Agriculture is always the most
sustainable when the widest possible range of production tools can be used
(click on “Issues That Concern Us All”
for information about sustainability.) Over the years we have learned how
to incorporate individual management tools into a comprehensive management
system that requires the understanding and regard for interactions among
the various components. This is an adaptive system that is responsive to
changing circumstances. The result is an Integrated Production Management
(IPM) system that we feel is even more comprehensive than the Integrated
Pest Management practices generally associated with this acronym.
Cultural
management practices are the most basic and important tools in our IPM
tool chest. We are ever mindful that sustainable agricultural systems
must complement rather than exploit natural ecological systems.
I.
Cultural Consideration
A. Varietal
resistance to pests
B.
Site selection and field layout
a. Use
prevailing wind direction for fast foliage dry down
b. Use
natural topographic features for good surface drainage
c. Use slope
and sun exposure to maximize crop response
d. Use
existing (or establish) windbreaks to reduce soil loss and wind
stress
e. Avoid
excessive slope to reduce soil erosion and nutrient loss
f. Avoid
soils with poor nutrient attenuation (sandy, shallow, high ground water)
C.
Management practices
a. Use
shallow cultivation for weed control
b. Time
overhead irrigation to avoid long periods of leaf wetness
c. Use
organic mulch to:
1. Reduce
raindrop impact on bare soil
2. Reduce
spread of soil borne foliar and fruit diseases
3. Reduce
soil temperature
4.
Conserve moisture
5.
Retard weed germination
6.
Provide winter protection
d. Add compost as a soil conditioner
e. Add soil
nutrients based on soil nutrient testing
f. Use of
leaf nutrient analysis
g. Formulate
a strategy to avoid soil compaction
1. Minimize
trips through field
2. Use
lightest equipment with widest tires
3. Avoid
entry during wet periods
4. Use
mechanical sub-soiler
h.
Incorporate green manure crops
i. Rogue
diseased plants
j. Prune and
destroy diseased tissue (trees)
k. Mow
surrounding areas to reduce source of weed seeds
l. Practice
crop rotation
1. Rotate
with dissimilar crops to break the pathogen cycle
2. Rotate with legumes to fix nitrogen and increase fertility
3.
Rotate
with cover crops that have allelopathic properties
Natural
biological control organisms range from soil bacteria to mammals. Control
methods include competition, parasitism, allelopathic effects, toxic
releases, micro-environmental modification and predatiousness.
II. Natural Biological Control Considerations
A.
Identify pest organisms
B.
Identify Natural Control Organisms (NCO)
C.
Identify the environmental needs of NCO’s
a.
Habitat requirements
b.
Food sources
c.
Life cycles
d.
Vulnerability to inorganic compounds (pesticide groups)
D.
Environmental enhancement
a.
Provide cover
b.
Modify mechanical practices that damage habitat
c.
Provide (alternate) food sources
d.
Adjust cultural practices
e.
Coordinate other practices with NCO life cycle
f.
Avoid and/or time pesticide intervention to protect NCO’s
g.
Provide alternative habitat (e.g. nesting sites for birds)
Checking our fields
on a continuous basis for pest problems is a critical part of IPM. It is
important to identify problems early. Damage threshold is when actual
damage starts to show up. Action threshold is when damage becomes sever
enough that pesticide intervention would be considered to maintain crop
yield and/or quality. In our management system, the plants’ natural
immune response and NCO’s, usually keep pest damage below the action
threshold.
III.
Threshold Considerations
A.
Monitor pest types and numbers
B.
Monitor pest distribution
C.
Monitor conditions favorable for pest outbreak
D.
Monitor the presence of control organisms
E.
Use established action threshold for intervention (depending on
the status of Natural Control Organisms)
F.
Use experience and judgment
G.
Use chemical intervention only when the action threshold has
been reached (for insects and weeds)
H.
Intervene for fungal diseases based on point C (above)
IV. Biological Intervention
A. Consider
importing biological agents native to the area to enhance NCO’s
B. Avoid
introducing new exotic control organisms that:
a. Probably
not survive long enough to be effective
b. Could
have an unanticipated negative affect on the environment
V. Chemical Pesticide Intervention
A. Used
as the last line of defense against pests
B.
Used only when economic threshold levels have been reached
or are imminent (in case of fungal diseases)
C.
Material selection based on:
a.
Least impact on natural NCO’s and pollinators
b.
Least residue concerns
c.
Least persistence in the environment
d.
Least potential for leaching and ground water contamination
e.
The most targeted to the pest
f.
Efficacy to control the target pest
g.
Least toxic to handle
h.
Availability and cost effectiveness
D.
To be applied as a spot treatment if possible
E.
To be applied at the lowest effective rate
F.
Timed to avoid contact with fruit
G.
Discontinued well in advance of harvest
Summary
Healthy plants
can tolerate some degree of insect and disease pressure before fruit
quality and yield are affected. In fact, a certain amount of stress is
required to activate a plants’ natural immune response. Recent research
suggests that some level of disease and insect pressure is necessary for
fruits and vegetables to produce optimum levels of phenolic metabolites
that platy critical roles in human health due to their potent antioxidant
activity and anti-cancer properties.
A recent article in the Journal of Agriculture and Food
Chemistry (VOL. 51, No. 5, 2003), found that these important
nutraceutical compounds were “highest in crops grown by sustainable (IPM)
agricultural methods”. This may reflect a needed balance between plant
nutrition and the requisite pathogenic pressures that lead to the optimum
synthesis of TP’s (total phenolics).
Habitat for one of our NCO's - we have approximately 50 nesting sites which are nearly 100% occupied by Blue birds and Tree Swallows that provide
natural insect control.
Non-Traditional Fruit Crop Research
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