Paul Neve
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Explore the profile of Paul Neve including associated specialties, affiliations and a list of published articles.
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44
Citations
753
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Recent Articles
1.
Wright J, Baker K, Barker T, Catchpole L, Durrant A, Fraser F, et al.
Sci Data
. 2024 Dec;
11(1):1368.
PMID: 39695199
Alopecurus aequalis is a winter annual or short-lived perennial bunchgrass which has in recent years emerged as the dominant agricultural weed of barley and wheat in certain regions of China...
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3.
Montgomery J, Morran S, MacGregor D, McElroy J, Neve P, Neto C, et al.
Genome Biol
. 2024 May;
25(1):139.
PMID: 38802856
Weeds are attractive models for basic and applied research due to their impacts on agricultural systems and capacity to swiftly adapt in response to anthropogenic selection pressures. Currently, a lack...
4.
Varah A, Ahodo K, Childs D, Comont D, Crook L, Freckleton R, et al.
Sci Rep
. 2024 Mar;
14(1):6201.
PMID: 38485959
Globally, pesticides improve crop yields but at great environmental cost, and their overuse has caused resistance. This incurs large financial and production losses but, despite this, very diversified farm management...
5.
Lowe C, Onkokesung N, Goldberg A, Beffa R, Neve P, Edwards R, et al.
Pest Manag Sci
. 2024 Feb;
80(6):2539-2551.
PMID: 38375975
Background: The evolution of non-target site resistance (NTSR) to herbicides leads to a significant reduction in herbicide control of agricultural weed species. Detecting NTSR in weed populations prior to herbicide...
6.
Comont D, Crook L, Hull R, Sievernich B, Kevis S, Neve P
Pest Manag Sci
. 2024 Feb;
80(7):3172-3181.
PMID: 38345468
Background: Cinmethylin is an inhibitor of plant fatty acid biosynthesis, with in-plant activity caused by its binding to fatty acid thioesterases (FATs). The recent registration of cinmethylin for pre-emergence herbicidal...
7.
Cai L, Comont D, MacGregor D, Lowe C, Beffa R, Neve P, et al.
New Phytol
. 2022 Dec;
237(5):1891-1907.
PMID: 36457293
Globally, weedy plants are a major constraint to sustainable crop production. Much of the success of weeds rests with their ability to rapidly adapt in the face of human-mediated management...
8.
Comont D, MacGregor D, Crook L, Hull R, Nguyen L, Freckleton R, et al.
Pest Manag Sci
. 2022 Apr;
78(7):3039-3050.
PMID: 35437938
Background: Unravelling the genetic architecture of non-target-site resistance (NTSR) traits in weed populations can inform questions about the inheritance, trade-offs and fitness costs associated with these traits. Classical quantitative genetics...
9.
Gaines T, Slavov G, Hughes D, Kupper A, Sparks C, Oliva J, et al.
Mol Ecol
. 2021 Oct;
30(21):5360-5372.
PMID: 34637174
The global invasion, and subsequent spread and evolution of weeds provides unique opportunities to address fundamental questions in evolutionary and invasion ecology. Amaranthus palmeri is a widespread glyphosate-resistant (GR) weed...
10.
Ravet K, Sparks C, Dixon A, Kupper A, Westra E, Pettinga D, et al.
Mol Ecol
. 2021 Oct;
30(21):5343-5359.
PMID: 34614274
Genomic-based epidemiology can provide insight into the origins and spread of herbicide resistance mechanisms in weeds. We used kochia (Bassia scoparia) populations resistant to the herbicide glyphosate from across western...