David H Gent

Overview

Explore the profile of David H Gent including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 69

Citations 236

Followers 0

Related Specialties

Biology

General Medicine

Genetics

Top 10 Co-Authors

Howard F Schwartz

Sarah J Pethybridge

Frank S Hay

Walter F Mahaffee

Sierra N Wolfenbarger

Megan C Twomey

Briana J Claassen

Joanna L Woods

Mark E Nelson

Gary G Grove

Published In

Plant Dis

Phytopathology

Annu Rev Phytopathol

PeerJ

PLoS One

Affiliations

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Recent Articles

What Explains Hop Growers' Fungicide Use Intensity and Management Costs in Response to Powdery Mildew?

Hwang J, Bhattacharyya S, Chatterjee S, Marsh T, Pedro J, Gent D

Phytopathology . 2024 Aug; 114(10):2287-2299. PMID: 39120962

Methods for causal inference from observational data are common in human disease epidemiology and social sciences but are used relatively little in plant pathology. We draw upon an extensive data...

Identifying highly connected sites for risk-based surveillance and control of cucurbit downy mildew in the eastern United States

Ojwang A, Lloyd A, Bhattacharyya S, Chatterjee S, Gent D, Ojiambo P

PeerJ . 2024 Jul; 12:e17649. PMID: 39056053

Objective: Surveillance is critical for the rapid implementation of control measures for diseases caused by aerially dispersed plant pathogens, but such programs can be resource-intensive, especially for epidemics caused by...

Free-Riding in Plant Health: A Social-Ecological Systems Approach to Collective Action

Garcia-Figuera S, Lowder S, Lubell M, Mahaffee W, McRoberts N, Gent D

Annu Rev Phytopathol . 2024 May; 62(1):357-384. PMID: 38724018

Plant disease epidemics often transcend land management boundaries, creating a collective-action problem where a group must cooperate in a common effort to maximize individual and group benefits. Drawing upon the...

Detection of in Air Samples by Quantitative PCR

Gent D, Adair N, Hatlen R, Miles T, Richardson B, Rivedal H, et al.

Plant Dis . 2024 May; 108(9):2820-2829. PMID: 38715156

Detection and quantification of pathogen propagules in the air or other environmental samples is facilitated by culture-independent assays. We developed a quantitative PCR assay for the hop powdery mildew fungus,...

Identification of quantitative trait loci associated with R1-mediated resistance to powdery mildew and sex determination in hop (Humulus lupulus L.)

Havill J, Richardson B, Rohwer C, Gent D, Henning J, Muehlbauer G

Theor Appl Genet . 2023 Jun; 136(7):154. PMID: 37318664

Two QTL were identified using linkage mapping approaches, one on hop linkage group 3 (qHl_Chr3.PMR1) associated with powdery mildew resistance and a second on linkage group 10 (cqHl_ChrX.SDR1) associated with...

Evolution of the Genetic Structure of the Population During Development of Succinate Dehydrogenase Inhibitor Resistance

Pearce T, Scott J, Wilson C, Gent D

Phytopathology . 2023 May; 113(10):1946-1958. PMID: 37129263

Emergence of pathogens with decreased sensitivity to succinate dehydrogenase inhibitor fungicides is a global agronomical issue. Analysis of isolates ( = 173), which cause tan spot of pyrethrum (), collected...

Impact of Infection Timing and Autumnal Fungicide Applications on Perennation of and Severity of Hop Downy Mildew

Richardson B, Gent D

Plant Dis . 2023 Apr; 107(11):3430-3436. PMID: 37079010

, causal agent of hop downy mildew, is known to survive winter as systemic mycelium in the crown and developing buds of hop (). Field studies were conducted over three...

A Quantitative PCR Assay for Detection and Quantification of

Thomas W, Borland T, Bergl D, Claassen B, Flodquist T, Montgomery A, et al.

Plant Dis . 2022 Apr; 106(10):2601-2606. PMID: 35486600

is an ascomycete that has been isolated from a broad range of plant hosts, including hop ( L.), where it acts as a causal agent of Fusarium canker, a disease...

Temperature Influences on Powdery Mildew Susceptibility and Development in the Hop Cultivar Cascade

Gent D, Claassen B, Wiseman M, Wolfenbarger S

Plant Dis . 2022 Jan; 106(6):1681-1689. PMID: 34978868

The hop cultivar 'Cascade' possesses partial resistance to powdery mildew () that can be overcome by recently emerged, virulent isolates of the fungus. Given that hop is a long-lived perennial...

10.

Fungicide Physical Mode of Action: Impacts on Suppression of Hop Powdery Mildew

Claassen B, Wolfenbarger S, Gent D

Plant Dis . 2021 Nov; 106(4):1244-1252. PMID: 34818909

Understanding of the physical mode of action of fungicides allows more efficient and effective application and can increase disease control. Greenhouse and field studies were conducted to explore the preinfection...