American Floral Endowment - Integrating Control of Botrytis and Powdery Mildew in a Greenhouse Crop Progress Report

Integrating Control of Botrytis and Powdery Mildew in a Greenhouse Crop Progress Report –December 1994

Date 12/19/94

Title of Project Integrating Control of Botrytis and Powdery Mildew in a Greenhouse Crop

Institution where work is being conducted Michigan State, Cornell, Texas A&M

Amount of Endowment Grant $ 30,000
Covering Period 1/1/94 to 12/31/94

Anticipated Date of Project Completion/Final Report 12/31/95

Individual(s) Conducting Project:

(List Project Leader First)

Mary Hausbeck - Title Assistant Prof.

Telephone Number 517-355-4534

Margery Daughtrey - Title Senior Ext. Assoc.

Larry Barnes - Title Associate Prof.

Integrating Control of Botrytis and Powdery Mildew in a Greenhouse Crop

M. Hausbeck, M. Daughtrey, and L. Barnes

Michigan State University, Cornell University, and Texas A&M University

Progress Report to the American Floral Endowment, 12/19/94

A. Project Objectives:: Poinsettia growers are in the unique position of managing

a “new” disease called powdery mildew (PM) along with longtime nemesis of

poinsettia (Botrytis blight). The following objectives have been defined:

1. Develop a scouting program for management of PM and Botrytis blight.

PROGRESS TO DATE - A scouting program was implemented in a commercial

greenhouse range for the detection of Botrytis blight. Plants being grown for

retail sale were scouted weekly. One out of every 30 plants was observed.

Plants were selected at random using a zig-zag pattern between benches. The

bottom leaves and senescent leaves that had dropped into the pot were observed.

If sporulating Botrytis was discovered, plants were flagged and infected leaves

were removed and placed in plastic bags to prevent further spread of the fungus.

Typically, on each infected plant, one senescent leaf that had fallen onto the

soil surface had sporulating Botrytis present. For our research purposes, the

cultivars where Botrytis was detected were scouted again at a 1:10 ratio to

better determine the incidence of disease. Fungicide applications were based on

weekly scouting results. Greenhouse environmental conditions including

temperature, relative humidity, and leaf wetness were monitored. This program

prompted one application of Termil whereas typically the grower would have

applied a minimum of 4 weekly applications. There was no loss in plant quality

as a result of increased disease due to the reduced applications of fungicide.

2. Develop an effective fungicide spray program for PM and Botrytis blight.

PROGRESS TO DATE - Key attributes include: safety to poinsettia leaves and

bracts, ability to prevent infection, ability to eradicate a pre-existing

infection, and a long treatment interval. We’re also looking for chemicals that

suppress PM fungus sporulation, since blocking spore production prevents the

spread of an epidemic.

In our studies, powdery mildew built up rapidly on untreated poinsettias.

Phyton 27 and Terraguard, both labeled for application to poinsettias and for PM

control, were effective in our trials. Chipco 26019 was also effective; it is

labeled for use on poinsettias, but not for powdery mildew control. Strike and

the numbered pesticides MYX4020, UBI40771 EXPI0307A and EXP10452A may be

beneficial in managing PM, but are not currently labeled for poinsettia use. One

additional active ingredient, thiophanate methyl (found in Domain, Cleary’s 3336

and Zyban) is effective against PM on poinsettia.

Weekly treatments with Phyton 27, the insecticidal soap MYX 4020, Phyton

27 and MYX 4020 alternated, or the experimental UB14077 gave strong mildew

suppression: on average, fewer than two colonies developed per leaf. Powdery

mildew colonies were first observed October 12 on control plants, leaves. The

number of colonies in untreated checks tripled between October 12 and December

23. The MYX 4020 treatment occasionally caused injury to leaves.

All of the post-infection treatments gave significant disease suppression,

although none entirely eliminated PM colony development on bracts. In additional

trials in New York and Michigan, biweekly Terraguard post-infection treatments

also suppressed disease. Strike and the experimentals EXP10452A and 10307A

suppressed sporulation after a single fungicide application. Chipco 26019

suppressed sporulation only after two applications; however, Chipco 26019’s

ability to suppress PM is exciting, since this material also control Botrytis.

Residue was noted on bracts in all treatments. Some minor leaf or bract necrosis

was apparent in plants treated with the higher rate of Chipco 26019 and

EXP10452A, but the lower rates tested were just as effective against PM as the

higher, injurious rates.

Both Strike and Terraguard applied biweekly markedly reduced the PM

colonization on leaves. By December 23, Strike and Terraguard treated plants

showed almost no detectable mildew. An assessment of bract infection on February

3, seven weeks after the last treatment showed impressive suppression of colony

development on bracts. This extended period of bract protection is encouraging,

since in the absence of fungal suppression, PM will continue to develop.

Fungicides for Powdery Mildew On Poinsettias

Margery Daughtrey and Mary K. Hausbeck

Fungicides - they’re invaluabletools to manage powdery mildew when they’re used in combination with monitoring, roguing diseased plants and manipulating the environment. If growers are overly reliant on one or just a few active ingredients, powdery mildew fungi can develop resistance. Because of this long-range threat, the ideal solution would be to increase the diversity of fungicides registered for powdery mildew control.: How effective are fungicides - registered and not registered - in
Research Findings: In our studies powdery mildew; Strike and the numbered pesticides

Fungicides Effective Against Powdery
Mildew on Poinsettia

Trade name	Common name	Rate(s) tested	Spray interval
*Phyton 27	coppersulfate	13oz/100gal	7-day
21.36FC	– pentahydrate	50oz/100gal	7-day

*Chipco 26019	iprodione	16oz/100gal	14-day
50WG		32oz/100gal	14-day

*Domain 46.2F	thiophanate-methyl	10oz/100gal	7-day

Strike 25 DF	triadimefon	2oz/100gal	14-day

*Terraguard 50W	triflumizole	4oz/100gal	14-day
		8oz/100gal	14-day

*Materials not registered as pesticides were excluded from this table
Only products with an asterisk are Environmental Protection Agency-reg-
istered for use on poinsettias. Consult with your local cooperative exten-
sion service to determine what products are registered in your state.

All of the post-infection treatments

gave significant disease suppression,

although none entirely

eliminated mildew colony development

on bracts. In additional trials

in New York and Michigan, biweekly

Terraguard post-infection treatments

also suppressed disease.

Strike and the experimentats

EXP1 0452A and 10307A suppressed

sporulation after a single fungicide

application. Chipco 26019 suppressed sporulation only offer two

applications, however, Chipco

26019’s ability to suppress powdery

mildew is exciting, since this material also controls Botrytis, another

important poinsettia pathogen.

Residue was noted on bracts in all

treatments. Some minor leaf or

bract necrosis was apparent In

plants treated with the higher rate

of Chipco 26019 and EXP10452A,

but the lower rates tested were just

as effective against mildew as the

higher, injurious rates.

This study was conducted at

Michigan State University. Powdery

mildew conidia were supplied

once, on October 29. Fungicides

were applied until runoff on

November 9 and 23. Plants were

rated on a scale of 0 to 10 (0=no

bract infection; the rating of 10 was

assigned to plants with more than

five bracts infected and three or

more of the bracts nearly covered

with powdery mildew sporulation).

The experiment was replicated six

times using one Freedom poinsettia

for each treatment in a completely

randomized design.

Both Strike and Terraguard

applied biweekly markedly

reduced the mildew colonization

on leaves. By December 23, Strike

and Terraguard treated plants

showed almost no detectable

mildew. An assessment of bract

Infection on February 3, seven

weeks after the last treatment

(data not shown), showed impressive

suppression of colony development

on bracts. This extended period

of bract protection is encouraging,

since in the absence of fungal

suppression, powdery mildew will

continue to develop on bracts in a

retail or home setting.

Studies were conducted at

Cornell University’s Long Island

Horticultural Research Lab.

Powdery mildew conidia were present

continuously beginning

September 16. On September 8,

and weekly or biweekly thereafter,

fungicides were applied until

runoff. Powdery mildew colonles

were counted on the upper three

leaf pairs of each poinsettia plant.

The experiment was replicated five

times using three V-14 Glory poinsettias

for each treatment in a

completely randomized design.

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