about
Detection and drivers of exposure and effects of pharmaceuticals in higher vertebratesTracking pan-continental trends in environmental contamination using sentinel raptors-what types of samples should we use?The biochemical profile of rat testicular tissue as measured by magic angle spinning 1H NMR spectroscopy.Metabolic trajectory characterisation of xenobiotic-induced hepatotoxic lesions using statistical batch processing of NMR data.Subtle effects of environmental stress observed in the early life stages of the Common frog, Rana temporariaLong-term trends in mercury and PCB congener concentrations in gannet (Morus bassanus) eggs in Britain.A new interpretation of avian and Mammalian reproduction toxicity test data in ecological risk assessment.Second generation anticoagulant rodenticides in tawny owls (Strix aluco) from Great Britain.Arsenic contamination in wood mice (Apodemus sylvaticus) and bank voles (Clethrionomys glareolus) on abandoned mine sites in southwest Britain.The distribution of arsenic in the body tissues of wood mice and bank voles.The effect of variation in calcium intake on the growth of wood mice and bank voles.Differential effects in mammalian cells induced by chemical mixtures in environmental biota as profiled using infrared spectroscopy.Long term trends in PBDE concentrations in gannet (Morus bassanus) eggs from two UK colonies.Spatial and temporal analysis of second-generation anticoagulant rodenticide residues in polecats (Mustela putorius) from throughout their range in Britain, 1992-1999.Second-generation rodenticides and polecats (Mustela putorius) in Britain.Long-term trends in PBDEs in sparrowhawk (Accipiter nisus) eggs indicate sustained contamination of UK terrestrial ecosystems.An overview of existing raptor contaminant monitoring activities in Europe.How much do PCB toxic equivalents account for PHAH toxicity in predatory birds?Feather corticosterone content in predatory birds in relation to body condition and hepatic metal concentration.Use of terrestrial field studies in the derivation of bioaccumulation potential of chemicals.Adverse outcome pathway and risks of anticoagulant rodenticides to predatory wildlife.PCBs in the eggs of Eurasian kestrels indicate exposure to local pollution.Vibrational biospectroscopy characterizes biochemical differences between cell types used for toxicological investigations and identifies alterations induced by environmental contaminants.Infrared spectroscopy detects changes in an amphibian cell line induced by fungicides: Comparison of single and mixture effects.Biospectroscopy reveals the effect of varying water quality on tadpole tissues of the common frog (Rana temporaria).The ecotoxicological significance of cadmium intake and residues in terrestrial small mammals.Assessing the exposure risk and impacts of pharmaceuticals in the environment on individuals and ecosystems.The Predatory Bird Monitoring Scheme: identifying chemical risks to top predators in Britain.Metabolic profiling of chronic cadmium exposure in the rat.Comparisons of metabolic and physiological changes in rats following short term oral dosing with pesticides commonly found in food.Mid-infrared spectroscopic assessment of nanotoxicity in gram-negative vs. gram-positive bacteria.Large-scale spatial pollution patterns around the North Sea indicated by coastal bird eggs within an EcoQO programme.User behaviour, best practice and the risks of non-target exposure associated with anticoagulant rodenticide use.Country-specific effects of neonicotinoid pesticides on honey bees and wild bees.Levels of Organochlorine Pesticides Are Associated with Amyloid Aggregation in Apex Avian Brains.Characterization of the biochemical effects of 1-nitronaphthalene in rats using global metabolic profiling by NMR spectroscopy and pattern recognition.Organochlorine residues in booted eagle (Hieraaetus pennatus) and goshawk (Accipiter gentilis) eggs from southeastern Spain.Neonicotinoid residues in UK honey despite European Union moratorium.Diorthosubstituted polychlorinated biphenyls in caudate nucleus in Parkinson's disease.A comparison of the effects of single and repeated exposure to an organophosphate insecticide on acetylcholinesterase activity in mammals.
P50
Q26859188-EBFBF0E6-41EE-4052-945D-E313AD00A42BQ27316749-DAA92C33-DBFD-40A2-A223-D598B47A7C2BQ30620923-3CCE0C2A-C4C7-4474-9299-2C54A26559FCQ30682194-18209D49-B368-4E09-B992-CDB121C7EE9AQ30842329-8A4A3F07-A294-4BB5-8DF1-8F760E1CC345Q30847904-63C39535-4549-44F2-AEA9-897E92A870BFQ31019170-E6AA1797-4B4D-4D61-9D60-10FB65248808Q33310518-8E7BCB8F-FF60-4992-86CE-52EAB89B8916Q33448138-811162A7-7D6F-4E4A-86E8-8EF4016DA3D2Q33449101-5FA2AFDD-73D7-437C-A72F-ADE1E35A1BD0Q33459122-DF213609-5E47-4EDF-BBE4-B032BA41B928Q34062709-275D2F10-CF8C-4836-8FF5-D1AE448D6EE8Q34121954-2825ACCD-DC88-40AE-9284-32EC9B92F0D5Q34170997-63DE0BAA-6668-406B-B8FE-3F4FCE3F42D6Q34314415-D247658E-4782-4DD4-9DB2-CBD9F98DA9ADQ34484533-1B6FF899-CAB2-4E74-ACBA-78D5779C0F73Q35121444-27F6BE64-EF59-4800-958E-F0F2A1025875Q35213238-A554F764-299D-4B30-932C-53DD1E340E52Q35578798-D48450CE-4207-4298-AA31-5B41CE19888CQ35799178-62EF6133-B19E-427D-B888-8F3997E0F3A1Q38223463-BFC22496-AE5B-4E14-BC7D-5888306A657DQ38437015-803EEA1B-0F1B-4E16-A2AC-3FE058F56E3FQ38699862-BC76F902-696F-41A8-921A-4EAE68E9E2ABQ38756246-7590E492-CDFE-4EDB-B9D9-B7CA59D5FAD1Q40356054-F024ED55-4F1F-40ED-8F37-DF96C7EA02A6Q40396330-85CB0E45-4CB9-44E6-A551-9D224B65BE92Q43042801-8F123DEC-4C25-4528-929D-E0983FBC2FA0Q43700613-2D2E737E-DC76-43EB-9EC7-91694DF76A1DQ43765755-49C1737A-00D8-4597-AB9A-9922D2D5A014Q44102366-102BAF14-DA0C-4AA8-A4EA-260057C16046Q44904970-FEB31758-776B-4C79-BDA0-42B1D116272EQ45086181-744FF591-31B7-430F-A521-ADFC64F737FBQ45268120-838FD0D7-59E6-4F37-820E-28EC5E09258AQ46342566-C6F1316E-AE3D-435B-BD63-F25440A7A262Q46346778-D49CB2C2-81C2-4F70-94CA-651B9DBF6ABAQ46820483-0226E838-7A8D-4FF5-A2B7-AA4E65C89B58Q46946283-AF24C597-7B20-410A-A93D-8BF1FD029439Q47566192-E1EC1815-747E-4B09-9000-CB07974E53CAQ48461232-EDD97523-8A91-43E4-8189-965B62032B66Q48474723-10BDA290-E9DF-4D29-BD97-242B755C6AB0
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Richard F Shore
@ast
Richard F Shore
@en
Richard F Shore
@es
Richard F Shore
@nl
Richard F Shore
@sl
type
label
Richard F Shore
@ast
Richard F Shore
@en
Richard F Shore
@es
Richard F Shore
@nl
Richard F Shore
@sl
altLabel
Richard Shore
@en
prefLabel
Richard F Shore
@ast
Richard F Shore
@en
Richard F Shore
@es
Richard F Shore
@nl
Richard F Shore
@sl
P214
P244
P1053
A-2638-2012
P106
P21
P214
P244
nb98094789
P31
P3829
P496
0000-0002-9337-8883
P734
P735
P7859
lccn-nb98094789