Crop Protection Lesson 5 - Insect Control Management PDF

Summary

This document is a lesson on crop protection, focusing on insect control management. It covers various aspects such as key terms, different modes of insect damage to plants, and classification of insects.

Full Transcript

07/10/2024

PRINCIPLES IN CROP
PROTECTION
LESSON 5

Strictly for SLSU use only

INSECT CONTROL
MANAGEMENT

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Key Terms
Economic Injury Level (EIL)
This is the smallest number of insects (amount of injury) that will
cause yield losses EQUAL to the insect management costs.

Economic Threshold Level (ETL)
This is the pest density at which management action should be
taken to prevent an increasing pest population from reaching the
economic injury level

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MODES OF DAMAGE
CAUSED BY INSECT

Modes of Damage caused by Insects
Insects Attacking Cultivated Plants
Plant injury through feeding
(Phytophagy)
Plant injury by oviposition (in fruits,
stems, leaves, twigs; terminal portion
dies or may cause fruit drop)
Vectors of diseases (transmission of
plant diseases from plant to plant)

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Modes of Damage caused by Insects
Insects Attacking Stored Products
Destruction by termites, powder post
beetles, carper ants
Damage on material made from
animal fibers (furs, clothing, blanket,
rugs, and upholstery)
Fabric damage by dermestid beetle
and clothes moth

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Modes of Damage caused by Insects
Insects Attacking Stored Food
Contamination from tunneling/ feeding
in food (meats, cheese, milk products,
flour, cereal, nuts, and fruits)
Decrease in quality and marketability

Modes of Damage caused by Insects
Insects Attacking Man and Animals
Annoyance caused by insects to man
and animals
Annoyance through secreted odors or
secretions
Annoyance to one’s eyes or ears

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Modes of Damage caused by Insects
Venomous Insects
Inject toxins to man and animals
causing irritation, swelling, pain and
sometimes paralysis
Venom from bees, wasps – swelling or
even anaphylactic shock or death
Venom from stinging hairs of saddle-
back caterpillars, tussock moth, etc. –
dermatitis/ urticaria

Modes of Damage caused by Insects
Parasitic Insects
May live inside bodies of humans or
animals as irritation, damages to tissues,
or even death
External parasites of birds and mammals
Irritation from bites of fleas, bed bugs,
and other biting insect
Infestation of larvae of botflies on nasal
passages of sheep, alimentary tracts of
horses, and damage on mucous
membrane

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Modes of Damage caused by Insects
Disease Transmission
Piercing-sucking insects serve as
vectors of diseases in plants,
animals, or humans
Mechanical transmission of
houseflies or blowflies feeding on fecal
matter and contaminating food fed by
man causing typhoid fever, cholera,
and dysentery

INSECT PEST
CLASSIFICATION

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Insect Pest Classification
A. Based on Origin
Endemic Pest
Native; local in origin
Exotic Pest
Introduced from outside the locality

Insect Pest Classification
B. Based on Population Dynamics
Key/ Major Pest
Always present in the field every
season with high population
Potential/ Minor Pest
Always found in the field at a low
population
Occasional/ Sporadic Pest
Usually strong fliers that can
migrate from one plant to another

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Insect Pest Classification
C. Based on Feeding Habits
Chewing
Sucking
Boring

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Insect Pest Classification
D. Based on Target Host/ Plant Parts
Phytophagous (Hervivorous)
Leaf feeders/ miners; fruit/ seeds
feeders; stem and root borers; sap
feeders; gall makers
Zoophagous/ Carnivorous
Parasites; Predators
Entomophagous
Saprophagous
Mycetophagous

Insect Pest Classification
E. Based on Range of Host
Monophagous
Have only one host
Oligophagous
Have only a few hosts
Polyphagous
Have more than one hosts

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History of
Insect Pests Control

History of Insect Pest Control
From the fossil record, we know that all major
taxa of biting flies and external parasites
already existed by the time Homo sapiens first
appeared on earth.

Phthirus and Pediculus, the two genera of lice
that feed on humans, have a host range that is
limited to primates (apes and monkeys).

But since our primitive ancestors were hunters
and gatherers, they probably found that insects
were more useful as food than they were
troublesome as pests.

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History of Insect Pest Control
Pest control tactics were mentioned
occasionally in writings of the ancient Chinese,
Sumerian, and Egyptian scholars.

Predatory ants, for example, were used in
China as early as 1200 B.C. to protect citrus
groves from caterpillars and wood boring
beetles.

Ancient Egyptians organized long lines of
human drovers to repel swarms of invading
locusts.

History of Insect Pest Control
There was very little progress in pest control
during the DARK AGES.

In a book entitled "Natural History", Ferrante
Imperato (1599) gave a prescription:

"... draw the image of a fly... on a copper plate during
the second half of the constellation of Pisces... then
bury it in the center of your house (during) the first half
of the constellation of Taurus."

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History of Insect Pest Control
With the RENAISSANCE, people began to view
insects less as a punishment from God and
more as members of a natural world that
could be studied and controlled.

Hand labor was used extensively in early pest
control, but cultural, physical, and chemical
practices also evolved

Franz Ernst Brückmann, a German physician
who lived in the early 1700's, designed the first
mechanical traps for various insects.

History of Insect Pest Control
Since the late 1800's, entomologists and chemists have made
outstanding progress in the technology of pest control.

In general, all of these tactics work in at least one of the following ways
They kill the pest directly -- usually by exposing it to lethal
substances or unsuitable environmental conditions.
They reduce the reproductive potential of a pest population --
often by modifying its environment (biotic or abiotic) or by restricting
its movement.
They modify the pest's behavior to make it less troublesome
(attract it, repel it, confuse it, exclude it, mislead it).

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History of Insect Pest Control
Most of the control tactics that are commonly
used today can be grouped into two broad
categories:

By definition, a natural control may be any
environmental factor that keeps a pest
population below its economic injury level.

Artificial controls, on the other hand, employ
products or processes of human origin to
modify a pest's distribution, behavior or
physiology.

History of Insect Pest Control
During the Greek and Roman Empires, the plant
derived chemicals were used sporadically (e.g.
pyrethrum, arsenic and sulfur).

In the latter half of the 19th century, more
sophisticated use of pesticides evolved; Paris
Green (arsenic and copper) – kills a spectrum of
insect pests.

The World War II brought with it an increasing use
of chemical control against arthropod pests and
plant diseases.

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History of Insect Pest Control
“Miracle pesticides” such as DDT (dichloro-
diphenyl-trichloroethane) were discovered in the
1940’s.

Organophosphates were also developed in
Germany , carbamates in Switzerland

The birth of modern herbicides, fungicides,
rodenticides and other pest control chemicals
followed, and still the search for the ultimate control
is still being done. Mindless use, was and still is,
the root of evils in the pesticide effects.

History of Insect Pest Control
The modern insecticides fallibility
was the development of resistance in
insects exposed to toxic materials
which led to:

Development of insect resistance
Revolution of a whole new spectrum
of arthropods whose prior
population have been small or
moderate
Environmental contamination, and
Killing of wildlife.

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History of Insect Pest Control
1946 - First report of insect resistance to DDT
(housefly in Sweden)

1950s, 1960s, and 1970s - Widespread
development of resistance to DDT and other
pesticides

1962 - Rachel Carson’s Silent Spring. (The
book led to a public outcry in the US for
environmentally safe approaches to pest
control)

1972 – Banning of DDT in United States

Insect Pest
Control Tactics

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Integrated Pest Management
Ecosystem-based strategy that focuses on long-term prevention of
pests or their damage through a combination of techniques such as
biological control, habitat manipulation, modification of cultural practices
and use of resistant varieties.

Integrated Pest Management Concepts:
1. Chemical control should be the last resort
2. Shift from “control” to “management”
3. Addition of the word Integrated
4. There are decision rules tat guide selection of control method
5. IPM Ecological Principles

Cultural Methods
Utilization of practices that are normally practiced growing a crop
to suppress plant pest population
Primary objected: to prevent pest damage, not the destruction
of an existing and damaging pest population

Requirement to utilize effectively: Thorough understanding of:
Crop phenology
Life cycle of pest
Pest Ecology and Behavior

e.g. Crop manipulation, land manipulation, cultural management,
and sanitary measures

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Cultural Methods
Crop manipulation:
Pruning; defruiting
multiple cropping
cover cropping
Trellising
plant spacing

Cultural Methods
Land manipulation:
tillage
no tillage
irrigation
flooding
fallow
soil-less culture (hydroponics)
proper drainage

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Cultural Methods
Cultural management:
mulching
early planting
late planting
Fertilization
adjust time of harvest
crop rotation
use of trap crops

Cultural Methods
Sanitary Measures:
removal and burning of infested part
weeding
farm waste decomposition
destruction of plant residues
elimination of breeding sites
use of clean seeds/planting materials

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Physical and Mechanical Methods
Using physical and mechanical forces to manage pests
Kill pest directly and/or modify environment to be unfavorable
for pest survival
It includes a wide variety of devices that exclude, entrap,
entangle, or electrocute insects.

Physical Methods Mechanical Methods
Modifying of Physical Agents to Involve the use of physical
make it less favorable for pests devices to tools to directly
manage pest populations

Physical and Mechanical Methods
Physical methods
a. Moisture/ Water regulation
Hot water treatment
Hot air treatment
Vapor heat treatment
Refrigeration and Burning
b. Radiation
UV light and X-ray
c. Visible Light
Light trap, Solarization, Laser

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Physical and Mechanical Methods
Mechanical methods
a. Barriers
Modified terrain
Bagging
Screens

b. Mechanical destruction
Hand picking/ hand-weeding
Shaking & collecting devices
Trapping, brushing, swatting, and crushing
Sieving and separation

Biological Methods
Employment of any biological agent for control of a pests

Natural Enemies
Naturally occurring beneficial organism that attack or feed
on pests

Biological Control Agent
Mass-produced population and released to the
environment to keep pests under control and prevent them
from causing further economic damage

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Biological Methods
Characteristics of a Good Biological control agent
Good searching ability (effective at low concentration)
Amenable to grow in inexpensive media
Effect against wide range of pests
Non-toxic to human
Non-pest or pathogenic to the crop
Compatible with cultural practices
Resistant to Pesticides

Biological Methods
Types of Biocontrol Agents against Arthropod Pests

A. Predator
Feed on several pest to complete its life cycle
Type of natural enemies which keep the population of their
prey in check
Examples:
Coccinelid Beetle (Cheilomenes Earwig (Euborellia annulata) – preys on eggs,
sexmaculata, Micraspis discolor) – Aphids larva, & pupa of Lepidoterans, Coleopterans,
& Dipterans
Brown lacewing (Pseudomicromus Flower bug (Orius tantillus) – preys on eggs
igorotus) - Aphids and larvae of lepidopterans

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Biological Methods
Types of Biocontrol Agents against Arthropod Pests

B. Parasitoids
Lay eggs in or on other insect species (host)
The immatures kill the host as it feeds on it and develops
within; usually smaller than their host
Examples:
Trichogramma evanescens Diadegma semiclausum, D. Insulare
(Hymenoptera: Trichogrammatidae) – (Hymenoptera: Ichneumonidae) –
Asian Corn Borer (ACB) Eggs diamondback moth (DBM) larva
Xanthopimpla stemmator (Hymenoptera: Cotesia glomerata, C. Plutellae
Ichneumonidae) – Strip stem borer larva (Hymenoptera: Braconidae) – DBM and ACB
larva

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Biological Methods
Types of Biocontrol Agents against Arthropod Pests

C. Pathogens
Debiliating disease-causing microorganisms that may be fata
Examples:
Metarhizium anisopliae (Fungi) –Infects Nucleopolyhedrovirus (Virus) - Infects
Rhinoceros beetle grubs cutworm and DBM larva
Beauveria bassiana (Fungi) - Infects Heterorhabditis indica (Nematode) – Attacks
Rhinoceros beetle grubs cutworms
Bacillus thuringiensis (Bacteria) –
Produces cryotoxins that kill several
species of Lepidopteran larvae

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Biological Methods
Approaches to Biological control
a. Classical
Introduction of new Species
b. Conservation
Protection and encouragement of existing BCA
Ecological engineering
c. Augmentation (Artificial Release)
Inundative release – release of large numbers of a
natural enemy such that their population completely
overwhelms that of the pest
Inoculative release – releasing natural enemies
periodically or seasonally

Host Plant Resistance Methods
Focused on plants’ ability to resist insect invasions
Amount of heritable qualities possessed by the plant which
influences the ultimate degree of damage done by the insect
Some plants use their physical appearance as deterrent

Mechanism of Host Plant Resistance
a. Anti-xenosis
b. Antibiosis
c. Tolerance

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Host Plant Resistance Methods
Mechanism of Host Plant Resistance
a. Anti-Xenosis or Non-preference
refers to the morphological and anatomical characteristics
of the plant that influence the choice of the pest with
regards to source of food, shelter and ovipositional sites

Host Plant Resistance Methods
Mechanism of Host Plant Resistance
b. Antibiosis
When a plant or its
components have an adverse
effect on the biology of the
pest.
Plant contains toxic
metabolites that may affect the
physiology of the pest;
absence or imbalance of
essential nutrients

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Host Plant Resistance Methods
Mechanism of Host Plant Resistance
c. Tolerance
The ability of the plant to withstand pest attack and grow
well despite the injury suffered.
Plant is still capable of producing normal yield despite
the pest infestation; plant can compensate for the
damage

Biotechnology Methods
Utilization of living organism (plant/ animals) to improve the
quality of plants or animals
The use of Genetically Modified Organisms (GMOs)

Examples:
Bt corn – engineered to express a toxin from the bacterium, Bacillus
thuringiensis (Bt); which is effective against certain pest, particularly the corn
borer and other lepidopteran insects.

Bt Eggplant – engineered to express a toxin from the bacterium, Bacillus
thuringiensis (Bt); helps protect against pest like fruit and shoot borer

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Autocidal Control Methods
Introduction of sterile or genetically altered individuals into the
wild population
Involves tactics that cause the pest to contribute to the
destruction of its own population

Male sterile techniques
Sterile male insects are released to the population
Sterile male insects compete with fertile males

Pests where sterile insect technique was used:
Screw worms
Fruit flies and Mosquitos

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Behavioral Control Methods
Involves tactics that affect the behavior of pests which result to
the reduction of pest population

Chemical Attractants
Substances that cause insects to make oriented movement
towards the source

Repellent
Chemicals that cause insects to make oriented movement away
from its source

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Legal or Regulatory Control
All forms of legislations and regulations preventing entry,
establishments and spread of a pest organism
Quarantines and licensing or certification programs can be
effective in limiting the movement of infested animals, seed, or
breeding stock.

Fundamental Objectives
Prevent the entry and establishment of foreign plant and animal
pests in a country or geographic area
Eradicate/ contain/ suppress pests that have established in a
limited area through legal means

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Chemical Control
Control based on substances that are toxic to the pests at
target
Should be the last resort in integrated pest management (IPM)
unless severe pest incidence occurred as insects may develop
resistance
It involve a wide variety of substances:
❑ Toxicant – Direct mortality
❑ Growth Regulators – Disrupts developmental processes
❑ Sterilants – Prevent Reproduction
❑ Semiochemicals – Modify insect behavior

Chemical Control
Pesticide
Any chemical substance used to control or kill pest
Pesticides should be registered under Fertilizer and Pesticide
Authority (FPA)

Pesticide Principles
Toxicity is dose related
Pest population are heterogenous and there is dynamic
exchange of genes among local populations

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Chemical Control
Advantage of Pesticide Use
Fast curative action in
preventing economic
damage
Have a wide range of
properties, use and method
of application to varied pest
situation
Easy to access and simple
to use

Chemical Control
Disadvantage of Pesticide Use
May cause pesticide resistance
Destruction of beneficial species
Outbreak of secondary pests
Chemical residue hazards
Environmental degradation
Increase in production cost

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Thank You

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