Lecture 3. Biological Control - Definition, History and Strategies for Effective Pest Control PDF

Summary

This lecture covers the definition, history, and strategies of biological control for effective pest control in agriculture and forestry ecosystems. It details the use of natural enemies to reduce pest damage. The lecture also covers the historical evolution of biological control, from early approaches to modern methods.

Full Transcript

LECTURE 3
BIOLOGICAL CONTROL OF INSECTS
Biological control: Definition; History and Strategies
for Effective Pest Control

Marife S. Sayat
Faculty, Crop Protection Department
BS Agriculture Program

Course: CC 411: Beneficial Arthropods and Microorganisms
 Biological Control of Insects Pests

Biological control can be defined as the use of
natural enemies to reduce the damage caused
by a insect pest populations.

Biological control is a tactic or approach that fits
into an overall Insect Pest Management
System (IPMS), and represents a potential
Alternative Strategy to combat with the insect
pest damages to the agriculture & forestry
ecocsystems.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL

The term “Biological control” was first used in 1919
by Harry Scott Smith in meeting of American
Association of Economic Entomologists, California

The first reported by Chinese botanist Ji Han (263 –
207), in his book, (ca. 304 AD) Nan Fang Cao Mu
Zhuang” (Plants of the Southern Regions). He
mentioned that “Jiaozhi people used and sell
reddish-yellow ants and their nets, to control citrus
insects pests.
Common name: Asian Weaver ant
Scientific name: Oecophylla smaragdina

Course: CC 411: Beneficial Arthropods and Microorganisms
 EVOLUTION IN BIOLOGICAL CONTROL

Began in the late eighty century with introduction of
Vedelia beetle (Rodolia cardinalis) into Central
America from Australia for control of cottony cushion
scale, Icerya puchasi

Patterns of Success

By 1986 (Greathead, 1986), 1162 successful introductions of
predators and parasitoids undertaken in different parts of
world.

25 % Successfully regulated targets pests
69% Intermittent or partial control
6% Failed to provide any control at all

Course: CC 411: Beneficial Arthropods and Microorganisms
 EVOLUTION IN BIOLOGICAL CONTROL

In Russia at around the same
time, the fungus Metarhizium
anisopliae was used for the
control of Anisoplia austriaca, a
cereal beetle parasite.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
Preliminary Period
(Early History: 200 A.D. to 1887 A.D.)

Chinese were the first to use natural enemies to
control insect pests. Nests of an ant, Oecophylla
smaragdina were sold near Canton in the 3rd
Century for use in control of Citrus insect pests such
as Tesseratoma papillosa (Lepidoptera)

Ants were used in 1200 A.D. for control of date palm
pests in Yemen (South of Saudi Arabia). Nests were
moved from surrounding hills and placed in trees.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
Preliminary Period
(Early History: 1300 A.D. to 1799 A.D.): BC was just
beginning to be recognized

The first insect pathogen was recognized by De Reaumur in 1726. It was
a Cordyceps fungus on a noctuid

In 1734, De Reamur suggested to collect the eggs of an “aphidivorous
fly” (actually a lacewing) and place them in the greenhouse to control
aphids.
The mynah bird, Acridotheres tristis, was successfully introduced from
India to Mauritius (off coast of Madagascar) for control of the red locust,
Nomadacris septemfasciata, 1762.

In the late 1700’s, birds were transported internationally for insect control

Control of the bedbug, Cimex lectularius, was successfully accomplished
by release of the predatory Pentatomid picromerus in 1776 in Europe.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
Preliminary Period
(Early History: 1800 A.D. to 1849 A.D.): During this period
advances were made in applied and basic approaches of BC

In the 1800’s, Darwin discussed “Ichneumonids” as natural control
factors for cabbage caterpillars.

Hartig (Germany) suggested the rearing of parasites from parasitized
caterpillars for mass release in 1827.

Kollar (Austrtia) put forth the concept of natural control in 1837.

In Verhulst (1838) described the logistic growth equation but the idea
remained dormant until 1920 when rediscovered by Pearl. Expressed
idea of “environmental resistance”.

During the 1840s releases of predators were used for control of gypsy
moth and garden pests in Italy.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
Preliminary Period
(Early History: 1850 A.D. to 1887 A.D.): During this period the focus on
BC was more emphasized through host specific natural enemies

1st successful movement of parasites for biological control when
parasites were moved from Kirkwood, Missouri, to other parts of the US
for control of the weevil, Conotrachelus nenuphar in 1870
Trichogramma evanescens

2nd successful movement in 1873, Riley sent the predatory mite,
Tyroglypus phylloxerae to France to control the grape mite.

3rd successful movement Trichogramma sp. (egg parasites) were
shipped from US to Canada for control of lepidopterous pests in 1882.

4th successful movement in 1883 the USDA imported Apanteles
glomeratus from England for control of cabbage worm.. Apanteles glomeratus

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
The Intermediate Period
1888 to 1889: The Cottony Cushion Scale Project

Cottony cushion scale, Icerya purchasi Maskell, was introduced into
California in1868 around the Menlo Park area (near San Francisco)
controlled by using Vedalia beetle (Rodolia cardinalis)

Charles Valentine Riley (Chief of the Division of Entomolgy, USDA)
employed Albert Koebele and D.W. Coquillett in research on control of
the cottony cushion scale.

He sent 12,000 individuals of Cryptochaetum iceryae and 129 individuals
of Rodolia cardinalis (the vedalia beetle)

The vedalia beetle controls are scale mainly in the Inland desert areas
and C. iceryae controls it in the coastal areas of Califonia.
Charles Valentine Riley

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
1900 to 1930: New faces and more BC projects

The Lantana weed Project in Hawaii (1902) first published work on BC
of weeds.

The sugarcane leafhopper project in Hawaii (1904-1920). Hawaiian
Sugar Planters Association (HSPA) created a Division of Entomology in
1904.

Berliner described Bacillus thuringiensis in 1911 as causative agent of
bacterial disease for control of Mediterranean flour moth.

USDA laboratory for biological control established in France in 1919.

Course: CC 411: Beneficial Arthropods and Microorganisms
 HISTORY OF BIOLOGICAL CONTROL
The Modern Period: 1957 to Present
In 1959, Vern Stern et al. (1959), conceived the idea of economic injury level and economic threshold
which enable the growers to take decisions and apply control tactics.

During the 1970’s and 1980s, Brain Croft and Marjorie Hoy made impacts by using pesticide resistant
natural enemies in cropping systems.

In 1983, Frank Howarth publish his landmark paper entitled “Biological Control”.

From 1990 to date, two additional control journals, “Biological Control Theoy and Application in Pest
Management” (Academic Press) and “Biological Science and Technology” (Carfax Publishing),
additionally “Entomophaga” changed its name to “Biocontrol”.

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Introduction of pests natural enemies to a new
locale where they do not occur naturally.

Involves travelling to the pest species country of
origin, researching its natural enemies, collecting
and introducing these natural enemies to the
location where the pest species is causing
problems.
E.g. In Australia, Eriosoma lanigerum was
controlled by the introduction of its specific
parasitoid Aphelinus mali

E.g. Parasitoidal wasps Trichogramma ostriniae
to control European corn borer Ostrinia nubilalis

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

 Avoidance of measures that destroy natural enemies and
the use of measure that increase their longevity and
reproduction of the attractiveness of an area to natural
enemies.
 Preservation of inactive stages
 avoidance of harmful cultural practices
 Maintenance of diversity
 natural food, artificial food supplements
and shelters
 protection from pesticides

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

 achieved by releasing additional numbers of
a natural enemy into a system or modifying
the environment in such a way as to promote
greater number or effectiveness.

 involve release of laboratory mass-reared
species

 Two general approaches to Augmentation
Inoculative release
Inundative release

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Other predacious insects and microbial sprays used in
Inundative biological are;
This Trichogramma wasps are used worldwide on a
Trichogramma (wasps) variety of crops, and some of these include corn,
sugarcane, cotton, vegetables, tree fruits, etc. In fact,
they are the most widely used egg parasitoid in the
world, and about 30 million hectares of land are
treated annually with these little wasps.

Trichogramma are often released in vegetable or field
crops at a rate of 5,000 to 200,000 per acre per week
depending on level of pest infestation.

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Other predacious insects and microbial sprays used in
Inundative biological are;
insect-pathogenic bacteria (e.g., Bacillus thuringiensis)

Bacillus thuringiensis (Bt) is a species of bacteria that
lives in soil. It makes proteins that are toxic to some
insects when eaten, but not others.

The proteins are not toxic to humans because, like all
mammals, we cannot activate them. Bt is not toxic to
non-target wildlife. However, one type of Bt (aizawi)
can be toxic to honeybees. Bt is used as
an insecticide, typically, for insect larvae.

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Other predacious insects and microbial sprays used in
Inundative biological are;

insect-pathogenic fungi (e.g., Beauveria bassiana)

Beauveria bassiana is a fungus that grows
naturally in soils throughout the world and
acts as a parasite on various arthropod
species, causing white muscardine disease; it
thus belongs to the entomopathogenic fungi.
It is being used as a biological insecticide to
control a number of pests such as termites,
thrips, whiteflies, aphids and different beetles

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL

Course: CC 411: Beneficial Arthropods and Microorganisms
 APPROACHES TO ACHIEVE POTENTIAL BIOLOGICAL CONTROL
Inoculative release:

Inoculation involves releasing small numbers of natural enemies at prescribed intervals throughout the pest
period, starting when the pest population is very low.
The natural enemies are expected to reproduce themselves to provide more long-term control.

The expected outcome of inoculative releases is to keep the pest at low numbers, never allowing it to
approach an economic injury level; therefore, it is more a preventive measure.

Course: CC 411: Beneficial Arthropods and Microorganisms
 Thank you…

Course: CC 411: Beneficial Arthropods and Microorganisms
References