Targeting Fungicide Inputs According to Need

Overview

Journal Annu Rev Phytopathol

Publisher Annual Reviews

Specialty Biology

Date 2017 May 20

PMID 28525306

Citations 13

Authors

Lise N Jorgensen

F Van den Bosch

R P Oliver

T M Heick

N D Paveley

Affiliations

Soon will be listed here.

Abstract

Fungicides should be used to the extent required to minimize economic costs of disease in a given field in a given season. The maximum number of treatments and maximum dose per treatment are set by fungicide manufacturers and regulators at a level that provides effective control under high disease pressure. Lower doses are economically optimal under low or moderate disease pressure, or where other control measures such as resistant cultivars constrain epidemics. Farmers in many countries often apply reduced doses, although they may still apply higher doses than the optimum to insure against losses in high disease seasons. Evidence supports reducing the number of treatments and reducing the applied dose to slow the evolution of fungicide resistance. The continuing research challenge is to improve prediction of future disease damage and account for the combined effect of integrated control measures to estimate the optimum number of treatments and the optimum dose needed to minimize economic costs. The theory for optimizing dose is well developed but requires translation into decision tools because the current basis for farmers' dose decisions is unclear.

Citing Articles

Stacking beneficial haplotypes from the Vavilov wheat collection to accelerate breeding for multiple disease resistance.

Tong J, Tarekegn Z, Jambuthenne D, Alahmad S, Periyannan S, Hickey L Theor Appl Genet. 2024; 137(12):274.

PMID: 39570410 DOI: 10.1007/s00122-024-04784-w.

Impact of pre-harvest fungicide application on the storage performance of tomato fruits.

Lan Z, Huang J, Akutse K, Lin Y PLoS One. 2024; 19(8):e0308670.

PMID: 39116056 PMC: 11309479. DOI: 10.1371/journal.pone.0308670.

Genome-wide atlas of rust resistance loci in wheat.

Tong J, Zhao C, Liu D, Jambuthenne D, Sun M, Dinglasan E Theor Appl Genet. 2024; 137(8):179.

PMID: 38980436 PMC: 11233289. DOI: 10.1007/s00122-024-04689-8.

Coupling machine learning and epidemiological modelling to characterise optimal fungicide doses when fungicide resistance is partial or quantitative.

Taylor N, Cunniffe N J R Soc Interface. 2023; 20(201):20220685.

PMID: 37073520 PMC: 10113818. DOI: 10.1098/rsif.2022.0685.

Shifting sensitivity of septoria tritici blotch compromises field performance and yield of main fungicides in Europe.

Jorgensen L, Matzen N, Heick T, ODriscoll A, Clark B, Waite K Front Plant Sci. 2022; 13:1060428.

PMID: 36483948 PMC: 9723467. DOI: 10.3389/fpls.2022.1060428.