Little Leaf of Brinjal PDF

Summary

This document describes the little leaf disease of brinjal, a common agricultural problem. It explains the causes, symptoms, and methods for managing the disease. The document involves the study of phytoplasma-caused little leaf disease, and focuses on the prevention, and control of the disease in brinjal plants. It also touches upon various aspects of the disease including its history, transmission, and the impact on crop yield.

Full Transcript

LITTLE LEAF OF BRINJAL 🍆
Phytoplasma(Mycoplasma like Organisms)
Brinjal (Solanum melongena)
Botanical Name: Solanum melongena
Family: Solanaceae
Origin: India
Cultivation: Widely grown in Asia, Egypt, France, Italy, and
the United States
Hardiness: Hardy crop, adaptable to dry areas with low
irrigation
Nutritional Value: Moderate source of vitamins and
minerals
Growing Season: Can be grown year-round
Global Production: India is the second largest producer
after China
Major Growing States in India: West Bengal, Orissa,
Karnataka, Bihar, Maharashtra, Uttar Pradesh, and Andhra
Pradesh.
Importance of Brinjal Cultivation in India

Brinjal is a popular vegetable in India, known for its
versatility and nutritional value. It is a good source of:
Vitamins: C, B1, B2, B5, K
Minerals: Potassium, manganese, copper, phosphorus
Brinjal contributes to:
Health: Immunity, heart health, digestion
Economy: Income for farmers
Culture: Indian cuisine
Causal agent of little leaf disease in brinjal (eggplant):
1. Cause: A tiny bacteria-like organism called a phytoplasma

2. Scientific name: "Phytoplasma trifolii"

3. Where it lives: Inside the plant's food-carrying tubes (phloem)

4. How it spreads: Carried by small insects called leafhoppers

5. Main insect carrier: Hishimonus phycitis( Leafhopper)

6. Can't be grown: in labs like normal bacteria TEM IMAGE OF SIEVE TUBES INFECTED
WITH PHYTOPLASMA TRIFOLII
7. Detection: Special lab tests like PCR are needed

8. Other hosts: Can also infect related plants and some weeds

9. Impact: Can cause very serious damage to eggplant crops

10. Control: Mainly by managing the insect carriers

LEAF HOPPER
 Reason for little leaf condition

Interference with Meristem Activity: Phytoplasma can interfere with Phytoplasma can alter the expression of genes involved in the
the normal function of the meristems, the regions of the plant where biosynthesis of gibberellins. The effector proteins produced by
active cell division and elongation occurs. This can lead to a phytoplasma may suppress the activity of enzymes responsible for
reduction in cell elongation and increase in the number of cells that converting precursors into active gibberellins. This leads to lower
form the leaves, resulting in smaller leaf size. levels of gibberellins in the plant.For instance, the suppression of
Hormones responsible for growth and development is gibberellins might contribute to excessive shoot proliferation
1. Gibberllin (witches' broom) and the development of small leaves (little leaf
2. Auxin syndrome).
3. Cytokinin Interference with Auxin Biosynthesis: Phytoplasma infection do not
Effector protein-SAP54 and TENGU degrade but down regulate the expression of genes involved in the
biosynthesis of auxins, such as TRYPTOPHAN AMINO TRANSFERASE
OF ARABIDOPSIS (TAA) and YUCCA (YUC) genes, which are
responsible for the production of indole-3-acetic acid (IAA), the main
form of auxin. This inhibition results in reduced auxin levels in the
meristematic tissues, leading to stunted growth and smaller leaves..
 Cytokinin Overproduction: Phytoplasmas can also manipulate the plant's cytokinin levels, leading to abnormal
shoot proliferation (e.g., "witch's broom") and stunted leaf development. This overproduction of cytokinins can
result in smaller leaves as the plant's growth processes become uncoordinated.
You may get a question about if the number of cell division increases in the means why the leaf doesn't grow but
it results in small leaves?
Reduced Cell Elongation: Cytokinin overproduction can inhibit the elongation of cells in the leaves. While
cytokinin stimulates cell division, the lack of corresponding cell elongation means that each leaf is composed of
many small cells, rather than fewer, larger cells. This results in leaves that are smaller overall because they do not
expand to their normal size.

stimulates cell division, the lack of corresponding cell elongation means that each leaf is composed of many
small cells, rather than fewer, larger cells. This results in leaves that are smaller overall because they do not
expand to their normal size.
History

First Reported:
Little leaf disease in brinjal was first documented in
Coimbatore, India, in 1939 by agricultural
scientists Thomas and Krishnaswami.
Key Observations:
They observed a peculiar condition in brinjal plants
characterized by significantly reduced leaf size,
stunted growth, and overall plant decline.
This distinctive symptom of "little leaf" gave the
disease its name.
 Transmission of Little Leaf Disease in Brinjal

Vector-Borne Disease:
Little leaf disease in brinjal is primarily transmitted by insect vectors, specifically lea oppers. These
tiny, sap-sucking insects play a crucial role in spreading the disease from infected plants to healthy ones.
Transmission Process:
1.Infection: Leafhoppers acquire the disease-causing phytoplasma by feeding on the sap of infected
brinjal plants.
2.Movement: The infected leafhoppers then move to healthy plants and feed on their sap.
3.Transmission: As they feed, they inject the phytoplasma into the healthy plants, causing them to
become infected.
Factors A ecting Transmission:
Lea opper Population: The abundance of leafhopper populations in a particular region can
significantly influence the spread of little leaf disease.
Crop Density: Densely planted brinjal fields can provide favorable conditions for leafhoppers to thrive
and transmit the disease.
Weather Conditions: Warm(28-30), humid weather can favor the survival and activity of leafhoppers,
promoting disease transmission.
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How Phytoplasma Causes Little Leaf Disease:
1.Infection: Phytoplasma enters the plant through
insect vectors, primarily leafhoppers. Once inside
the plant, they spread throughout the vascular
system.
2.Disruption of Plant Processes: Phytoplasma
interferes with various plant processes, including:
◦ Hormone synthesis: They can disrupt the
production of plant hormones, leading to
abnormal growth and development.
◦ Nutrient transport: Phytoplasma can interfere
with the movement of nutrients within the
plant, causing nutrient deficiencies.
◦ Photosynthesis: The efficiency of
photosynthesis may be reduced, leading to
decreased plant vigor and growth.
Life Cycle
Symptoms of Little Leaf Disease in Brinjal

1. Tiny leaves: 1/3 to 1/4 normal size
2. Short leaf stalks
3. Yellow, soft, thin leaves
4. Stunted plant growth
5. Bushy appearance
6. Leaf-like flowers (phyllody)
7. Plant sterility
8. Malformed, tough fruits
9. Loss of thorns in thorny varieties
10. General yellowing (chlorosis)
Control Measures for Little Leaf Disease in Brinjal - Vector Management

1. Insecticide Application:
Use Malathion, Profenofos, or Cypermethrin
Target leafhopper vectors

2. Trapping:
Install yellow sticky traps
Divert insect vectors

3. Biological Control:
Trichogammae Wasp are used as a biocontrol agent
Control Measures for Little Leaf Disease in Brinjal - Cultural Practices

1. Sanitation:
Remove and destroy infected plants
Eradicate susceptible weed hosts

2. Crop Management:
Practice crop rotation
Remove volunteer plants from previous seasons

3. Timing Adjustments:
Adjust sowing time to avoid peak leafhopper activity ,i.e,
October to December

4. Resistant Varieties:
Plant disease-resistant cultivars when available
Eg: ISD006, BL114 and BL095
Control Measures for Little Leaf Disease in Brinjal - Chemical Control & Integrated Approach

1. Antibiotic Treatment:
Spray tetracycline hydrochloride

2. Integrated Approach:
Combine multiple control strategies
Vector control + Cultural practices + Chemical control
Questions???????
Reference :
https://en.wikipedia.org/wiki/Little_leaf_of_brinjal
https://www.plantsdiseases.com/p/diseases-of-brinjal.html
https://www.biologydiscussion.com/plant-pathology/little-leaf-of-brinjal-mycoplasma/64310
https://nhb.gov.in/bulletin_files/vegetable/brinjal/bri002.pdf
https://bmcplantbiol.biomedcentral.com/articles/10.1186/s12870-024-05257-4
https://plantix.net/en/library/plant-diseases/300055/little-leaf-of-brinjal/
https://krishisevakendra.in/blogs/news/measures-to-control-cercospora-leaf-spot-in-brinjal
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