of novel varroa mite control - pollinator.org · carl hayden bee research center *mark carroll....
TRANSCRIPT
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Development of novel Varroa mite control methods from attractants and arrestants
isolated from brood host volatiles
*Mark J. Carroll
USDA‐ARS Carl Hayden Bee Research Center, Tucson, AZ
Adrian Duehl and Peter Teal
USDA‐ARS CMAVE, Gainesville, FL* formerly of USDA‐ARS CMAVE and University of Florida
Department of Entomology
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Varroa
semiochemicals
(signaling chemical cues)
– a collaborative project
Carl Hayden Bee Research Center
*Mark Carroll
Tommy Deeby
Jill Barrow
Eli Beren
Nick Brown
and others to come …
CMAVE Chemistry Unit *Adrian Duehl
*Peter Teal
Steve Willms
Curtis Murphy
and others …
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mite moves to back of cell and stops
(arrestant
behavior)mites emerge with the new adult host
maternal mite feeds on brood, produces 1‐3 daughters
host emerges as adult bee host cell capped by worker bees
mites disperse to other adult bees
maternal mite encounters brood of various
ages on adult bee (phoretic) host
mite detects and invades capping brood cell
(attraction
behaviors)
Cell invasion behaviors – brood host acquisition
photos courtesy of USDA
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Cell invasion by phoretic mites A rapid, very infrequent, near‐contact event
• Female mite may take a week to locate an appropriate brood host
• Phoretic mite encounters hundreds of brood while on adult hosts
• Mite must be within ~7 mm of brood host for detection
• Cell invasion occurs in several seconds
• Finds appropriate host despite presence of similar non‐host broodphoto courtesy of Scott Bauer, USDA
radius of
detection
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Compare volatiles from host and non‐host brood
• ~ 120 volatiles from brood comb
• ~ 30 vary consistently with onset of cell capping
• phoretic mites respond to 2 compounds (CA and CB)
by moving off adult worker hosts
• CA and CB emissions are higher (up to 3x) in preferred hosts
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Observation frames
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Evaluate mite responses to host‐specific compounds
• mites detect CA and CB volatiles at high concentrations
(foreleg electrophysiology)
• mites are strongly attracted to both compounds at near
contact distances (~ 5 to 10 mm)
• mites show arrestant behaviors at high volatile levels
• free
roaming
mites are attracted to CA‐treated cells
• phoretic
mite
cell invasion is partially blocked by
flooding
the hive airspace with CA volatiles
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flooded airspacenormal airspace
Flooding –
disrupting behaviors by releasing enough synthetic semiochemicals to saturate chemoreceptors
The mite is overstimulated!
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Developing in‐hive trap/flooding technologies
1. Identify minor volatile components that act as synergists
‐
EthoVision behavioral choice tests (traps)
‐
observation frame flooding tests (flooding)
2. Create slow‐release formulations for sustained
flooding/attracticide activity over time‐
21/42 day release?
(formulation chemists)
3. Develop in‐hive deployment devices
‐
cheap and effective, but not disruptive to the bees
‐
devices bees tolerate (won’t destroy, avoid, or wall over)
4. Deployment ‐
field tests on phoretic mites inside full‐size colonies
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Looking for improvements in semiochemical activity
Provisional application for Varroa semiochemical patent granted August 2010 –
becomes final August
2011
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85% of selected mites now respond to brood odors (~30% normal observed response rate)
Selecting mites that consistently
respond to native brood odors in behavioral assays (Adrian Duehl)
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EthoVision bioassays ‐ Video analysis of mite responses (movements) to volatiles
mite tracks in user‐defined
arena & odor zones
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What are the odor sources for the major and
minor
volatile cues? Larvae, adult worker bees, food,
secretions, wastes, or hive components?
Are the volatile cues microbial
in origin?
Identifying the odor source(s) (GC and HPLC)
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Examining differences in volatile emissions between Varroa‐resistant and non‐resistant honey bees
Resistants
–
Russians, Africanized bees, local “non‐treated”
lines
Susceptibles
– island honey bees (pre‐invasion)
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photo courtesy of Scott Bauer, USDA
Increasing the margins in our favor A 2‐3x more attractive synthetic mix will probably outcompete brood
odors
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Increasing the margins in our favor A 2‐3x more attractive synthetic mix will probably outcompete brood
odors
photo courtesy of Scott Bauer, USDA
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August 2011
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Observation frames Fits inside the perimeter of any frame
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Examining differences in volatile emissions between the original host (Apis cerana) and Apis mellifera
Phoretic Varroa mites invade the cells of worker and drone brood
in Apis mellifera, but only drone brood in Apis cerana.
Why the difference (from a mechanistic
point of view)?
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vacuum line
(pull)air line
(push)
glass plate
Observation frames Collection and manipulation of headspace volatiles
a highly controlled push‐pull airflow system
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0
2
4
6
8
10
12
1 to 5 1 to 100 1 to 1000 1 to 10,000 Blank
EAG amplitud
e (‐mV)
odor concentration (in solution)
Mite forelegs respond only to high concentrations of CAForeleg electrophysiology (EAG‐like)(Adrian Duehl)
a
b bb
b
p<0.05, one‐way ANOVA
mite pit organs on forelegs
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Flooding the brood comb airspace with synthetic CA reduces
cell invasion by mites without disrupting normal colony functions
0
5
10
15
20
25
30
35
40
45
control flooded
% of recently
‐capped brood infested
observation frame airspace treatment
p=0.028, t‐test
capillary release
(supplementation)