Upload
lily-cox
View
229
Download
5
Tags:
Embed Size (px)
Citation preview
TodayToday
CharacteristicsCharacteristics Brief HistoryBrief History Nematodes as ParasitesNematodes as Parasites ImportanceImportance Form and Function Form and Function General Disease Cycle of Plant General Disease Cycle of Plant
Parasitic NematodeParasitic Nematode
NematodesNematodesChapter 15 pg 826 - 874Chapter 15 pg 826 - 874
The term Nematode is of Greek and Latin originThe term Nematode is of Greek and Latin origin Greek LatinGreek Latin
Nema = thread oid = like = "threadlike worms"Nema = thread oid = like = "threadlike worms" Nematodes are animals therefore they are in :Nematodes are animals therefore they are in :Kingdom Animalia Kingdom Animalia Phylum NemataPhylum Nemata
30,000 described species 30,000 described species 3,000 attack plants3,000 attack plants
Characteristics of a Characteristics of a nematode:nematode:
1. Invertebrate (without a backbone)1. Invertebrate (without a backbone)
2. Pseudocoelomate (body cavity not surrounded by 2. Pseudocoelomate (body cavity not surrounded by
peritoneum)peritoneum)
3. Round in cross section 3. Round in cross section
4. Vermiform (worm shaped) at one or more points in its life 4. Vermiform (worm shaped) at one or more points in its life
cyclecycle
5. Heterotrophic (must eat for metabolic synthesis)5. Heterotrophic (must eat for metabolic synthesis)
6. Nonsegmented (as opposed to true worms and insects)6. Nonsegmented (as opposed to true worms and insects)
7. Motile (sinusoidal wavelike movement resulting from 7. Motile (sinusoidal wavelike movement resulting from
contractions in the longitudinal muscles) contractions in the longitudinal muscles)
Active movement by nematodes rarely exceeds 75 cm. Active movement by nematodes rarely exceeds 75 cm. However, spreading of nematodes is primarily due to passive However, spreading of nematodes is primarily due to passive means such as movement of infested soil and crop residue means such as movement of infested soil and crop residue and by water. and by water.
Nematode SizeNematode SizeNematodes range in size from about 200 Nematodes range in size from about 200
microns microns SphaeronmemaSphaeronmema minutissimaminutissima to 26 to 26 feet for the blue whale parasite, feet for the blue whale parasite, PlacentanemaPlacentanema gigantissima.gigantissima.
Plant parasitic species range from Plant parasitic species range from 250250 to to 3,0003,000 microns long and microns long and 1515 to to 3535 microns microns in diameter. in diameter.
Nematode SizeNematode Size
HistoryHistoryAncient timesAncient times
1) Emperor's Classic of Internal Medicine (2700 1) Emperor's Classic of Internal Medicine (2700
BC - China) - reference to the intestinal BC - China) - reference to the intestinal
roundworm, roundworm, Ascaris lumbricoidesAscaris lumbricoides
2) Hippocrates (430 BC) - first record of the 2) Hippocrates (430 BC) - first record of the
pinworm, pinworm, Enterobius vermicularisEnterobius vermicularis
3) The Bible (Deuteronomy 14: 6-8) - sanitation 3) The Bible (Deuteronomy 14: 6-8) - sanitation
laws for the Hebrewslaws for the Hebrews
4) The Bible (Numbers 21:4-9) 4) The Bible (Numbers 21:4-9)
Fiery Serpent = Fiery Serpent =
Dracunculus medinensisDracunculus medinensis
HistoryHistory
Modern Times (Europe)Modern Times (Europe)
1) 1743 - Needham observes 1) 1743 - Needham observes Anguina tritici Anguina tritici in blighted in blighted
wheat kernelswheat kernels
2) 1855 - Berkeley describes first root-knot nematode on 2) 1855 - Berkeley describes first root-knot nematode on
cucumber in a glasshouse in England.cucumber in a glasshouse in England.
3) 1870-1910 - Kuhn works with and perfects the first 3) 1870-1910 - Kuhn works with and perfects the first
method of soil fumigation (carbon disulfide) for method of soil fumigation (carbon disulfide) for
nematode control.nematode control.
HistoryHistoryModern Times (America)Modern Times (America)
1) 1851 - Leidy publishes first study of nematodes in 1) 1851 - Leidy publishes first study of nematodes in
the U.S.the U.S.
2) 1900s - Many and varied works of N. A. Cobb, the 2) 1900s - Many and varied works of N. A. Cobb, the
father of nematology in the U.S.father of nematology in the U.S.
3) 1948 - 1st Nematology course at the University of 3) 1948 - 1st Nematology course at the University of
California, Berkeley.California, Berkeley.
4) 1961 - Society of Nematologists founded4) 1961 - Society of Nematologists founded
Where do nematodes Where do nematodes live?live?
Nematodes of Humans!Nematodes of Humans!
Pinworm – especially childrenPinworm – especially children Hookworm – domestic animals, Hookworm – domestic animals,
humans are a dead hosthumans are a dead host Heartworms - domestic animals, Heartworms - domestic animals,
humans are a dead hosthumans are a dead host Trichinella – trichinellosis of manTrichinella – trichinellosis of man Guinea wormsGuinea worms ElephantiasisElephantiasis
Where do nematodes Where do nematodes live?live?
90%90% of all plant parasitic nematodes are found in of all plant parasitic nematodes are found in the roots and in the soil environment.the roots and in the soil environment.
In this environment, 2/3 live asIn this environment, 2/3 live asectoparasitesectoparasites and 1/3 as and 1/3 as endoparasitesendoparasites..
Some species Some species Have juveniles as ecto and adults as endoparasitesHave juveniles as ecto and adults as endoparasites Will change parasitism depending on age and type of Will change parasitism depending on age and type of
host, environment, etc. host, environment, etc. Migratory or sedentary Migratory or sedentary
10%10% of all plant parasitic nematodes are found on of all plant parasitic nematodes are found on or in above ground plant parts.or in above ground plant parts.
In this environment, only 1/5 live as ectoparasites In this environment, only 1/5 live as ectoparasites while the majority live as endoparasites. while the majority live as endoparasites.
Life-sustaining Life-sustaining cropscrops % Loss% Loss
Other Other economically economically
important important cropscrops
% % LossLoss
BananaBanana 19.719.7 CitrusCitrus 14.214.2
BarleyBarley 6.36.3 CoffeeCoffee 15.015.0
Cassava Cassava 8.48.4 CottonCotton 10.710.7
ChickpeaChickpea 13.713.7 EggplantEggplant 16.916.9
PotatoPotato 12.212.2 GrapeGrape 12.512.5
RiceRice 10.010.0 PapayaPapaya 15.115.1
SoybeanSoybean 10.610.6 PineapplePineapple 14.914.9
SugarcaneSugarcane 15.315.3 TomatoTomato 20.620.6
AverageAverage 10.710.7 AverageAverage 14.014.0
ImportanceImportanceAnnual losses due to nematodes are estimated at over $80 billion.
Important concepts:Important concepts:1.1. All nematodes have well-developed muscular, All nematodes have well-developed muscular,
digestive, excretory, reproductive, and nervous digestive, excretory, reproductive, and nervous systems all covered with a layer of cells called the systems all covered with a layer of cells called the cuticle.cuticle.
2. Nematodes differ from higher animals in that they 2. Nematodes differ from higher animals in that they lack organized circulatory and respiratory systems.lack organized circulatory and respiratory systems.
3. The digestive and reproductive systems are of the 3. The digestive and reproductive systems are of the most taxonomic importance. Only adult females most taxonomic importance. Only adult females should be used when identifying nematodes.should be used when identifying nematodes.
Important concepts:Important concepts:
4. The digestive system extends from the mouth 4. The digestive system extends from the mouth to the anus and includes these parts:to the anus and includes these parts:
a.a. MouthMouth, which is in the center of 6 lips, which is in the center of 6 lipsb. b. StyletStylet, structure that acts as a syringe and , structure that acts as a syringe and
is used to:is used to:1. penetrate the plant cell 1. penetrate the plant cell 2. secrete enzymes and take up nutrients from the 2. secrete enzymes and take up nutrients from the plant plant 3. help hatch from egg3. help hatch from egg
c. Esophagus, which contains a c. Esophagus, which contains a median bulbmedian bulb that performs as a pump for enzyme that performs as a pump for enzyme secretion and nutrient uptake. secretion and nutrient uptake.
d. Intestine, facilitates digestion and absorption d. Intestine, facilitates digestion and absorption of nutrients.of nutrients.
e. Anus, opening from which waste is expelled e. Anus, opening from which waste is expelled from the intestine.from the intestine.
MorphologyMorphology
Important concepts:Important concepts:
5. Reproductive system5. Reproductive system
a. a. MaleMale Testes, location of Testes, location of spermsperm production production
SpiculesSpicules, paired, protrusible copulatory structures , paired, protrusible copulatory structures that are used to open the vulva for sperm that are used to open the vulva for sperm depositiondeposition
b. b. FemaleFemale Ovary, location of egg production, nematodes Ovary, location of egg production, nematodes may have one or two ovariesmay have one or two ovaries
VulvaVulva, transverse opening to the outside , transverse opening to the outside environment environment
Nematode Reproduction Nematode Reproduction
There are three types of nematode There are three types of nematode reproduction:reproduction:
1. 1. AmphimixisAmphimixis - union of sperm and egg - union of sperm and egg
2. 2. HermaphroditismHermaphroditism - functional male and - functional male and female sex organs on the same individualfemale sex organs on the same individual
3. 3. ParthenogenesisParthenogenesis - the production of - the production of offspring from eggs which have NOT been offspring from eggs which have NOT been fertilized fertilized
A nematode life cycle (egg to egg) generally A nematode life cycle (egg to egg) generally requires 3 to 4 weeks. requires 3 to 4 weeks.
General LifecycleGeneral Lifecycle
1. Egg development1. Egg development2 First-stage juvenile (J1) 2 First-stage juvenile (J1)
occurs within the eggoccurs within the egg3. J1 molts (shedding of 3. J1 molts (shedding of
cuticle), becomes a cuticle), becomes a second-stage juvenile second-stage juvenile (J2), and hatches (J2), and hatches
4. J2 (4. J2 (infective stageinfective stage) molts ) molts to J3to J3
5. J3 molts to J45. J3 molts to J46. J4 molts to adult (the 6. J4 molts to adult (the
fourth and final molt)fourth and final molt)7. Depending on the 7. Depending on the
species, mature adults species, mature adults produce eggs singly or in produce eggs singly or in mass after mating or mass after mating or parthenogenesis parthenogenesis
DamageDamageMechanical injury results from the nematode stylet puncturing Mechanical injury results from the nematode stylet puncturing
the cell wall, and is followed by the secretion of enzymes and the cell wall, and is followed by the secretion of enzymes and nutrient extraction. This process leaves cells that are nutrient extraction. This process leaves cells that are damaged or completely destroyed. damaged or completely destroyed.
Nematode damage can result in a variety of symptoms: Nematode damage can result in a variety of symptoms: 1. Lesions1. Lesions2. Galls or swellings 2. Galls or swellings 3. Excessive root branching 3. Excessive root branching 4. Twisted or distorted stems and/or leaves 4. Twisted or distorted stems and/or leaves 5. Disruption in flower development / sterility 5. Disruption in flower development / sterility 6. Dead or incapacitated root tips6. Dead or incapacitated root tips
Disease ComplexesDisease ComplexesWhile nematodes are devastating pathogens by themselves, While nematodes are devastating pathogens by themselves,
their most significant influence in agriculture is a result of their most significant influence in agriculture is a result of their participation in pathogen complexes. their participation in pathogen complexes.