ORCID Profile
0000-0002-9128-4285
Current Organisation
University of Adelaide
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Publisher: Elsevier BV
Date: 12-2022
Publisher: Center for Open Science
Date: 05-05-2021
Abstract: We instituted a flipped-classroom learning environment for teaching advanced undergraduate genetics that consisted of pre-recorded lecture material followed by face to face workshops. Student engagement was promoted, and learning reinforced, by a recursive arrangement of electronically delivered formative and summative multiple choice question assessment in every workshop instead of a final end of semester examination. Our teaching approach dramatically increased student attendance, and student engagement with instructors. It simplified examination administration, and adapted easily to the online-only requirements of the SARS-CoV2 pandemic of 2020. The majority of student feedback regarding the revised learning format was positive.
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/WR23053
Publisher: Pensoft Publishers
Date: 29-06-0006
DOI: 10.3897/ARPHAPREPRINTS.E89465
Abstract: Environmental biosecurity risks associated with the Illegal Wildlife Trade (IWT) include the loss of bio ersity, threats to public health, and the proliferation of invasive alien species. To assist enforcement agencies in identifying trafficked species, rapid forensic techniques enable the detection of trace Environmental DNA (eDNA) where physical identification is not possible. Loop Mediated Isothermal Amplification (LAMP) is an emerging technique with recent applications in biosecurity and forensic sciences, and with potential to function as a field-based detection tool. Here we provide an overview of current research that applies LAMP to human and wildlife forensic science, including identification of ornamental wildlife parts, consumer products, and invasive species monitoring and biosecurity detection. We discuss the current scope of LAMP as applied to various wildlife crime scenarios and biosecurity checkpoint monitoring, highlight the specificity, sensitivity, and robustness for these applications, and review the potential utility of LAMP for rapid field-based detection within the IWT. Based on our assessment of the literature we recommend broader interest, research, and investment in LAMP as an appropriate field-based species detection method for a wide range of environmental biosecurity scenarios.
Publisher: Pensoft Publishers
Date: 24-02-2023
DOI: 10.3897/NEOBIOTA.82.97998
Abstract: Environmental biosecurity risks associated with the transnational wildlife trade include the loss of bio ersity, threats to public health, and the proliferation of invasive alien species. To assist enforcement agencies in identifying species either intentionally (trafficked) or unintentionally (stowaway) entrained in the trade-chain pathway, rapid forensic techniques are needed to enable their detection from DNA s les when physical identification is not possible. Loop Mediated Isothermal Amplification (LAMP) is an emerging technique, with recent applications in biosecurity and forensic sciences, which has potential to function as a field-based detection tool. Here we provide an overview of current research that applies LAMP to environmental biosecurity, including identification of ornamental wildlife parts, consumer products, and invasive species monitoring and biosecurity detection. We discuss the current scope of LAMP as applied to various wildlife trade scenarios and biosecurity checkpoint monitoring, highlight the specificity, sensitivity, and robustness for these applications, and review the potential utility of LAMP for rapid field-based detection at biosecurity checkpoints. Based on our assessment of the literature we recommend broader interest, research uptake, and investment in LAMP as an appropriate field-based species detection method for a wide range of environmental biosecurity scenarios.
No related grants have been discovered for Nathan Deliveyne.