Botrytis Management in Cut Roses. Melissa Muñoz, James E. Faust & Guido Schnabel

Botrytis Management in Cut Roses Melissa Muñoz, James E. Faust & Guido Schnabel

Ph.D. Horticulture Floriculture Physiology Effects of environmental and cultural factors on the production of ornamental greenhouse crops Botrytis found on pansy flowers at a Florida nursery that was resistant to all of the main fungicides used to control Botrytis Ph.D. Plant pathology Integrated management of diseases Botrytis control in strawberries and blackberries Fungicide resistance mechanisms Decision-support models and smart-phone apps to reduce and better time pesticide applications

Context BBC news

The problem Botrytis cinerea: üubiquitous ü200 species plant hosts ünecrotrophic Roses: üreduction in the postharvest quality, leading to substantial economic loss by growers and wholesalers

The problem 400x 400x Ø Leaf wetness Ø 93% Relative humidity Ø 15-25ºC Optimum. 0ºC to 35.5ºC

Disease triangle Susceptible host Conducive environment Virulent pathogen

To evaluate weather conditions in commercial greenhouses and their relationship with Botrytis occurrence

Context SAS - Strawberry Advisory System: is a web site, and smarth-phone app that provides an easy way for strawberry growers in Florida to track and forecast risk levels for Botrytis and anthracnose fruit rot diseases. It also provides fungicide application recommendations and allows growers to receive alerts for selected weather stations via push notifications.

Installation of weather stations Solar radiation (W/m 2 ) Leaf wetness (min) Air temperature ( C) Relative humidity (%) Dew point ( C) Leaf temperature ( C) Soil temperature ( C) Electrical conductivity (ms/cm) Water content of soil media (%) Wind speed (m/s) Wind direction

Typical daily weather pattern Solar radiation (W/m 2 ) 500 400 300 200 100 0 Air temperature ( o C) 22.5 20.0 17.5 15.0 12.5 10.0 Relative humidity (%) 90 80 70 60 Leaf wetness (min/h) 50 60 50 40 30 20 10 0 6:00 7:00 8:00 9:00 10:00 11:00 12:00 13:00 14:00 15:00 16:00 17:00 18:00 Hour 19:00 20:00 21:00 22:00 23:00 0:00 1:00 2:00 3:00 4:00 5:00

BOTRYTIS RISK MODEL DEVELOPMENT

Month Date Botrytis infection risk Leaf wetness (h) Temperature ( o C) Infection risk (%) February 2/20/17 7.5 11.4 6.3 No February 2/21/17 0.0 16.9 1.4 No March 3/17/17 12.5 11.6 16.9 No April 4/15/17 12.5 11.3 15.9 No April 4/17/17 24.0 14.3 88.1 High May 5/29/17 11.5 11.6 14.2 No May 5/30/17 10.6 11.9 12.5 No Jun 6/9/17 19 14.3 67.7 Mid Jun 6/14/17 15.3 13.2 36.9 Low Jun 6/15/17 8.0 12.8 8.5 No Jun 6/16/17 24.0 15.4 91.5 High Jun 6/29/17 13.5 11.1 17.9 no Jun 6/30/17 17.8 13.2 51.8 Mid July 7/1/17 20.1 15.0 76.6 High July 7/15/17 14.5 11.7 24.5 No July 7/28/17 15.25 11.9 29 No August 8/17/17 14.5 11.7 24.9 No September 9/02/17 14.8 11.7 25.6 No September 9/03/17 24 12.2 76 High Risk

Predicted vs. real Botrytis incidence values Incidence (%) 100 90 80 70 60 50 40 30 20 10 0 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 Week Actual Botrytis Incidence Predicted Botrytis Incidence

The disease risk model has value and can become as part of an integrate management program of Botrytis Weather stations are a tool that may improve timing for fungicide applications

To evaluate Botrytis spores density in commercial greenhouses and their relation to cultural practices

Installation of spore traps

Counting spores process 100 x 400 x

Spores density

Spores density

Spores density

Cultural practices Harvesting Pinching Sweeping floors* Blowing (debris removal)* Manual debris removal Downy mildew removal Botrytis removal Dead stems pruning Dead stems removal Weeding Drenching Fungicide spray application Pesticide spray application Thermo-fogging Supplementary watering of beds PGRs application Cutting zone cleaning Plastic change Fertilizer containers change

The number and type of cultural practices have an effect on Botrytis spore density

To determine Botrytis severity in different rose tissues from commercial shipments

Assessing Botrytis Occurrence & Severity on Commercial Rose Shipments South American Study: One Farm 2 Greenhouses One Susceptible Variety: Orange Crush Six Shipments Geographical Study: Four Locations: Ecuador, Africa, Colombia; Guatemala or Mexico Four Shipments

Sample Collection and Processing Outer Petals Mid Petals Stems Inner Petals Ovary and Stamens Sepals Leaves

Botrytis occurrence in different plant tissue: South America Study Results: Stems Stamens & ovary Sepals 5.3% 7.9% 13.2% 73.7% Petals Petals are the most susceptible tissue

A significant portion of the infection occurs in tissues that are not exposed (Mid and inner petals, stamens and ovary) Botrytis occurrence in different plant tissue: South America Study Results: Stems Stamens & ovary 5.3% 13.2% Inner 13.2% Sepals 7.9% Mid 26.3% Outer 34.2% Petals

To assess fungicide resistance profiles in Botrytis isolates from commercial cut roses

Context Resistencia: refers to an acquired, heritable reduction in sensitivity of a fungus to a specific anti-fungal agent (or fungicide). (Fungicide resistance action committee): Group together the fungicides that are in risk of cross resistance development, because have a similar mode of action

Fungicide Resistance Profiles FUNGICIDE RESISTANCE PROFILES: 11 FUNGICIDES THAT BELONG TO 7 CHEMICAL CLASSES () Outer Petals Mid Petals Inner Petals Ovary and Stamens Sepals Stems Leaves South America Study 49 Single spore isolates Geographical Study 58 Single spore isolates Control 9: Cyprodinil 12: Fludioxonil 17: Fenhexamid 2: Iprodione 1: Thiophanate-methyl 19: Polyoxin D 7: Boscalid 7: Fluopyram 7: Penthiopyrad 7: Isofetamid 7: Pidiflumetophen

Fungicide Resistant Isolates: 6 Shipments (South America Study) Resistant Isolates (%) 100 80 60 40 20 0 1 2 9 Shipment 1 n=4 7 17 7 7 7 12 7 19 Resistant Isolates (%) 100 80 60 40 20 0 Shipment 2 n=11 1 2 9 7 17 7 7 7 12 7 19 Resistant Isolates (%) 100.0 80.0 60.0 40.0 20.0 0.0 Shipment 3 n=5 1 2 9 7 17 7 7 7 12 7 19 Resistant Isoates (%) 100 80 60 40 20 0 Shipment 4 n=13 1 2 9 7 17 7 7 7 12 7 19 Resistant Isolates (%) 100.0 80.0 60.0 40.0 20.0 0.0 Shipment 5 n=7 1 2 9 7 17 7 7 7 12 7 19 Resistant Isolates (%) 100.0 80.0 60.0 40.0 20.0 0.0 Shipment 6 n=9 1 2 9 7 17 7 7 7 12 7 19 Resistant Isolate Sensitive Isolate

Fungicide Resistant Isolates (South America Study) Resistant Isolates (%) 100 90 80 70 60 50 40 30 20 10 0 Fungicides applied in the last year Fluxapyroxad : 7 Pyrimethanil: 9 Famoxadone: 11 Azoxystrobin: 11 Propamocarb: 28 Fluopicolide: 43 Cymoxanil: 27 Tebuconazole: 3 Fluazinam: 29 Prochloraz: Multisite Captan: Multisite Iminoctadine: Multisite Zinc diethyldithiocarbamate: Protectant Resistant Isolate Sensitive Isolate

Fungicide Resistant Isolates (Geographical Study) Ecuador n=23 Guatemala n=4 Colombia n=4 Resistant isolates (%) 100 90 80 70 60 50 40 30 20 10 0 1 9 2 17 7 7 7: 12 7 7 19 Resistant isolates (%) 100 90 80 70 60 50 40 30 20 10 0 1 9 2 17 7 7 7: 12 7 7 19 Resistant isolates (%) 100 90 80 70 60 50 40 30 20 10 0 1 9 2 17 7 7 7: 12 7 7 19 Africa n=26 Mexico n=2 Resistant isolates (%) 100 90 80 70 60 50 40 30 20 10 0 1 9 2 17 7 7 7: 12 7 7 19 Resistant isolates(%) 100 90 80 70 60 50 40 30 20 10 0 1 9 2 17 7 7 7: 12 7 7 19 Aislamientos resistentes Aislamientos sensibles

Resistance: In some chemical classes, the resistance effect is conserved even when the fungicides are not used in the present but they were used before e.g. 1 Resistance to some fungicides can be decreased or disappear if the resistance has an effect on the fitness of the pathogen and no applications of the fungicide are done in a while e.g. 7- Boscalid on strawberries

Botrytis symptoms

Abiotic symptoms

Pink spots on petals are not Botrytis symptoms

Alternaria sp. 400x Aspergillus sp. Biotic Symptoms 400x Diplodia sp. 400x

ASSESS THE INITIAL SYMPTOMS FOR BOTRYTIS Incubate (high RH) 4 h Spore suspension Water 8 h 12 h

Symptom Development Incubate (high RH) 4h Incubation duration 8h 12h DAY 1 DAY 2 DAY 3 DAY 4 DAY 5 DAY 6 DAY 7 DAY 9

Latent Infections After 4 h of incubation (spores present on wet petals), roses display no symptoms. However, latent infection has occurred and sporulation will occur if the flowers are exposed to the proper conditions (high humidity). After >8 h of incubation, Botrytis symptoms appear on petals (beige/tan/discolored spots).

Comprehensive approach Susceptible host Conducive environment Virulent pathogen

Ca and Si content in rose tissue Ca (%) 2 1.8 1.6 1.4 1.2 1 0.8 0.6 0.4 0.2 0 Calcium content in different rose tissue Si (%) 0.4 0.35 0.3 0.25 0.2 0.15 0.1 0.05 0 Si content in different rose tissue Rose tissue Rose tissue

Acknowledgements Schnabel Lab: Mengjun Hu Madeline Dowling Martha Froelich Karen Bryson Linus Smith Brodie Cox Faust Lab: Katie Bennett Kelly Lewis Jiwoo Park

Questions? QUESTIONS? Muchas gracias!