about
The potential use of cuticular hydrocarbons and multivariate analysis to age empty puparial cases of Calliphora vicina and Lucilia sericata.Post-Colonization Interval Estimates Using Multi-Species Calliphoridae Larval Masses and Spatially Distinct Temperature Data Sets: A Case Study.Microbial community functional change during vertebrate carrion decomposition.Microbial Signatures of Cadaver Gravesoil During Decomposition.Microbial Biofilm Community Variation in Flowing Habitats: Potential Utility as Bioindicators of Postmortem Submersion IntervalsNecrophilous Insect Dynamics at Small Vertebrate Carrion in a Temperate Eucalypt Woodland.Hydrocarbon profiles throughout adult Calliphoridae aging: A promising tool for forensic entomology.Fluorescently labeled bacteria provide insight on post-mortem microbial transmigration.Field Documentation of Unusual Post-Mortem Arthropod Activity on Human Remains.The Potential of High-throughput Metagenomic Sequencing of Aquatic Bacterial Communities to Estimate the Postmortem Submersion Interval.Frozen: Thawing and Its Effect on the Postmortem Microbiome in Two Pediatric Cases.Microbial ecology of the salmon necrobiome: evidence salmon carrion decomposition influences aquatic and terrestrial insect microbiomes.Temporal and Spatial Impact of Human Cadaver Decomposition on Soil Bacterial and Arthropod Community Structure and Function.Changes in Larval Mosquito Microbiota Reveal Non-target Effects of Insecticide Treatments in Hurricane-Created Habitats.Rehydration of forensically important larval Diptera specimens.A large-scale survey of the postmortem human microbiome, and its potential to provide insight into the living health condition.The potential use of bacterial community succession in forensics as described by high throughput metagenomic sequencingDetection of critical antibiotic resistance genes through routine microbiome surveillanceMachine learning performance in a microbial molecular autopsy context: A cross-sectional postmortem human population studyEvaluating Bioinformatic Pipeline Performance for Forensic Microbiome Analysis*,†,‡
P50
Q33694780-808200ED-BBB0-4785-9276-81029D738AD9Q33856137-51E96348-B781-44E0-ADBB-360DC9A0186BQ35050414-42AAC21D-91E8-4797-87AA-BF0E65C12AEEQ35889425-E869834B-C647-4A09-A203-4956820FF5E3Q37268682-6BDA0373-1E78-458D-AF4B-0338AA426961Q38731838-8F2A87BD-4059-444D-9CD7-01A02061A988Q39090220-A41C4CD1-9369-4EBE-81C3-42E9C0CDBEEEQ39874259-2AE5E5BA-D605-41EF-9E35-3253DA5D628BQ40577942-F3E9EA1F-1F12-42EB-828F-50A00CD71C1BQ40621415-0FF1E245-4EBB-4C91-B809-C782C4B5AE00Q45030513-04D89816-DC5E-41BD-B4F2-4778214A8CD6Q46621095-BCD0D8F9-2328-4CD1-B9F5-64E916811EE6Q47707733-6FFE6687-0494-4343-AD2B-335D903E66B4Q51146976-C30F4DDB-E3DE-4AA8-A3EF-9D526183D314Q52715966-C92DBC3E-8A18-4B85-9E0A-3D9E08D2E1C5Q55070270-0A8CD12B-8E49-4C80-A32E-2A706F143F63Q57265725-22169A22-6B50-4730-AE32-CB5560DF02FFQ64095133-AE0DB842-981E-4DF2-94F3-2A6927ACAB0FQ64115104-C2998993-B4DD-4CF6-932F-522DC81E0B40Q90968884-EDBC1120-0219-449B-932D-EC7D79C6ED8F
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jennifer L Pechal
@ast
Jennifer L Pechal
@en
Jennifer L Pechal
@es
Jennifer L Pechal
@nl
type
label
Jennifer L Pechal
@ast
Jennifer L Pechal
@en
Jennifer L Pechal
@es
Jennifer L Pechal
@nl
prefLabel
Jennifer L Pechal
@ast
Jennifer L Pechal
@en
Jennifer L Pechal
@es
Jennifer L Pechal
@nl
P106
P21
P31
P496
0000-0002-2588-2519