Introduction to Plant Pathology PDF

Summary

This document provides an introduction to plant pathology, covering plant diseases caused by various pathogens, including fungi, bacteria, viruses, and nematodes. It also describes the role of the environment and the disease cycle.

Full Transcript

Introduction to Plant Pathology
 What is a plant disease?

A plant disease is any abnormal condition that alters
the appearance or function of a plant. It is a
physiological process that affects some or all plant
functions. Disease may also reduce yield and quality
of harvested product.

Disease is a process or a change that occurs over
time. It does not occur instantly like injury.
 What is a plant disease?

Visible effects of disease on plants are called
symptoms. Any detectable changes in color, shape,
and/or functions of the plant in response to a
pathogen or disease-causing agent is a symptom.

Signs of plant disease are physical evidence of the
pathogen, for example, fungal fruiting bodies,
bacterial ooze, or nematode cysts. Signs also can help
with plant disease identification.
 What causes plant disease?

Infectious plant diseases are caused by living
organisms that attack and obtain their nutrition from
the plant they infect. The parasitic organism that
causes a disease is a pathogen. Numerous fungi,
bacteria, viruses, and nematodes are pathogens of
corn and soybean in Iowa.

The plant invaded by the pathogen and serving as its
food source is referred to as a host.
 Types of pathogens
Fungi Bacteria

Viruses Nematodes
 Role of the environment

A favorable environment is critically important for
disease development – even the most susceptible
plants exposed to huge amounts of a pathogen will
not develop disease unless environmental conditions
are favorable.
The Disease Triangle

Host
The Disease Triangle

Soybean rust
 Groups of plant pathogens - fungi

Vast majority are beneficial
Can cause plant, human, and
livestock diseases
Most cannot be seen without a
microscope
Lack chlorophyll
Composed of growing structure
of delicate, threadlike filaments
called hyphae
Reproduce by forming spores
 Groups of plant pathogens - bacteria

Extremely small organism
requiring microscope to be seen
Bacteria population can increase
in number in short time period
Cells clump together in masses
called colonies
Obtain food from dead or
decaying organic matter or living
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tissue
Spread plant to plant by wind-driven rain
Gain entrance through natural plant openings or injuries
 Groups of plant pathogens - viruses

Most familiar because they
cause human and animal
diseases such as influenza, polio,
rabies, smallpox, and warts
Cause some destructive plant
University of Florida
diseases
Measure only about one-
millionth of an inch in size
Are not complete living systems
Survive only in living cells
Transmitted by insects which are called vectors
Groups of plant pathogens - nematodes

Round, slender,
threadlike worms
Some are parasites on
animals, insects, fungi,
other nematodes, and
plants
Plant-parasitic
nematodes have a stylet
Most live in the soil and
feed in or on plant roots
 Disease cycle

Survival Inoculum
produced
Production of
survival Dispersal
structures

Symptoms Colonization Infection

Adapted from P. Vincelli, 2005
 Comparison of disease cycles

Fungi Bacteria Viruses Nematodes
Survival Crop residue Crop residue - Crop residue
Soil Soil - Soil
Alt. hosts Alt. hosts Alt. hosts -
- Insect vectors Insect vectors -
Dispersal Wind Wind - Tillage
Rain Rain - Equipment
Insects Insects Insects Water run-off

Infection Directly - - Directly
Wounds Wounds - -
Insect feeding Insect feeding Insect feeding -
 Inoculum
Source of inoculum varies for each disease

May be produced on residues left in the field
Present in the soil
Present in weeds or other crops in the area
Present in or on the seed
Present in soil sticking to equipment or tools
Carried by wind or water
Carried by insect vectors
Carried in by animals, birds, and people
 Spread of inoculum
Two ways

1. Plant placed in soil that contains a pathogen

2. Inoculum moves from its source to host plant

Keith Weller, U.S. Department of Agriculture
 Mode of pathogenesis

There are many ways in which plant disease pathogens can affect plants
1. By utilizing host cell contents
2. By killing host or by interfering with its metabolic processes through their
enzymes, toxins etc.
3. By weakening the host due to continuous loss of the nutrients.
4. By interfering with the translocation of the food, minerals land water.

Routes of entry of pathogens are as follows
First contact of pathogen with host –on plant surface
Aerial plant part surfaces consist primarily of cuticle and/or cellulose
Root cell wall surfaces that consist only of cellulose.
Cuticle consists primarily of cutin
Lower layer consisting predominantly of pectic substances
Polysaccharides of various types are often found in cell walls.
epidermal cell walls may also contain suberin and lignin.

Pathogen attack the plant by degrading these substances by several
enzymes
 Mode of pathogenesis

Mode of pathogenesis of organisms are
Enzymes
Toxins
Growth regulators
polysaccharides

Enzymes
Enzyme Degrading Pectin
Eg. Brown rot (Monilinia fructicola) in plum– Bacterium Erwinia sp.–
Pseudomonas.
Enzyme Degrading Cellulose
Eg.Corn stalk rot fungus-Fusarium
Enzyme Degrading Lignin
Ceratocystis paradoxa (stem bleeding in coconut)
 Toxins

Fungal toxins:
Mycotoxin – Aflotoxin,
fumonisin
Mushroom toxin-
Amanitia muscaria, A.
phallaoid

Bacterial toxin
Syringomycin-
Pseudomonas syringae
pv. Phaseolotoxin-
Pseudomonas
phaseolicola
Fungal Diseases
 RUST OF WHEAT

Wheat leaf rust is a common fungal disease in wheat, rye and barley. This disease
affects, the stems, leaves and grains of these plants.
The pathogen that causes the wheat leaf rust is the Puccinia rust fungus.Leaf rust,
caused by Puccinia triticina, is the most common rust disease of wheat.
Stem rust (also known as black stem rust) is caused by Puccinia graminis.It is
primarily a disease on wheat, though it can also cause minor infections on certain
cultivars of barley and rye.

Mode of Transmission
Leaf rust spores are spread by wind and splashing water. Optimal environmental
conditions for development of infection are temperatures ranging from 59 to 68
degrees F and at least six hours of moisture on the leaf surface.
 RUST OF WHEAT Continued…

Symptoms
dusty, reddish-orange to reddish-brown fruiting bodies that appear on the leaf
surface
Treatment
Select rust-resistant plant varieties when available.
Pick off and destroy infected leaves and frequently rake under plants to remove all
fallen debris.
Water in the early morning hours — avoiding overhead sprinklers — to give plants
time to dry out during the day.
 Late Blight of Potato

Late blight is caused by the fungus pathogen Phytophthora infestans. This
potentially devastating disease can infect potato foliage and tubers at any stage of
crop development.
Symptoms
The first symptoms of late blight in the field are small, light to dark green, circular to
irregular-shaped water-soaked spots.
These lesions usually appear first on the lower leaves. Lesions often begin to
develop near the leaf tips or edges, where dew is retained the longest.
Late blight, also called potato blight, disease of potato and tomato plants that is
caused by the water mold Phytophthora infestans.
The disease occurs in humid regions with temperatures ranging between 4 and 29
°C (40 and 80 °F)
Treatment and Control
Use potato tubers for seed from disease-
free areas to ensure that the pathogen is not
carried through seed tuber.
The infected plant material in the field
should be properly destroyed.
Grow resistant varieties like Kufri Navtal.
Fungicidal sprays on the appearance of
initial symptoms
 Red rot of sugarcane

Red rot is a very serious disease of sugarcane.
The symptom of the disease is the reddening of the internal internodal tissues with
crossbars of white patches in the reddened area.
This red colour is caused by a dye which is secreted by the host and is antagonistic
to the red rot fungus.
Symptoms
Third leaf from top start - yellowing
Later infected cane – shriveled
Rind shrink
Cane light in weight & easily broken
Reddening of pith with clear area (white) running across the width of the cane
Causative organism :- Colletrotrichum falcatum
Perfect stage:- Glomerella tucumanensis
 Red rot of sugarcane

The fungi causing the disease occur in two stages.
Asexual stage, which is called anamorph or imperfect
stage.
Perfect stage :-which is called teleomorph or the sexual
stage.
Treatment and control
Use Always Disease-free seed treatment –
Carbendazim @ 2.5 gm/lit. of water for 30 minutes
Hot water treatment – 52° C for 8 hrs or 54° C for 2 hrs
Hot air treatment - 54° C for 6 hrs
Removal of infected stools
Crop rotation 2-3 yrs
Use disease Resistant. Varieties.- Cos -767
 BACTERIAL DISEASES OF PLANT

Plant pathogenic bacteria cause many different kinds of symptoms that include
galls and overgrowths, wilts, leaf spots, specks and blights, soft rots, as well as
scabs and cankers.
In contrast to viruses, which are inside host cells, walled bacteria grow in the
spaces between cells and do not invade them.
 CITRUS CANKER

Citrus canker it is a disease affecting Citrus species caused by the bacterium
Xanthomonas sps.
Infection causes lesions on the leaves, stems, and fruit of citrus trees, including lime,
oranges, and grapefruit.
Causative organism -Citrus canker is caused by Xanthomonas citri. It is a gram
negative, monotrichous, capsulated bacillus, non-endospore forming which is strictly
aerobic in nature.
Symptoms
Citrus canker causes premature leaf and fruit drop, twig dieback, general decline, and
blemished fruit Blister-like lesions on leaves and fruit start small and expand as the
disease progresses.
These lesions may darken to tan or black and develop a water-soaked margin with a
yellow halo surrounding it.
 CITRUS CANKER

The center of the lesion on leaves as well as on stems and twigs can appear raised
and corky or scabby surrounded by a water-soaked margin.
Mature lesions on older symptomatic leaves may have a shot-hole look and these
lesions eventually die and fall out.
Treatment and control
1. Complete destruction of diseased plant by burning them.
2. Use of disease free nursery stock for planting.
3. Spraying the plant before planting with 1% Bordeaux mixture.
4. Antibiotic spray with streptomycin, phytomycin.
5. Spraying leaves with neem-cake (160 lbs/acre).
6. Disease resistant varieties.
 BLIGHT OF RICE
Rice bacterial blight, also called bacterial blight of rice. It is a deadly bacterial
disease that is among the most destructive afflictions of cultivated rice (Oryza
sativa and O. glaberrima).
Major rice cultivating countries are: China, India, Indonesia, Bangladesh,Vietnam,
Thailand,Myanmar and Philippines.
Xanthomonas oryzae pv. Oryzae is the Causative organism and it causes wilting
of seedlings, yellowing and drying of leaves.
Transmission
The disease usually occurs during the early stage of planting from maximum
tillering to panicle initiation
Older plants are more resistant to the disease.
The disease is transmitted through seeds
Infection occur through wounds and stomata
Infected seeds present in the water or those surviving in the debris left after
 BLIGHT OF RICE

harvest, are also sources of inoculums in the next planting season.
The disease also disperse and spread by wind and rain water.
High dose of nitrogenous fertilizer, excessive shade and close planting favour the
disease Symptoms
On seedling, the infection appears tiny water soaked spot at the margin on the
leaves.
On leaf blade, the infection begins at the margin as water socked stripe.
Resulting in the wavy margin and yellow leaf within few days.
The lesion can cover the whole blade, turn white and later grayish contaminated
with various saprophytic fungi.
A turbid ooze of the bacterium, streaming from the vascular bundle can be observed
on dipping the cut end of affected leaves in clear water.
Symptoms observed at the tillering stage.
Seedling wilt can be observed in 1-3 weeks after transplanting.
 BLIGHT OF RICE

Treatment and control
Planting resistant varieties is efficient way to control bacterial
blight.
Use balanced amounts of plant nutrients, especially nitrogen.
Ensure good drainage of fields and nurseries.
Keep fields clean. Remove weed hosts and plow under rice
stubble , straw which can serve as hosts of bacteria.
Allow fallow fields to dry to suppress disease agents in the
soil and plant residues.
Seed treatment with bleaching powder (100g/ml) and zinc
sulphate (2 per cent) reduce bacterial blight.
Copper compounds and antibiotics.
Application of streptocycline @.6% for spray
 VIRAL DISEASES OF PLANTS

Plant viruses consist of a nucleoprotein that multiplies only in the living cells of a
host.
viruses are generally specific, what infects a plant does not cause disease in an
animal, and vice versa. The first record of a disease that was later found to be
caused by a plant virus was on tulips in the 17th century in the Netherlands.
First experimental demonstration of the infectious nature of viral disease was
recorded by Lawrence, who described the transmission of a disease of jasmine by
grafting.
Properties of plant viruses
Noncellular, ultramicroscopic particles, that multiply only in living cells. very, very
small! (size measured in nanometers).
Most plant viruses consist of protein shells surrounded by a core of positive-
stranded nucleic acid (normally ssRNA - nucleotides , but sometimes these
viruses contain dsRNA or dsDNA.
 VIRAL DISEASES OF PLANTS

5-40% of virus is nucleic acid 60-95% is protein. Protein coats or shells can be
different shapes, but are normally rod, filamentous, isometric, quasi-
isometric/bacilliform or variants of these structures.
Transmission
Mechanical transmission through sap by plants touching one another
Through root grafts, and manhandling.
Vegetative propagation and grafting.
Seed, pollen, mites, nematodes, dodder,
Fungi (carried by zoospores and mycelium)
Insects (aphids, leafhoppers, scale insects, thrips, grasshoppers, beetles,
whiteflies).
 LEAF CURL OF PAPAYA

Papaya leaf curl disease is caused by Papaya leaf curl virus (PaLCuV), a
begomovirus naturally transmitted through whitefly (Bemisia tabaci).
Papaya leaf curl was first reported in Tamil Nadu in 1939.
Causative organism- Papaya leaf curl virus (PaLCuV), is a DNA virus from the genus
Begomovirus and the family Geminiviridae.
PaLCuV causes severe disease in papaya (Carica papaya), but can sometimes
infect other crops such as tobacco or tomato.
Symptoms
The most prominent symptoms are the rolling of the leaves
downward and inward in the form of an inverted cup and the
thickening of veins.
 LEAF CURL OF PAPAYA

Sometimes all the leaves at the top of the plant are affected by these symptoms.
In advanced stages of the disease, defoliation takes place and the growth of the
plant is arrested.
The production of flower and fruits are compromised.
Fruits will be detorated in shape and fall immaturely.
Transmission
Vector: Silver leaf whitefly (Bemisia tabaci).
Treatment and control
Immediately after the disease is noticed, the plant must be uprooted and destroyed.
Avoid growing alternative hosts such as tomato and tobacco near papaya.
Spray insecticides for vector control.
 VEIN CLEARING OF LADY’S FINGER

This is a viral disease occurring on bhendi (Okra/Lady's Finger).
Yellowing of the entire network of veins in the leaf blade is the characteristic
symptom.
The veins of the leaves will be cleared by the virus and interveinal area becomes
completely yellow or white.
The veins become considerably thickened.

Causative organism
This disease is caused by a complex Begomovirus Bhendi yellow vein mosaic virus
(BYVMV, family: Geminiviridae) and a small satellite DNA beta component.
BYVMV can systemically infect bhendi upon agroinoculation but produces only mild
leaf curling in this host.
Bhendi yellow vein mosaic was first reported in okra plants in 1924 in India and Sri
Lanka.
 VEIN CLEARING OF LADY’S FINGER

Symptom
Vein clearing and vein chlorosis of leaves.
The complex network of interwoven yellow, thickened veins and veinlets encloses
islands of green tissue.
In severe cases, the chlorosis may extend to the interveinal area and leaves may
turn completely yellow.
Fruits are dwarfed, malformed and yellow-green.
Transmission
The virus is transmitted by the whitely Bemisia tabaci
Treatment and control
Use resistant cultivar
Sow disease free certified seeds
Follow crop rotation Keep the field free from weeds Control vector with suitable
insecticide
 Potato Spindle Tuber Disease

Potato Spindle Tuber Viroid (PSTVd) is an EU listed quarantine pathogen of
potatoes which causes stunting of the plant and malformation and cracking of
tubers.
The main host is potatoes but the disease also affects tomatoes and solanaceous
ornamentals.
Symptoms
Mild strains generally cause no obvious symptoms in potatoes. However severe
strains in sensitive cultivars may cause foliage to be spindly, very upright, with
overlapping leaflets and sometimes with upward rolling of terminal leaflets.
Plants will be stunted.
Tubers may show the following deformities; small, elongated, cylindrical, spindle or
dumb-bell-shaped, with prominent eyes evenly distributed over the tuber, and
cracking.
Sprouting is slower than in healthy tubers
 Potato Spindle Tuber Disease

Transmission
The disease is mechanically transmitted by contact between healthy and diseased
plants, tractor wheels, tools, etc. Within potato plants, it is found most readily in the
upper leaves and tubers.
Transmission in true seed of potato depends upon the cultivar. PSTVd can pass
through both the pollen and ovule.
Long Range dispersal mainly occurs through the movement of infected tubers and
true seed.
PSTVd can also be spread by aphids. But this only occurs in the presence of
Potato leaf roll virus (PLRV).
Control
There are no chemical or biological controls available to control PSTVd within
infected plants.
 Potato Spindle Tuber Disease

Therefore control is essentially through the use of healthy virus-free seeds or
planting material, and good crop sanitation practices.
If infection does occur, destruction of infected plants and strict hygiene measures to
prevent infection of subsequent crops are the only courses of action.
 Nematodes as Pathogen

A number of genera and species of nematodes are highly damaging to a great
range of hosts, including foliage plants, agronomic and vegetable crops, fruit and
nut trees, turfgrass, and forest trees.
Some of the most damaging nematodes are:
Root knot (Meloidogyne spp.);
Cyst (Heterodera and Globodera spp.);
Root lesion (Pratylenchus spp.);
Spiral (Helicotylenchus spp.);
Burrowing (Radopholus similis);
Bulb and stem (Ditylenchus dipsaci);
Reniform (Rotylenchulus reniformis);
Dagger (Xiphinema spp.); and Bud and leaf (Aphelenchoides spp.).
Nematodes as Pathogen
Symptoms of Fungal Disease
Symptoms of Fungal Disease
Symptoms of Fungal Disease
Major Biological Control Strategies for
Plant Pathogens

Biological Control of Plant Pathogens
Kamal Krishna Pal*, Visiting Scholar,
Department of Plant Pathology, Ohio State
University, OARDC, Wooster, OH Brian
McSpadden Gardener, Department of
Plant Pathology, Ohio State University,
OARDC, Wooster, OH *Permanent
address: National Research Centre for
Groundnut, Ivnagar Road, PB No. 5,
Juangadh-362 001, Gujarat, India
Penetration of inoculum and infection
Infection occurs when a pathogen successfully enters a plant
and grows, reproduces, and spreads within the plant
Pathogens enter a host through natural openings, wounds on
plant surfaces, or by penetrating directly into the plant

Spore Mycelial Pustule
Penetration Sporulation
germination growth formation

Syngenta
 Secondary cycles
Some diseases have only one cycle during the growing
season (often root rots)
Some diseases develop secondary or repeating cycles
during the growing season (often foliar diseases)
Number of cycles
depends on the
pathogen, susceptibility
of the host, and
environmental conditions
 Pathogen survival
Pathogens survive season to season in:

Soil
Crop residue
Weed or noncrop hosts
Seed or vegetative plant parts
Insects
Mild climates
 Summary
Understanding the difference between a sign and a symptom
is key in identifying a plant disease
A plant disease cannot develop if a susceptible host, pathogen,
and favorable environment do not occur simultaneously
The major plant pathogens responsible for disease
development in plants are fungi, bacteria, viruses, and
nematodes
The disease cycle describes the interaction of the pathogen
with the host