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Alexander M Piper
Alexander M Piper
Agriculture Victoria
Verified email at agriculture.vic.gov.au - Homepage
Title
Cited by
Cited by
Year
Prospects and challenges of implementing DNA metabarcoding for high-throughput insect surveillance
AM Piper, J Batovska, NOI Cogan, J Weiss, JP Cunningham, BC Rodoni, ...
GigaScience 8 (8), giz092, 2019
1822019
Two gut-associated yeasts in a tephritid fruit fly have contrasting effects on adult attraction and larval survival
AM Piper, K Farnier, T Linder, R Speight, JP Cunningham
Journal of chemical ecology 43, 891-901, 2017
492017
Developing a non-destructive metabarcoding protocol for detection of pest insects in bulk trap catches
J Batovska, AM Piper, I Valenzuela, JP Cunningham, MJ Blacket
Scientific Reports 11 (1), 7946, 2021
472021
Facilitating the adoption of high‐throughput sequencing technologies as a plant pest diagnostic test in laboratories: A step‐by‐step description
B Lebas, I Adams, M Al Rwahnih, S Baeyen, GJ Bilodeau, AG Blouin, ...
EPPO Bulletin 52 (2), 394-418, 2022
342022
Guidelines for the reliable use of high throughput sequencing technologies to detect plant pathogens and pests
S Massart, I Adams, M Al Rwahnih, S Baeyen, GJ Bilodeau, AG Blouin, ...
Peer Community Journal 2, 2022
342022
Propylene glycol and non-destructive DNA extractions enable preservation and isolation of insect and hosted bacterial DNA
F Martoni, E Nogarotto, AM Piper, R Mann, I Valenzuela, L Eow, L Rako, ...
Agriculture 11 (1), 77, 2021
242021
Disentangling bias for non-destructive insect metabarcoding
F Martoni, AM Piper, BC Rodoni, MJ Blacket
PeerJ 10, e12981, 2022
22*2022
Yeasts Influence Host Selection and Larval Fitness in Two Frugivorous Carpophilus Beetle Species
F Baig, K Farnier, AM Piper, R Speight, JP Cunningham
Journal of chemical ecology 46 (8), 675-687, 2020
172020
DNA Metabarcoding Enables High-Throughput Detection of Spotted Wing Drosophila (Drosophila suzukii) Within Unsorted Trap Catches
AM Piper, JP Cunningham, NOI Cogan, MJ Blacket
Frontiers in Ecology and Evolution 10, 822648, 2022
122022
Insect phylogeny structures the bacterial communities in the microbiome of psyllids (Hemiptera: Psylloidea) in Aotearoa New Zealand
F Martoni, SR Bulman, AM Piper, A Pitman, GS Taylor, KF Armstrong
Plos one 18 (5), e0285587, 2023
102023
Modular, multi‐barcode amplicon sequencing for improved species‐level detection of fungal phytopathogens: A case study of pipeline establishment targeting the Ophiostomatales
C Trollip, J Kaur, AM Piper, F Martoni, R Mann, Q Dinh, AJ Carnegie, ...
Environmental DNA 6 (1), e368, 2024
72024
Computational evaluation of DNA metabarcoding for universal diagnostics of invasive insect pests
AM Piper, NOI Cogan, JP Cunningham, MJ Blacket
BioRxiv, 2021.03. 16.435710, 2021
62021
Developing a non-destructive metabarcoding protocol for detection of pest insects in bulk trap catches. Sci. Rep. 11, 7946
J Batovska, AM Piper, I Valenzuela, JP Cunningham, MJ Blacket
52021
Non-destructive insect metabarcoding as a surveillance tool for the Australian grains industry: a first trial for the iMapPESTS smart trap
F Martoni, RL Smith, AM Piper, N Nancarrow, M Aftab, P Trebicki, ...
Metabarcoding and Metagenomics 7, e95650, 2023
32023
Development of a cost-effective, morphology-preserving method for DNA isolation from bulk invertebrate trap catches: Tephritid fruit flies as an exemplar
EV Fowler, ML Starkie, X Zhu, AM Piper, A Agarwal, L Rako, A Gardiner, ...
Plos one 18 (2), e0281759, 2023
22023
Non-destructive insect metabarcoding for surveillance and biosecurity in citrus orchards: recording the good, the bad and the psyllids
F Martoni, R Smith, AM Piper, J Lye, C Trollip, BC Rodoni, MJ Blacket
PeerJ 11, e15831, 2023
12023
High throughput screening of fungal phytopathogens caught in Australian forestry insect surveillance traps
C Trollip, AJ Carnegie, AM Piper, J Kaur, F Martoni, Q Dinh, D Smith, ...
Frontiers in Forests and Global Change 6, 1149755, 2023
12023
Genomic biosurveillance for insect pests
A Piper
La Trobe, 2021
12021
A novel diagnostic gene region for distinguishing between two pest fruit flies: Bactrocera tryoni (Froggatt) and Bactrocera neohumeralis (Hardy) (Diptera: Tephritidae)
ML Starkie, EV Fowler, AM Piper, X Zhu, P Wyatt, D Gopurenko, ...
Insect science 31 (4), 1285-1295, 2024
2024
Devices, compounds and methods for insect control
JP Cunningham, KRR Farnier, AM Piper, JA Henneken
US Patent App. 18/037,211, 2024
2024
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Articles 1–20