Evaluating the efficacy of potential fungicide-adjuvant combinations for control of myrtle rust in New Zealand

Evaluating the efficacy of potential fungicide-adjuvant combinations for control of myrtle rust in New Zealand

Myrtle rust is a serious fungal disease caused by Austropuccinia psidii affecting a number of Myrtaceae species in New Zealand and elsewhere. Control with fungicides or biologicals provides a mechanism to reduce the build-up of inoculum in the short-term while other strategies are being developed or...

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Bibliographic Details
Published in:Journal of plant diseases and protection (2006) Vol. 128; no. 6; pp. 1501 - 1515
Main Authors: Adusei-Fosu, Kwasi, Rolando, Carol A., Richardson, Brian, van Leeuwen, Rebecca, Gaskin, Robyn, Bader, Martin K.-F., Pathan, Amin K.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-12-2021
Subjects:
Adjuvants
Austropuccinia psidii
Biomedical and Life Sciences
Forestry and Wood Technology
Fungicides
Inoculation
Life Sciences
Myrtaceae
Myrtle rust
Original Article
Plant Pathology
Plant Physiology
Plant Sciences
Skog och träteknik
Myrtaceae
Austropuccinia psidii
Myrtle rust
Adjuvants
Inoculation
Fungicides
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Summary:Myrtle rust is a serious fungal disease caused by Austropuccinia psidii affecting a number of Myrtaceae species in New Zealand and elsewhere. Control with fungicides or biologicals provides a mechanism to reduce the build-up of inoculum in the short-term while other strategies are being developed or deployed for long-term management. This study evaluated the efficacy of fungicides for control of myrtle rust under controlled conditions and identified adjuvants that would promote spreading of fungicidal active ingredients across the leaf surface. The spread of fungicide on detached M. excelsa leaves was assessed by applying three different adjuvants in combination with seven fungicides. Subsequently, M. excelsa plants were treated with three fungicides/mixes, (azoxystrobin + epoxiconazole, triademinol or a natural tea-extract) at a single rate followed by inoculation with A. psidii urediniospores on day 0, 7, 14 or 21 days after spraying. The response to infection in M. excelsa plants based on different inoculation timings at days 0, 7 and 21 significantly differed among fungicide treatments. The fungicide azoxystrobin + epoxiconazole was the most effective with infections significantly lower on the adaxial leaf surface than abaxial, despite good surface coverage of fungicide being achieved on both leaf surfaces. There were significant differences among fungicides based on the proportion of infected leaves on M. excelsa plants. Day 21 post-spray inoculation indicated a significant interaction between inoculation time and fungicide on leaf disease ratings. However, this was not the case at either 28 or 35 days post-inoculation. This research contributes to fungicide options for myrtle rust control in New Zealand.
ISSN:1861-3829
1861-3837
1861-3837
DOI:10.1007/s41348-021-00523-1