1. The document identifies and describes several major insect pests that affect mango trees and fruit, including mango hoppers, mealybugs, fruit flies, and bark-eating caterpillars.
2. It provides details on the life cycles of the pests, damage symptoms caused, and highlights sooty mold as a common secondary issue.
3. Control recommendations are outlined for each pest, including cultural, biological, and chemical approaches. Cultural controls focus on sanitation while chemical controls recommend targeted application of specific insecticides at key life stages.
Mango Hopper
They are the most dreaded pests of Mango Plant
Suck the sap
Damage tender plant shoot
Damage the buds,leaves,fruit, inflorescence
Destruct the fruit setting
Distrust the inflorescence
Mango Hopper
They are the most dreaded pests of Mango Plant
Suck the sap
Damage tender plant shoot
Damage the buds,leaves,fruit, inflorescence
Destruct the fruit setting
Distrust the inflorescence
Chirkey and foorkey disease of cardamom Suraj Poudel
This is a slide prepared about two viral diseases of Cardamom by me and sushil for classroom presentation of Pathology. All the photos inserted in this slides are downloaded from the internet and belongs to respective uploader.
Wilt is a pernicious disease of guava in India.
In India the disease was first recorded near Allahabad in 1935 . The infection was reported 15 -30 %.
The disease is a serious threat to guava cultivation in U.P. In West Bengal it reduces the yield in affected orchard by 80% .
The disease is also prevalent in Haryana Rajasthan , A.P ,
Punjab and M.P.The exact cause of the disease is still not fully understood but the pathogens viz. Fusarium oxysporum f. sp. psidii (Prasad, Mehta & Lal), Rhizoctonia spp. (Taub.) and various pathogens are reported by different workers may be the incitant of the disease.
Survival and spread:
Through movement of plants containing sick soil in virgin areas.
Short distance spread is by water.
Root injury predisposes wilt disease.
It has forced uprooting of about 150 acre of guava orchard in Panjab and 300 acres in Haryana during 1971-81.
Chirkey and foorkey disease of cardamom Suraj Poudel
This is a slide prepared about two viral diseases of Cardamom by me and sushil for classroom presentation of Pathology. All the photos inserted in this slides are downloaded from the internet and belongs to respective uploader.
Wilt is a pernicious disease of guava in India.
In India the disease was first recorded near Allahabad in 1935 . The infection was reported 15 -30 %.
The disease is a serious threat to guava cultivation in U.P. In West Bengal it reduces the yield in affected orchard by 80% .
The disease is also prevalent in Haryana Rajasthan , A.P ,
Punjab and M.P.The exact cause of the disease is still not fully understood but the pathogens viz. Fusarium oxysporum f. sp. psidii (Prasad, Mehta & Lal), Rhizoctonia spp. (Taub.) and various pathogens are reported by different workers may be the incitant of the disease.
Survival and spread:
Through movement of plants containing sick soil in virgin areas.
Short distance spread is by water.
Root injury predisposes wilt disease.
It has forced uprooting of about 150 acre of guava orchard in Panjab and 300 acres in Haryana during 1971-81.
Fruit IPM, Fruit insect pest managment, Major fruits Mango, Guava, Litchi, Pomegranate, Citrus etc. Insect pest Mango, litchi, guava, pomegranate, citrus etc.
mango is the king of fruits and has a premier status among the commercial fruits grown in India. Indo-Burma region is believed to be the center of origin for mango. it grows wide in the forests of North East India. Now it is grown throughout the tropics. The main production centers are India, Florida, Egypt, natal, E.Africa coast and West Indies. It requires dry weather for flowering and often it is biennial fruit bearer. It is an evergreen tree growing to a height of 10-40 m high and can survive for 100 years or more.
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
Micro RNA genes and their likely influence in rice (Oryza sativa L.) dynamic ...Open Access Research Paper
Micro RNAs (miRNAs) are small non-coding RNAs molecules having approximately 18-25 nucleotides, they are present in both plants and animals genomes. MiRNAs have diverse spatial expression patterns and regulate various developmental metabolisms, stress responses and other physiological processes. The dynamic gene expression playing major roles in phenotypic differences in organisms are believed to be controlled by miRNAs. Mutations in regions of regulatory factors, such as miRNA genes or transcription factors (TF) necessitated by dynamic environmental factors or pathogen infections, have tremendous effects on structure and expression of genes. The resultant novel gene products presents potential explanations for constant evolving desirable traits that have long been bred using conventional means, biotechnology or genetic engineering. Rice grain quality, yield, disease tolerance, climate-resilience and palatability properties are not exceptional to miRN Asmutations effects. There are new insights courtesy of high-throughput sequencing and improved proteomic techniques that organisms’ complexity and adaptations are highly contributed by miRNAs containing regulatory networks. This article aims to expound on how rice miRNAs could be driving evolution of traits and highlight the latest miRNA research progress. Moreover, the review accentuates miRNAs grey areas to be addressed and gives recommendations for further studies.
Diabetes is a rapidly and serious health problem in Pakistan. This chronic condition is associated with serious long-term complications, including higher risk of heart disease and stroke. Aggressive treatment of hypertension and hyperlipideamia can result in a substantial reduction in cardiovascular events in patients with diabetes 1. Consequently pharmacist-led diabetes cardiovascular risk (DCVR) clinics have been established in both primary and secondary care sites in NHS Lothian during the past five years. An audit of the pharmaceutical care delivery at the clinics was conducted in order to evaluate practice and to standardize the pharmacists’ documentation of outcomes. Pharmaceutical care issues (PCI) and patient details were collected both prospectively and retrospectively from three DCVR clinics. The PCI`s were categorized according to a triangularised system consisting of multiple categories. These were ‘checks’, ‘changes’ (‘change in drug therapy process’ and ‘change in drug therapy’), ‘drug therapy problems’ and ‘quality assurance descriptors’ (‘timer perspective’ and ‘degree of change’). A verified medication assessment tool (MAT) for patients with chronic cardiovascular disease was applied to the patients from one of the clinics. The tool was used to quantify PCI`s and pharmacist actions that were centered on implementing or enforcing clinical guideline standards. A database was developed to be used as an assessment tool and to standardize the documentation of achievement of outcomes. Feedback on the audit of the pharmaceutical care delivery and the database was received from the DCVR clinic pharmacist at a focus group meeting.
UNDERSTANDING WHAT GREEN WASHING IS!.pdfJulietMogola
Many companies today use green washing to lure the public into thinking they are conserving the environment but in real sense they are doing more harm. There have been such several cases from very big companies here in Kenya and also globally. This ranges from various sectors from manufacturing and goes to consumer products. Educating people on greenwashing will enable people to make better choices based on their analysis and not on what they see on marketing sites.
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
"Understanding the Carbon Cycle: Processes, Human Impacts, and Strategies for...MMariSelvam4
The carbon cycle is a critical component of Earth's environmental system, governing the movement and transformation of carbon through various reservoirs, including the atmosphere, oceans, soil, and living organisms. This complex cycle involves several key processes such as photosynthesis, respiration, decomposition, and carbon sequestration, each contributing to the regulation of carbon levels on the planet.
Human activities, particularly fossil fuel combustion and deforestation, have significantly altered the natural carbon cycle, leading to increased atmospheric carbon dioxide concentrations and driving climate change. Understanding the intricacies of the carbon cycle is essential for assessing the impacts of these changes and developing effective mitigation strategies.
By studying the carbon cycle, scientists can identify carbon sources and sinks, measure carbon fluxes, and predict future trends. This knowledge is crucial for crafting policies aimed at reducing carbon emissions, enhancing carbon storage, and promoting sustainable practices. The carbon cycle's interplay with climate systems, ecosystems, and human activities underscores its importance in maintaining a stable and healthy planet.
In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
WRI’s brand new “Food Service Playbook for Promoting Sustainable Food Choices” gives food service operators the very latest strategies for creating dining environments that empower consumers to choose sustainable, plant-rich dishes. This research builds off our first guide for food service, now with industry experience and insights from nearly 350 academic trials.
3. Insect Pests of National Significance
Nymphs and adults of Idioscopus species suck
sap from twigs, inflorescences, tender leaves
and fruits. Affected plant tissue turns brown,
may deform and dry up.
Mango Hopper
3
4. Damage symptoms due to Mango Hopper
Adults lay eggs on flower buds and inflorescence
stalk.
Adults and Nymphs suck sap from flowers, causing
drying of flowers and subsequent dropping.
Secrete honey dew and as a result, sooty mould
develops causing less photosynthesis.
Heavy puncturing and continuous draining of the
sap causes curling and drying of the infested tissue
3-4 generations completed in a growing season,
with a population build up in February-April and
June-August.
Hoppers shelter in the cracks and crevices of the
bark or underside the leaves of the trees during the
off season.
4
5. Sooty Mould formation on mango
leaves due to Mango Hopper
infestation : - A secondary symptom.
Damage symptoms due to Mango
Hopper
5
6. Control measures for Mango hoppers
Cultural control:
1. Pruning of dense orchards in the month of November - December, orchard sanitation
and field sanitation.
2. Keep the nursery area clean, free of weeds and grasses.
3. Removal of weeds and alternate host plants like hibiscus, custard apple, guava etc.
4. Avoid dense plantings, maintained open canopy; prune overcrowded overlapping
branches after rainy season.
5. Avoid excess use of nitrogenous fertilizers.
6. Smoking of orchards by burning of crop residues/cow dung cake during evening hours.
Biological Control:
Application of bio-agents, Metarhizium
anisopliae @ 1x 108 cfu/ml or
Beauveria bassiana @ 108 cfu /ml on
tree trunk once during off season and
twice at 7 days interval during
flowering season.
6
7. Control measures for Mango hoppers.
Chemical Control:
Application of any of the following insecticides gives a good control, but spray should be
done only after insect pest population crosses its ETL. First spray should be given at the
early stage of panicle formation. The second spray at full-length stage of panicles but
before full bloom and the third spray after the fruits set at pea size stage.
• Buprofezin 25% SC @ 1.25ml/ l of water, 5 - 15 l per tree.
• Deltamethrin 2.8% EC @ 0.03 - 0.05% (0.33 to 0.5 ml / lit) As per field requirement.
• Dimethoate 30% EC @ 990 - 1320 ml in 600-800 l of water/acre.
• Imidacloprid 17.8% SL @ 3ml / l of water, 10 l/ tree.
• Lambda-cyhalothrin 5% EC @ 0.5 - 1.0 ml/ l of water.
• Malathion 50% EC @ 900 - 1200 ml in 600 - 800 l of water/acre.
• Monocrotophos 36% SL @ 600 - 800 ml in 200 - 800 l of water/acre.
• Oxydemeton–methyl 25% EC@ 600 - 800 ml in 600 - 800 l of water/acre.
• Thiamethaxam 30 FS (0.05%)
A rational rotation of insecticide is desirable to counteract the tendency of pest to
develop field resistance.
7
12. 1) The female adult mealy bug crawls down the tree in the month of April-May and enter in
the cracks in the soil for laying eggs.
2) Just after hatching, the minute newly hatched pink to brown coloured nymphs crawl up
the tree.
3) After climbing up the tree, they start sucking the sap of tender plant parts.
4) Only nymphs and female mealy bugs are harmful as they suck plant sap. Male do not eat
anything.
5) They are considered more important because they infest the crop during the flowering
season.
Mango Mealy bug: Nature of infestation
Cultural control:
1. Flooding of orchard with water in the month of October kill the eggs.
2. Ploughing of orchard in November and raking of soil around tree trunk helps to expose the
eggs to natural enemies and sun.
3. Removal of weeds.
4. Fastening of alkathene sheet (400 gauge)/grease band of 25 cm wide afterwards mud
plastering of trunk at 30 cm above the ground in the middle of December helps in
preventing juvenile mealy bug to plant and thereby minimise infestation.
5. Destruction of infested fallen leaves In July –August.
Control measures for Mango mealybug.
12
13. Mealybugs are known to bribe ants with their
sugary secretion (honeydew) and in return
ants help in spreading of mealybugs and
provide protection from predator ladybird
beetle, parasites and other natural enemies.
13
14. Inflorescence Midge
The midge infests and damages the crop in three different stages.
1. The first attack is at the floral bud burst stage. The eggs are aid
on newly emerging inflorescence; the larvae tunnel the axis and
thus destroy the inflorescence completely. The mature larvae
make small exit holes in the axis of the inflorescence and slip
down into the soil for pupation.
2. When the tender fruits are attacked in second term, they
slowly turn yellow and finally drop.
3. The third attack is on tender new leaves encircling the
inflorescence. The most damaging one is the first attack in which
the entire inflorescence is destroyed even before flowering and
fruiting.
Control : As the larvae pupate in the soil, ploughing of the orchard expose pupating larvae to
sun helps in killing them. Spraying of 0.05% Fenetrothion or 0.045% Dimethoate at the bud
burst stage of the inflorescence is effective. 14
16. Mango Fruitfly
• The female punctures the outer wall of the mature
fruits with its pointed ovipositor and insert eggs
inside the mesocarp of mature fruits.
• After hatching, the larva feeds on the pulp of fruit
which appears normal from outside, but drops
down finally. The mature maggots fall down into
the soil for pupation.
• The emergence of fruitfly starts from April onwards
and the maximum population is recorded during
May - July, which coincides with fruit maturity.
16
17. Cultural control:
1. Prior to harvest (30-40 days ahead) collect and disposed off infested and fallen fruits
to prevent further multiplication and carry-over of population.
2. Ploughing of orchard during November-December to expose pupae to sun’s heat
which kills them.
3. If infestation is heavy, bait splash on the trunk only, once or twice at weekly interval is
recommended. To prepare bait splash, mix 100 gm of jaggery in one litre of water and
add 1- 2 ml of deltamethrin by using an old broom.
4. Managing fruit flies also reduces Mango anthracnose disease and prevents late fruit
fall.
Mechanical control:
1. Male annihilation technique: Set up fly trap using methyl eugenol. Prepare methyl
eugenol 1 ml/l of water + 1 ml of malathion solution.
2. Take 10 ml of this mixture per trap and keep them at 25 different places in one ha
between 6 and 8 am.
3. Collect and destroy the adult flies.
Control measures for Mango Fruit Fly.
Physical control:
Hot water treatment of fallen mature fruits at 48 ± 1 ºC for 4 - 5 min
17
19. Chemical control : The adult fruit flies can also be controlled by bait sprays.
Bait spray can be prepared by combining any one of the insecticides as given
below and protein hydrolysate or molasses or jaggery @ 10 gm per liter of
waater.
1. fenthion 10 EC 1ml/l,
2. malathion 50EC 2 ml/l,
3. dimethoate 30 EC 1 ml/l,
4. carbaryl 50 WP 4 g/l.
Spray the mixture at 2 weeks interval before ripening of fruits.
Racking up of soil below the tree and drench with chlorpyriphos 20 EC @ 2.5 ml/l
to kill the pupa.
Control measures for Mango Fruit Fly.
19
20. Mango Scale Insects
The nymphs and adult scales suck the sap of the leaves and other tender parts and reduce
the vigour of the plants. They also secrete honeydew, which helps in the development of
sooty mould on leaves and other tender parts of the tree. In case of severe scale infestation,
growth and fruit bearing capacity of the mango tree is affected adversely.
Control: Pruning of the heavily infested plant parts and their immediate destruction followed
by two sprays of Monocrotophos (0.04%) or Dimethoate (0.06%) at an interval of 20 days is
very effective in controlling the scale population. 20
22. •Eggs are laid on the under surface of leaves.
•On hatching maggots bore inside leaf tissue, and feed within, resulting in formation
of small raised wart-like galls on leaves.
•Affected leaves get deformed and drop prematurely.
Mango leaf gall midge
Control
If infestation is severe, especially in young orchards, spray dimethoate, phosphamidon or
monocrotophos. 22
23. Mango seed / stone weevil
The pulp adjacent to the affected stone is seen discoloured when the fruit is cut
open.
23
24. Mango seed/ stone weevil
Close-up of an egg-laying mark of
mango seed weevil
Grub of mango seed weevil Adult mango seed weevil
Cultural control:
Collection and destruction of infested and fallen fruits at weekly interval till fruit harvest.
Ploughing of orchard after harvest to expose hibernating adults, therefore reduces infestation. Destroy all
left over seeds in the orchard and also in the fruit processing industries.
Chemical control :
Spraying Dimethoate (0.1%) twice at 15 days interval when fruits are of marble size.
Spray main trunk, primary branches and junction of branches prior to flowing (November, December) with
carbaryl (0.2%) or fenthion (0.1%) or chlopyriphos 20 EC @ 2.5 ml/l to control beetles hiding in the bark.
Spray Acephate 75 SP @ 1.5 g/l when fruits are of lime size (2.5-4 cm diameter) followed by Deltamethrin 28
EC @ 1ml/l after two or three weeks.
24
25. The damage is caused by grubs either to roots or stems. The grubs after hatching from eggs first
feed on bark and make irregular cavities. It makes tunnels which may either be in boring
upward, resulting in drying of branches. The caterpillar spins brown zig-zag ribbon-like silken
web on tree which consists of their excreta and wood particles. Larvae also make shelter tunnels
inside where they rest.
Mango bark eating caterpillar
25
26. Mango Bark-eating caterpillar
Management
1. Keep orchard clean and healthy.
2. Clean the infested hole and put emulsion of
quinalphos (0.05%) in each hole and plug them
with mud.
3. Drench stem thoroughly with quinalphos (0.05%) /
chlorpyriphos (0.02 %) when incidence is high.
4. Placement of petrol soaked cotton swab inside the
bore whole and subsequent plugging with mud is
also effective. 26
27. Mango Leaf webber
Symptoms: Initially caterpillars feed on leaf surface gregariously by scrapping. Later they
make web on tender shoots and leaves together and feed within. Several caterpillars may
be found in a single webbed up cluster of leaves
Management
Pruning of overcrowded and overlapping branches and mechanical removal of infested webs
by leaf web removing device and burning them.
Ploughing of orchard checks its population by destroying the hybernating pupae.
Two to three sprays commencing from last week of July with carbaryl (0.2%) or quinalphos
(0.05%). This spay will also take care of mango psylla (Apsylla cistellata).
The use of same chemical for every spray should be avoided.
27
29. Mango Shoot gall psylla.
Shoot gall psylla is a monophagous pest of mango in northern India. Nymphs emerge
during August-September and suck cell sap from adjacent buds. As a result of feeding, buds
develop into hard conical green galls. The galls are usually seen during September-October.
Consequently there is no flowering and fruit setting. Nymphs over winter inside the galls.
Mango shoot gall psylla
29
30. Chemical Management of mango shoot gall phylla
1. Galls with nymphs should be collected and destroyed.
2. Spray dimethoate (0.06%) or quinalphos (0.05%) at fortnightly interval starting from August.
3. Spray Profenophos @ 2 ml/litre which is having ovicidal action during the second week of
March.
4. Spray 2, 4-D (150 ppm, i e 150 mg/ liter of water) during October which opens the galls and
nymphs come out and are killed with cold.
5. New mango orchard in humid region need to be discouraged.
Cultural management of Mango shoot gall psylla
: practice of removal of eggs bearing leaves from a shoot during March last week which
decreases number of shoot gall formation.
Mechanical management of mango shoot gall psylla
Pruning of shoots upto 30 cm which bears galls during September to check further spread of
incidence
Management of Mango shoot gall psylla
30
31. Mango Shoot-borer
Larvae bore into young tender leaves during August and freshly hatched caterpillar bore
into mid rib. After a couple of days, they bore into tender shoots near the growing point
tunneling downward, throwing their excreta resulting in dropping of leaves and wilting of
terminal shoots.
Mango shoot borer
31
32. Management of Mango Shoot Borer
1. Attacked shoots should be clipped off and destroyed.
2. Spray cabaryl or quinalphos (0.05%) at fortnightly interval from the commencement of
new flush.
Mango shoot borer
Downward tunnelling in terminal shoots caused by dark pink caterpillar with dirty spots is
seen. Abnormal stunting with bunchy appearance of terminal branch is seen under high
severity of attack by shoot borer. 32
33. Symptoms of mango shoot borer
infestation
Tip drying
Multiple branch formation 33
34. Mango stem borer
The grubs feed by
tunneling the bark of
branches and main
stem. Shedding of
leaves and drying of
terminal shoots takes
place in early stage of
attack while damage
to main stem causes
tree death. Chewed
food matter along
with excreta is seen at
the infestation site.
34
35. 1. Grow tolerant mango varieties viz., Neelam, Humayudin
2. Remove and destroy dead and severely affected branches of the tree
3. Avoid injury at the base of trunk while pruning
4. Remove alternative hosts like moringa, silk cotton in the near vicinity of mango plant.
5. During off-season, apply absorbent cotton soaked in 10 ml monocrotophos 36 SL per
tree by padding without unnecessarily injuring the trunk.
6. Use a needle or long wire to pull out the grubs from the bore holes. The bore holes
may be filled with DDVP @ 5 ml or monocrotophos 36 WSC 10 to 20 ml or one
celphos tablet (3 g aluminum phosphide) or apply carbofuran 3G 5 g per hole and
plug with clay + copper oxychloride paste.
7. Swab Coal tar + Kerosene @ 1:2 or Carbaryl 50 WP 20 g / L (basal portion of the
trunk - 3 feet height) after scraping the loose bark to prevent oviposition by adult
beetles.
Mango stem borer Management
35
37. Nymphs and adults lacerate the tissues and suck the oozing cell sap. Thrips feeds on
leaves, florescence, and young fruits. Leaf feeding species feed on mesophyll tissues
near leaf tips. Affected leaves show silvery shine, leaf edges curls upward and bear
small spots of faecal matter. Affected fruits show corky appearance.
If the infestation is severe, can be controlled by either dimethoate (0.1.5%) or
Monocrotophos (0.1%). Spraying of Abamectin, Azadirachtin, Deltamethrin, Lambda-
cyhalothrin or Lufenuron in their recommended dose can control this pest. .
37
Mango Thrips
39. Symptoms: A major pest in Orissa, West Bengal and Coastal Andhra Pradesh. Pest is active
from January to May. Adults lay eggs on fruits. After hatching larvae bore into fruits. Fully
grown caterpillars (25 mm) have red bands on body alternating with white bands.
Caterpillars bore into the fruit at the bottom (beak region) and feed inside reaching Kernels.
Entrance hole is plugged with excreta. Affected fruits rot and fall prematurely.
Management
1. Collection of fruits and dead wood after fruit harvest.
2. Destroy all fallen fruits.
3. Spray fenthion (0.1%) at marble size onwards and repeat with Deltamethrin 28 EC @ 1ml/l
after two weeks in case of heavy infection.
4. No spray should be given fortnight before harvest.
39
Mango Fruit borer
41. Symptoms: Tiny caterpillars mine under the dorsal epidemics of tender leaves and feed within;
as a result grayish white blisters appear on leaves.
Management
Clipped off destroy the affected shoots.
Spray quinalphos (0.05%) or fenthion (0.1%) from the emergence of new flush.
41
Mango Leaf miner
42. Red tree ant
Symptoms: The ants web and stitch together a few leaves, usually at the top of the
branches and build their nests. The ants are carnivorous and prey upon small insects.
However, indirect damage is caused by protecting insects like aphids and scales, which
excrete honey dew
Management
1. Nests should be removed and destroyed mechanically by web cutting device.
2. Spraying any contact insecticides, like quinalphos, or Chlorpyriphos or Dimethoate after
disturbing the nest. 42