
Application of phytotoxicity data to a new Australian soil quality guideline framework for biosolids.Risk assessment of episodic exposures to chemicals should consider both the physiological and the ecological sensitivities of species.Variation in, and causes of, toxicity of cigarette butts to a cladoceran and microtox.An assessment of endocrine activity in Australian rivers using chemical and in vitro analyses.Spatial and Temporal Variability in Pesticide Exposure Downstream of a Heavily Irrigated Cropping Area: Application of Different Monitoring Techniques.Bioactivity of POPs and their effects in mosquitofish in Sydney Olympic Park, Australia.Distribution of inorganic and organic contaminants in sediments from Sydney Olympic Park and the surrounding Sydney metropolitan area.Benthic macroinvertebrate assemblages in remediated wetlands around Sydney, Australia.Spatio-temporal assessment of perfluorinated compounds in the Brisbane River system, Australia: impact of a major flood event.Bioanalytical effect-balance model to determine the bioavailability of organic contaminants in sediments affected by black and natural carbon.Water quality guidelines for chemicals: learning lessons to deliver meaningful environmental metrics.Quantifying reduction in ecological risk in Penrhyn Estuary, Sydney, Australia, following groundwater remediation.Field dissipation of 4-nonylphenol, 4-t-octylphenol, triclosan and bisphenol A following land application of biosolids.Tissue-based environmental quality benchmarks and standards.Modeling the toxicity of copper and zinc salts to wheat in 14 soils.The toxicity and bioavailability of atrazine and molinate to Chironomus tepperi larvae in laboratory and river water in the presence and absence of sediment.Effects of river water and salinity on the toxicity of deltamethrin to freshwater shrimp, cladoceran, and fish.Altered transcription levels of endocrine associated genes in two fisheries species collected from the Great Barrier Reef catchment and lagoon.Response to Buchwalter et al. Further considerations for modernizing water quality criteria in the United States and elsewhere.Site-specific probabilistic ecological risk assessment of a volatile chlorinated hydrocarbon-contaminated tidal estuary.A comparison of mixture toxicity assessment: examining the chronic toxicity of atrazine, permethrin and chlorothalonil in mixtures to Ceriodaphnia cf. dubia.Is the integration of hormesis and essentiality into ecotoxicology now opening Pandora's Box?Quantitative structure-activity relationships for the toxicity of selected shale oil components to mixed marine bacteria.Large-scale pesticide monitoring across Great Barrier Reef catchments--Paddock to Reef Integrated Monitoring, Modelling and Reporting Program.Assessing the chronic toxicity of atrazine, permethrin, and chlorothalonil to the cladoceran Ceriodaphnia cf. dubia in laboratory and natural river water.Scientific derivation of environmental quality benchmarks for the protection of aquatic ecosystems: challenges and opportunitiesEffects of Biosolids Application on Pasture and Grape Vines in South-Eastern AustraliaA National Survey of Trace Organic Contaminants in Australian RiversPersistence of estrogenic activity in soils following land application of biosolidsAgeing of zinc in highly-weathered iron-rich soilsAssessing environmental risks of laundry detergents in greywater used for irrigationDegradation of 4-nonylphenol, 4-t-octylphenol, bisphenol A and triclosan following biosolids addition to soil under laboratory conditionsBioavailability of zinc and copper in biosolids compared to their soluble saltsBiological and chemical assessments of zinc ageing in field soilsDirect Toxicity Assessment of Volatile Chlorinated Hydrocarbon–Contaminated Groundwater and Derivation of a Site-Specific GuidelineEvaluation of a Methodology for Toxicity Testing of Volatile Chlorinated Hydrocarbons on Marine OrganismsSimultaneous prediction of toxicity of multiple chemicals to multiple species using multi-dimensional functional relationshipsLimitations of soil microbial biomass carbon as an indicator of soil pollution in the fieldSOIL FACTORS CONTROLLING THE TOXICITY OF COPPER AND ZINC TO MICROBIAL PROCESSES IN AUSTRALIAN SOILSA Field Investigation of Solubility and Food Chain Accumulation of Biosolid-Cadmium Across Diverse Soil Types
P50
Q33409027-EB735EF5-1177-494E-9FBA-AD3F6572FCCEQ34471313-5799DA8A-8FBA-415C-B56C-DAAAA7EC091DQ34473001-6A01FD47-7B12-4C86-AB83-4AF5C7321169Q38979419-939A3F09-2E43-4F3A-A758-0B3CCD1325A9Q39313770-FBB52882-A10F-4DD2-BA87-7B8D505B2E8FQ39870003-7C9902F4-8A20-46EC-AA29-443D0036233FQ39899107-E264FBFF-7802-4E16-BC2F-04FC7709AC1AQ39951646-4043F909-9EF5-4820-8568-92CD7EF966DDQ40176485-43ED7346-F737-44C9-A635-4A58868607EDQ40373832-DE2A347D-8C0D-4EDC-BD70-03D71DBB7AC1Q42596661-0E77EB1B-AF13-4455-A503-01B8B1CFD784Q43329638-C9DA43C0-1BD3-42E6-BFC6-516B9AF8A43FQ43338356-2C52F185-4DC9-49D8-8524-3257CAA2C085Q44280969-044EB3AE-F3E0-4FA8-987E-1F6AB7F3CF75Q46202298-29A3446B-6FDD-46EA-A1A2-B5C66DFB04D9Q46403193-60446130-9930-444C-89C3-F482EA2895B2Q46695892-CDF2FF58-7397-4776-8718-4233F0A9A4C5Q46782836-3125EC18-B15E-4A0C-90C1-444CB1E62E23Q48028717-00ABF356-5500-4011-8B30-8DED14E7A9BBQ51174565-127F36CB-E4B8-4B72-9D92-943CA148F135Q51585219-B82C0FFE-2125-46A1-859B-699AD42D2498Q51707177-A7A7773B-3F90-4892-9CC0-B49AE124ABE2Q52535743-4AC35559-7D3D-4A61-A889-A7DD99BC7F49Q52727568-55689CFF-80BE-4468-B1C9-6B1E97775F72Q52746835-00490B99-DB17-4261-B05A-C0008379BE29Q58385275-2DC617C9-C6AA-4358-B827-883825357157Q58653935-E1443604-E295-4CBA-BA3C-F8A1BBEF47E5Q58772720-296A17FA-52BF-4202-953C-261A147C9105Q58772732-CD412375-B718-4D37-9F63-F4C09A4F5923Q58772802-5C88FA78-2AFA-417B-8D4E-68DB8B343220Q58772865-AFF9BA9A-6115-4882-AC3A-274A219B4EE4Q58772871-11222CF5-1343-4C36-9E3C-934B62A57418Q58772899-0D11DC53-5183-454A-8C3F-E371BDEAF469Q58772909-5134ED9B-48DE-48CA-8978-16C1AAC1AF7DQ58772954-79D36DB8-2F2B-4E73-86CA-A915A073C54AQ58772966-6BDB70AD-35E3-441B-B8B3-6BFC0A320916Q58773007-02E3BFFD-7B95-4589-B08C-D57F62E05C09Q58773032-8508B8F4-127F-4066-ABDB-16BB2DF36064Q58773043-6D7D39DB-730B-47DC-BB2A-DC53497E0F08Q58773056-A1922F32-2DE0-45D8-9C3C-E38EB8E883FC
P50
description
environmenal researcher
@en
wetenschapper
@nl
name
Michael Warne
@ast
Michael Warne
@en
Michael Warne
@es
Michael Warne
@nl
type
label
Michael Warne
@ast
Michael Warne
@en
Michael Warne
@es
Michael Warne
@nl
altLabel
Michael St John Warne
@en
Michael St. J. Warne
@en
prefLabel
Michael Warne
@ast
Michael Warne
@en
Michael Warne
@es
Michael Warne
@nl
P101
P106
P1153
57153693100
7004330838
P1315
P1960
FMb-GyoAAAAJ
P2031
1991-01-01T00:00:00Z
P2038
Michael_Warne
P21
P31
P4012
P496
0000-0003-1804-7889