Development of Biopesticide Beauveria bassiana Bals. (Vuill.) Fungi
for Pest Control Vegetable in Berastagi
Sularno
*
and Edi Azwar
Lecturer of Faculty of Teacher Training and Education Islamic University of Sumatera Utara.
Keywords: Bioinsectisida, Beauveria bassiana Bals. (Vuill.), Chemical pesticides, vegetables
Abstract: The abstract should summarize the contents of the paper and should contain at least 70 and at most 200 words.
It should be set in 9-point font size, justified and should have a hanging indent of 2-centimenter. There should
be a space before of 12-point and after of 30-point. This research was conducted in two stages. The research
method is the isolation and application of biopesticide. In the first stage aims to isolate entomopathogenic
fungi Beauveria bassiana around Berastagi vegetable farms and grow on agar and corn mashed artificial
medium. Testing the virulence of Beauveria bassiana in vitro in several types of vegetable pests before it is
applied on agricultural land. In phase II aims to application B. bassiana in the vegetable patch. In the in vitro
treatment, the ability to infect insects beauvria average reached 75%. , Controls on crop lands, in the third
week began their Crocidolomia pests that attack the growing point so that the cabbage plants fail to bloom.
Average cropland applied biopesticides B. bassiana has been no attack. At week 7 attacks on control plants
reach 13 plants or 17.3%. In field applied while Beauveria bassiana attack reached six plants, or about 8%.
1 INTRODUCTION
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Pesticides can cause acute and long-term effects
for farm workers who are exposed. Exposure to
pesticides can cause varying effects ranging from
irritation to the skin and eyes to a more deadly effect
that affects the nerve, disrupting the reproductive
hormone system and cause cancer. In 2007,a study in
non-Hodgkin's lymphoma and leukemia showed a
positive association with exposure to pesticides.
Strong evidence also shows that the negative effects
of pesticide exposure include neurological damage,
congenital abnormalities, fetal death and
developmental disorders of the nervous system. The
American Medical Association recommends limiting
exposure to pesticides and starts using safer
alternatives (Jakubowski,. 2011).
The use of pesticides increases the number of
issues on the environment. More than 90%
insecticides and 95% herbicides are sprayed toward
the place that was not targeted. Flow pesticides occur
when pesticides suspended in the air as particles
carried by the wind to other areas, potentially causing
pollution. Pesticides are the main problems of water
pollution, and some pesticides are persistent organic
pollutants that cause ground contamination.
Pesticides also reduce agricultural biodiversity in
the soil, thereby reducing the rate of nitrogen fixation.
loss of pollinators, destroy habitat (especially bird
habitats), and harm endangered animals. Over time,
the pest species can develop resistance to pesticides
so it takes research to develop new pesticides.
Of the approximately one million species of
insects are known, approximately 15,000 species
known as pests. Along with the increase in
agricultural activity, interference also increases insect
pests that cause damage or destruction of food crops
(Bale, et al, 2008). Fortunately, most insect pests have
the potential pathogenic microorganisms associated
with it. One of these microorganisms is an
entomopathogenic fungus.
Entomopathogenic fungi are microorganisms that
are used first as a biological pest control agent. More
than 700 species from 90 genera of fungi are
pathogenic to insects (Khan, et al, 2012). Most
species of entomopathogenic fungi derived from the
division Ascomycota and Zygomycota. Generally
fungal pathogens of insects include Metarhizium
anisopliae, Beauveria bassiana, Nomuraea rileyi,
Paecilomyces farinosus and Paecilomyces
fumosoroseus (Takhur and Sandhu, 2010),
442
Sularno, . and Azwar, E.
Development of Biopesticide Beauveria bassiana Bals. (Vuill.) Fungi for Pest Control Vegetable in Berastagi.
DOI: 10.5220/0010044504420445
In Proceedings of the 3rd International Conference of Computer, Environment, Agriculture, Social Science, Health Science, Engineering and Technology (ICEST 2018), pages 442-445
ISBN: 978-989-758-496-1
Copyright
c
2021 by SCITEPRESS Science and Technology Publications, Lda. All rights reserved
Lagenidium, Coelomomyces, Conidiobolus,
Entomophaga, Entomophthora, Erynia, Neozygites,
Pandora, Zoophthora, Cordyceps, Hypocrella,
Torrubiella, Aschersonia, Hirsutella, Tolypocladium
and Verticillium (Pell and Shah, 2003).
2 LIFECYCLE FUNGI
ENTOMOPATHOGENIC
The life cycle starts from the entomopathogenic fungi
spores germinate to form a mycelium, the mycelium
is then reshaped spores. Entomopathogenic fungi life
cycles generally consist of two phases. The first phase
is normal mycelial growth that occurs outside the host
body and budding yeast-like phase occurs within the
host homeosol.
3 ENZYMES OF VIRULENT
ENTOMOPATHOGENIC FUNGI
Initial interaction in the pathogenicity is mediated by
a mechanical force, enzymatic process and the
strength of certain acids. These enzymes responsible
for the interactions of fungi with their hosts and
environment. The enzymes involved in the
pathogenicity of a group of insects generally protease,
peptidase, chitinase, and lipase. Its main constituent
insect cuticle chitin and protein degradation by
protease and a peptidase enzyme. Another role as a
growth factor saprophytic fungi, propanol oxidase
activation in the hemolymph and as a virulence factor
of fungi (Khan, et al, 2012).
The main component of insect cuticle is the chitin
substance. Therefore both endo and Ekto khitinase
plays an important role in breaking down the N-
acetylglucosamine (NAGA) the polymer of insect
cuticle becomes smaller monomer units. So that the
enzyme chitinolytic also be a virulence determinant
factor of fungi. While the lipase enzyme plays a role
in epicuticular parse the outer surface of insects
composed of a mixture of non-polar lipid complex
(Blomquist and Vogt, 2003).
4 HOST RANGE
ENTOMOPATHOGENIC FUNGI
Entomopathogenic fungi have a very broad host range
in the class Insecta. Insect pests are hosts from
Lepidoptera, coleopteran, Diptera, Orthoptera and
other insect orders. Entomopathogenic fungi,
Verticillium lecanii, Beauveria bassiana and
Metarhizium anisopliae intensively studied for use as
the main natural enemies of the pest aphid and other
major agricultural pest (Roberts and St. Leger, 2004).
Beauveria bassiana (Bals.) Vuill. Has been developed
as a microbial insecticide to eradicate many major
pests, including lepidopterans and orthopterans.
approximately 33.9% of mycoinsecticide made of B.
bassiana, Metarhizium anisopliae followed by
(33.9%), Isaria fumosorosea (5.8%) and Beauveria
brongniartii (4.1%) (Wraight and Carruthers, 1999).
Therefore, the presence of fungi, these fungi play a
major role in overcoming the vegetable pests in
vegetable organic Brastagih as centers in North
Sumatra.
5 MATERIALS AND METHODS
Step 1. Exploration research includes fungi present
on the ground around the roots of plants with a depth
of 5 to 15 cm. Soil samples were collected in
accordance with the determination of sampling. Soil
is then inserted into the plastic and mixed until
homogenous 2. Soil samples were obtained is put into
a plastic container, filled with about half of the
volume of the container. 3. Before larvae Tenebrio
molitor inserted, the soil in the container moistened
with enough water added. 4. Putting worm Tenebrio
molitor at ground level in the container, which
included caterpillar is a caterpillar newly molted
(molting) is white 5. Further containers are closed
using gauze that caterpillars are not out of the
container, then incubated for 1 to 2 weeks in a dark
place in order to trap caterpillars move on, so it's easy
contact with entomopathogenic fungi that are in the
soil samples.
6 ISOLATION STAGE
The isolate phase includes 1. Tenebrio molitor
caterpillars that infected Beauveria bassiana fungi
were isolated by instilling sample of infected tissue
on the medium Potato dextrose Agar (PDA) and
incubated for 5 to 7 days 2. Insulation is done by
dipping the infected tissue samples (worm Tenebrio
molitor) while 3 minutes) to a solution of clorox,
alcohol, and then rinsed with sterile distilled water.
3.fungi growing on media is identified and
transmitted back (reinokulate) on the test insects.
Virulence test is done by calculating lethal
Development of Biopesticide Beauveria bassiana Bals. (Vuill.) Fungi for Pest Control Vegetable in Berastagi
443
concentration 50% (LC50) and 50% lethal dose
(LD50). 4. virulent entomopathogenic fungi
reproduced and developed to control the fi
Isolation of Beauveria bassiana
Stages isolation covers 1. Tenebrio molitor larvae
infected with Beauveria bassiana Fungi were isolated
by instilling sample of infected tissue on the medium
Potato dextrose Agar (PDA) and incubated for 5 to 7
days 2. Insulation is done by dipping the infected
tissue samples ( Tenebrio molitor) while (± 3
minutes) to a solution of clorox, alcohol, and then
rinsed with sterile distilled water. 3.fungi growing on
media is identified and transmitted back (reinoculate)
on the test insects Sometimes the isolation process
had to be repeated because of contamination by other
bacteria or fungi. Kesabarabn and accuracy needed to
obtain pure isolates before propagated in the
propagation medium (corn).
Here is a picture Tenebrio molitor larvae infected
with Beauveria bassiana
Figure 1. Tenebrio molitor larvae infected with beauveria
bassiana and metarhizium anisopliae
7 STAGE PURIFICATION AND
THE MULTIPLICATION OF
BEAUVERIA BASSIANA
Beauveria bassiana purification method is done by
streak plate method or by pour plate method on PDA
media. Beauveria bassiana already growing on the
PDA medium and then reproduced in corn medium.
Mashed corn steamed later washed Clean Up nearly
ripe. Enter Into plastic glass hearts and sterilized
using an autoclave. Corn medium cold ready for
review inoculated with Beauveria bassiana as a
propagation medium. Beauveria bassiana is well
propagated used to review applications Pest control
Plants flower cabbage Brassica oleracea.
From in vitro experiments on the data obtained as
follows:
Table. Number of Tenebrio molitor larvae infected and died
after treatment with Beauveria bassiana
Repeat of
Treatment
with 10
T.molitor
larvae
Number larvae T.molitor
infected at day ....
4 5 6 7
I 1 3 3 8
II 0 1 2 7
III 1 2 5 7
IV 0 2 4 6
V 1 3 5 8
VI 2 5 6 9
From the table above it can be seen that the
highest number of deaths occurred on the seventh-day
average larvae infected and die reached 75%. This
data will be compared with the treatment of
Beauveria bassiana in the field.
8 APPLICATIONS OF
B.BASSIANA IN THE FIELDS
OF RESEARCH
Applications Beauveria bassiana conidia done by
mixing with water
Application spraying is done in the afternoon with
the intensity 3 times in one week. Observations were
made each week cover the range of the pest
population, the diversity of types of pests, damage
leaves and pest infestation levels in both fields of
research.
Observations in the first week, second and third
after the second application of Beauveria bassiana on
land not seen a significant difference. The types of
pests of vegetables such as cauliflower B. oleracea
snails, grasshoppers leaf, ladybugs, Plutella and
Crossidolomia. In qualitative damage to the leaves of
plants by insects or slightly higher in the control
plants, the damage is massive because the pests only
attack leaves lateral. Group grasshopper populations
are low and do not cause severe damage was Plutella
xylostella the solitary life also does not cause severe
damage to both research fields. The leaves of the
cabbage flowers on the lateral are perforated, not
sporadic pest attack and not to attack the growing
point (crop) cabbage plants harvested so that interest
will continue to grow well.
ICEST 2018 - 3rd International Conference of Computer, Environment, Agriculture, Social Science, Health Science, Engineering and
Technology
444
Observations on the third week, on land that is
applied with Beauveria bassiana, the pest population
remains relatively low, while on land without any
treatment or control Crocidolomia binotalis
populations have started to emerge. Population
growth of Crocidolomia binotalis is quite rapid and
sporadic, larvae are green with light green stripes
back and on the left and right sides with the older
color yellow on the the abdomen. After hatching, the
larvae feed on leaves immediately with very
voracious, especially the leaves inside covered by the
outer leaves for larvae afraid of sunlight. The larvae
live in groups, if attacks increase, the larvae will reach
the point of growing crops or crop cauliflower. As a
result of this attack,, cabbage plants failed to form
interest and result in loss of harvest (yield loss). Of
the 75 plants on land control, attack the crop reaches
comparatively quite high, reaching at week 3
contained 5 plants damaged or approximately 6.7% in
the five weeks to 9 plants, or about 12%, and at week
7 reaches 13 plants or 17.3%. In field applied while
Beauveria bassiana, Crocidolomia binotalis attacks
are relatively smaller. At three weeks there have been
no plants are attacked, at week five there are three
affected plants to the growing point and at week 7
there are 6 plants or about 8% that was attacked.
Figure 2. Damage to the leaves of the growing points or
crop in cauliflower, cabbage crop failure flowering due to
pests attacking at the growing point
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