CPRT-43-LECTURE-1-Biological-Control.pdf

Transcript

BIOLOGICAL
CONTROL OF PLANT
PATHOGENS
MECHANISMS OF
BIOLOGICAL
CONTROL
Types of interspecies antagonism leading to
biological control of plant pathogens:
TYPE MECHANISM EXAMPLES
Direct antagonism Hyperparasitism/ Lytic/some nonlytic
predation mycoviruses
Ampelomyces quisqualis
Lysobacter enzymogenes
Pasteuria penetrans
Trichoderma virens
Mixed-path Antibiotics 2,4-diacetylphloroglucinol
antagonism Phenazines
Cyclic lipopeptides
Lytic enzymes Chitinases
Glucanases
Proteases
Unregulated waste Ammonia
products Carbon dioxide
Hydrogen cyanide
Types of interspecies antagonism leading to
biological control of plant pathogens.
TYPE MECHANISM EXAMPLES
Mixed-path Physical/chemical Blockage of soil pores
antagonism (cont.) interference Germination signals
consumption
Molecular cross-talk confused
Indirect Competition Exudates/leachates
antagonism consumption
Siderophore scavenging
Physical niche occupation
Induction of host Contact with fungal cell walls
resistance Detection of pathogen-
associated, molecular patterns
Phytohormone-mediated
induction
HYPERPARASITISM AND PREDATION

 most direct form of antagonism
 pathogen is directly attacked by a specific
BCA that kills it or its propagules
 4 Major Classes of Hyperparasites:
1. obligate bacterial pathogens (Pasteuria
penetrans)
2. hypoviruses (dsRNA-mediated)
3. facultative parasites
4. predators
HYPERPARASITISM AND PREDATION

Pasteuria penetrans - a mycelial, endospore-forming,
bacterial parasite that has shown great potential as a
biological control agent of root-knot nematodes
- spores adhere to the nematode
cuticle (outer surface), infect the nematode and
develop inside of the nematode body.
HYPERPARASITISM AND PREDATION
Hypoviruses - group of RNA viruses that infect
the chestnut blight fungus Cryphonectria
parasitica
- reduce virulence (hypovirulence)
of their pathogenic fungal host, providing the
basis for their use as biological control agents
ANTIBIOTIC-MEDIATED SUPPRESSION
(mixed-path antagonism)
 involves antibiotic secretion and the
production of volatile antagonistic
compounds
 antibiotics are microbial toxins that can, at
low concentrations, poison or kill other
microorganisms A B
 O OH O

H 3C CH 3

HO OH
Some of the antibiotics produced by BCAs
ANTIBIOTIC SOURCE TARGET DISEASE
PATHOGEN
2,4-diacetyl- Pseudomonas Pythium spp. Damping-off
phloroglucinol fluorescens F113
Agrocin 84 Agrobacterium Agrobacterium Crown gall
radiobacter tumefaciens
Bacillomycin D Bacillus subtilis Aspergillus flavus Aflatoxin
AU195 contamination
Bacillomycin, Bacillus Fusarium Wilt
fengycin amyloliquefaciens oxysporum
FZB42

Xanthobaccin A Lysobacter sp. Aphanomyces Damping off
cochlioides
Gliotoxin Trichoderma virens Rhizoctonia solani Root rots

Herbicolin Pantoea Erwinia Fire blight
agglomerans C9-1 amylovora
Some of the antibiotics produced by BCAs
ANTIBIOTIC SOURCE TARGET PATHOGEN DISEASE

Iturin A Bacillus subtilis Botrytis cinerea and Damping off
QST713 Rhizoctonia solani
Mycosubtilin Bacillus subtilis Pythium Damping off
BBG100 aphanidermatum

Phenazines Pseudomonas Gaeumannomyces Take-all
fluorescens 2-79 graminis var. tritici
and 30-84
Pyoluteorin, Pseudomonas Pythium ultimum and Damping off
pyrrolnitrin fluorescens Pf-5 Rhizoctonia solani

Pyrrolnitrin, Burkholderia Rhizoctonia solani and Damping off
pseudane cepacia Pyricularia oryzae and rice blast

Zwittermicin A Bacillus cereus Phytophthora Damping off
UW85 medicaginis and
Pythium
aphanidermatum
LYTIC ENZYMES AND OTHER
BYPRODUCTS OF MICROBIAL LIFE
 lytic enzymes can hydrolyze a wide variety of
polymeric compounds, including chitin, proteins,
cellulose, hemicellulose and DNA
 Ex. Serratia marcescens produce chitinase
which is effective against Sclerotium rolfsii
COMPETITION
 microorganism must effectively compete for
available nutrients
 production of siderophores is important for
microorganisms which requires iron (an
extremely limited micronutrient in the
rhizosphere)
 siderophores are iron-binding ligands with high
affinity to sequester iron from the micro-
environment
 COMPETITION
 Pseudomonas aeruginosa and P. fluorescens
(from potato rhizosphere) – secrete hydroxamate
siderophore, hydrocyanic acid, and IAA
 against Fusarium oxysporum
 INDUCTION OF HOST RESISTANCE
 can be local and/or systemic in nature
 induced resistance - physiological “state of
enhanced defensive capacity” elicited by
specific environmental stimuli, whereby the
plant’s innate/basal defenses are potentiated
against subsequent biotic challenges (van
Loon et al., 1998)
 elicitors stimulate the plant's active defenses
before the pathogen is present… can also help
strengthen passive defenses as well
2. SCREENING
 ultimatesuccess of biocontrol
depends on how well the searching
and screening is done
 “thereis no single, correct way to
search or screen”
 bothdepend on the target pathogen,
the crop and the cropping system