Post on 22-May-2020
transcript
Managing Insect Pests in Organic Production Systems
Dr. Ken Fry
Olds College
Alberta Farm Fresh Local Food Short Course 2012
Red Deer, Alberta
Outline:
Ecology
Beneficial Insects
IPM
Monitoring
Prediction
Overview of Management Methods
Recordkeeping
Resources
K. Fry
Insect Abundance & Diversity
1,400,000 distinct species described
On all continents, in all habitats
Both beneficial and harmful
All Species
Fish 50%
Mammals 9%
Birds 20%
Herp’s 15%
Amphib’s 6%
note: 9% of 4% = 0.36%
Verts 4% Other 18%
Arthropods 75%
INDIVIDUAL
COMMUNITY
POPULATION
ECOREGION
ECOSYSTEM
BIOSPHERE
What Roles do Insects Play?
Pollinators
Decomposers/Recyclers
Predators/Parasitoids
Herbivores
Habitat Diversity
Spatial Diversity
Horizontal Diversity
» No monoculture
Vertical Diversity
» Herbs, forbs, shrubs, trees
Biodiversity
Alternate hosts
Refugia
Temporal Diversity
Flowering plants all season long
Beneficial Insect Requirements
Alternate host/prey
Shelter Moderated microclimates
In-season refuges
Overwintering sites
Nesting sites
Food Nectar
Pollen
Access to clean water ponds
bird baths
ditches
Predators & Parasitoids Ground Beetles
Carabidae
In soil & on ground
Rove Beetles
Staphylinidae
In soil & on ground
Lady Beetles
Coccinellidae
Soft-bodied insects
Soldier Bug
Pentatomidae
Caterpillars, grubs
Damsel Bug
Phymatidae
Caterpillars, grubs
Ambush Bug
Phymatidae
In flowers
Pirate Bug
Anthocoridae
Small caterpillars, thrips
Big-eyed bug
Geocoridae
Small insects
Flower Fly
Syrphidae
Aphids
Aphidoletes
Cecidomyiidae
Aphids, mites
Feltiella
Cecidomyiidae
Mites
Lacewings
Chrysopidae, Hemerobiidae
Soft-bodied insects
Predator Mites
Phytoseiidae
Spider mites
Predator Thrips
Aeolothrips
Thrips
Yellow Jacket Wasps
Vespidae
Caterpillars, grubs
Spiders
Daddy Long Legs
Parasitoids
Pathogens
Viruses Fungi Nematodes
Conserving Beneficial Insects
Conservation
Preserving existing natural beneficial insects
Reduce or eliminate pesticide use
Refine pesticide application methods and timing
Provide necessities for beneficial insects
» Overwintering sites
» Summer food sources
» Alternate hosts/prey
Augmentation of Beneficial Insects Supplementing already present beneficial
insects
Inoculate
Introduce/reintroduce natural enemies
Inundate
Repeated mass introductions
Commercially available beneficials insects
Impact of Management Practices
Plant health
Healthy plants fight back
Too much fertiliser benefits pests
Scheduling of pruning
Spring clean-up, fall preparation
Sanitation
Dead-heading plants, removing dropped fruit
Management Methods
• Cultural – plant health
– sanitation
– environment
• Physical – trapping
– pheromones
• Biological – predators – parasitoids – pathogens
• Chemical – spot sprays – thresholds
K. Fry K. Fry
Indicator plants
WEA arrives:
end of wild rose bloom
2 wks after chokecherry
3 wks after lilac first bloom
1 month after saskatoon 1st bloom
0
200
400
600
800
1000
1200
15-A
pr
22-A
pr
29-A
pr
6-May
13-M
ay
20-M
ay
27-M
ay
3-Ju
n
10-J
un
17-J
un
24-J
un
1-Ju
l
8-Ju
l
15-J
ul
22-J
ul
Northern Bedstraw
Saskatoon WEA
Date
y = -63x + 126237 R² = 0.8512
y = -68.245x + 136480 R² = 0.8942
y = -67.2x + 134824 R² = 0.8442
y = -2x + 4159 R² = 0.129
29-May
03-Jun
08-Jun
13-Jun
18-Jun
23-Jun
0
100
200
300
400
500
600
1996 1997 1998 1999 2000
Arr
ival of
WEA
Degr
ee-Day A
ccum
ulation
s
Year
5 degrees
10 degrees
2 degrees
WEA Arrival
Woolly Elm Aphid Arrival at Saskatoon
Degree-Day Model
12.4°C is minimum threshold temp.
combine daily max and min and subtract threshold temp.
= degree days accumulated that day
35-40 degree days
start from April 1
temperature must be taken at the canopy
time to start scouting for nymphs
Lygus Bug in Strawberries
Conclusions Neoseiulus fallacis is effective at reducing Pacific
spider mite densities in black currant orchards in central Alberta,
The predator should be released early in the growing season (May-June),
The predator should be released at a rate of a minimum of 1000 predators per 50 row metres
Feltiella acarisuga is ineffective at reducing Pacific spider mite densities in black currant orchards when the predator is released at a rate of 250 per 50 metres of row.
Orchard Management Practices
Drainage
Air
Water
Shelterbelt
Insect/Disease Refugia
Block Immigration
K. Fry
Mulch
• Grass
– Acts as refugia for beneficial insects
• Plastic
– Reduces vertebrate problems
• Organic
– stratification
Miscellaneous Management Practices
Intercropping
Economic consideration
Beneficial insect community
Green manure
Different pest complex
Neighbouring crops/plants
Chemical drift
Source of insects/disease
Effect of N fertilisation
High nitrogen benefits aphids
Healthy Plants Have Fewer Pest Problems
Disease Management
Warm moist conditions best for disease development
Disease infects new leaves
Hardened older leaves more resistant to infection
Spore load from previous year may indicate potential disease pressure in following year
Disease Management
Plant resistant cultivars
Use drip irrigation
Remove suckers
Aeration = air flow to reduce humidity
Protection of early season foliage = ↓ in fruit infection
Records Designated Scout
Pest Occurrence
• Spray Records
• Sentinel Plants
Review Records
• Track populations • Track management
effectiveness
• Common hot spots • Year-year trends
Organic Vegetable Pest Management
Crop Rotation of >3 years
>500m
Diversified plot layout
<10m2
Quilt
Refugia/hedgerows
Beneficial insects
Trap/Repellent Rows
Garlic, chives, marigolds, borage for aphids
Rosemary for imported cabbageworm
Allow radishes to flower for leaf beetles
General Tactics cont.
Sanitation
Weeds
Debris
Spacing from shelterbelts
Overwintering of pests
Space plantings
disease
root maggot density
Expect a lower yield potential
Specific Tactics
Delay seeding to avoid flea beetles
Feed on seedlings and cotyledons
Early seeding using high tunnels
Trap plants to lure pests
Early flowering, early emerging
Floating row covers
Flea beetles, root maggots, imported cabbage worms
Hay or straw mulch around potatoes in spring recruits spiders
Reduces CPB
Slugs attracted but use dried quack grass
Specific Tactics cont.
Plough under trap strips
Cultivate plots in early spring or late fall to expose cutworm larvae/pupae
Spot treat with organically-certified pesticides
Heritage varieties
Resistance genes still present
Mader, E., et al. 2011. Attracting Native Pollinators
Storey Publishing,
www.Xerces.org
$30.00
Flint, M.L. 1998. Natural Enemies Handbook. The Illustrated Guide to Biological Pest Control.
University of California Division of Agriculture and Natural Resources: Publication 3386
http://anrcatalog.ucdavis.edu/InOrder/Shop/ItemDetails.asp?ItemNo=3386H
Garden Insects of North America Cranshaw, W. 2004. Princeton
University Press.656pp.
Insects: Their Natural History and Diversity Marshall, S.A. 2006. Firefly
Books. 718pp.
Diseases & Pests of Vegetable Crops in Canada
– Howard, R.J. et al. 1994, $65.00
– http://esc-sec.org/disease.htm
Garden Bugs of Alberta
Fry, K. et al. 2008.
Lone Pine Publishing
$21.95
Web Resources
Michigan State University – Dr. Doug Landis
http://nativeplants.msu.edu/
Plant Database
http://www.wildflower.org/plants/
Prairie Plantwatch http://plantwatch.fanweb.ca/
Plant Phenology http://neoninc.org/budburst/
Web Resources, cont.
Canada Organic List http://www.tpsgc-pwgsc.gc.ca/ongc-cgsb/programme-program/norms-
standards/internet/bio-org/permises-permitted-eng.html
OMRI List of Organic Products http://www.omri.org/OMRI_products_list.php
National Organic Program (U.S.) List of Organic Products http://www.ams.usda.gov/nop/NOP/standards/ListReg.html
Web Resources for Biological Control Applied Bionomics
http://www.appliedbionomics.com/
Becker Underwood http://www.beckerunderwood.com/products/_nematodes.asp
BioBest http://www.biobest.be/
Biological Control Information Centre http://cipm.ncsu.edu/ent/biocontrol/
Guide to Biological Control http://cipm.ncsu.edu/ent/biocontrol/
Nematodes http://www.oardc.ohio-state.edu/nematodes/
Koppert http://www.koppert.nl/e005.shtml
List of Suppliers http://www.cdpr.ca.gov/docs/ipminov/bensuppl.htm