REVISTA DE BIOLOGIA E CIÊNCIAS DA TERRA ISSN 1519-5228 - Artigo_Bioterra_V24_...
Ear cockle and yellow ear rot diseases of wheat
1. Ear-Cockle and Yellow Ear-Rot Diseases of Wheat
Caused By Anguina tritici
Submitted By :- Jayant Yadav, C.C.S.H.A.University, Hisar, Haryana
2. Etymology & History
Common name : Wheat seed gall nematode (Anguina tritici)
Etymology :- anguinos = snake-like and tritici = host crop
First PPN to be recorded by Needham in 1743.
Steinbuch 1799 described it as Vibrio tritici.
Filipjev 1936 gave it the name Anguina tritici.
In India, first reported by Milne 1919 from Punjab.
3. Systematic Position
Phylum : Nematoda
Class : Secernentea
Order : Tylenchida
Suborder : Tylenchina
Superfamily : Tylenchoidea
Family : Anguinidae
Genus : Anguina
4. Diagnostic characters
Female
Adult female obese in the middle, 2.64-4.36 mm long; body
coiled when heat relaxed; spear weak; 8-10 1m long with small
knobs; oesophagus with a lobed basal bulb; ovary single with
one or two flexures, anteriorly extending up to basal bulb,
oocytes arranged in multiple rows about a rachis; vulva
posterior; tail elongated conoid.
Male
Shorter than females, 2.04-2.4 mm long, more straight than
females; bursa not covering the tail completely,; spicules short
and broad.
7. Distribution and Hosts
Distribution
Once present in all wheat growing regions of the world including Europe,
Asia, USA, Australia, New Zealand, Russian states.
Problem in India, eastern Europe and middle east.
India – Northern wheat growing states : Bihar, UP, MP, Rajasthan, Haryana,
Punjab, Delhi.
Hosts
Specific to wheat
Different species of Anguina form galls on different plant parts .
8. Biology and Life cycle
Parasite of above-ground parts.
Source of infection – seed material contaminated with cockles.
Each seed gall (cockle) contains 3000-12000 J2 in quiescent stage.
Gain moisture in soil, become active and come out into soil.
Ascend the growing point of germinating seedlings.
Feed ectoparasitically between leaf sheaths and growing point till earhead emergence
Carried up along the growing plant, shielded among young leaves surrounding
growing point.
Enter floral primordia when earhead still inside boot leaf, become endoparasite.
Earheads emerge, nematodes moult quickly to adults inside green galls.
Each gall may contain several adults, mate inside, females lay eggs, fecundity high.
9. Eggs hatch into J2 , and become quiescent inside the gall as the crop matures.
Only one life cycle in a season.
Can survive inside a dried gall for 32 years.
Contd…..
10. Symptoms
Name of the disease – Gegla, Sehun, Mamni, Earcockle.
Above-ground symptoms
Basal swelling of stem at 20-25 days.
Crinkling, curling and twisting of leaves.
Stunting and prostrate growth of the crop.
Increased tillering.
Earhead formation preponed.
Affected earheads are shorter and broader.
Glumes arranged loosely.
Galls replace the seeds.
11. Fig :- Basal Swelling, Crinkling and Curling of Leaves
15. Fig :- Contents Of Ear Cockles ( i.e J2 ’s emerging from cockles )
16. Interaction with other pathogens
Anguina tritici + Clavibacter tritici = Tundu disease or Yellow ear rot
Nematode acts as vector.
Initial symptoms same.
Low temperature and High humidity favour disease.
Yellow slimy ooze on leaves, stem, earheads.
Upon maturity, turns brown.
No grain formation.
Earheads may not emerge from boot leaf.
Tundu is more damaging than ear cockle.
17.
18. Control
Separation of cockles from seed.
Dry cleaning
Winnowing/Fanning
Plain Water or Salt water (10-20%) floatation.
Seed galls float on surface, seeds sink
Skim off the galls and destroy them
Use of certified seed.
Possible to eradicate both diseases easily.
19. CONCLUSIONS
In typical bacterial ear-rot disease, nematodes were not found in infected
tissues.
Plants whose ears showed bacterial symptoms only rarely showed nematode
galls.
Although such plants always showed typical symptoms of nematode attack in
early stages of their growth.
Whenever an ear was partially infected with the bacterium the rest of the ear
had normal wheat grains and only very ocasionally did the bacterium infected
ears show gall formation. These galls however did not contain viable larvae.
In such instances , larvae had entered the wheat ovaries before the bacterium
became the dominant pathogen.
In low concentrations bacterium is present without affecting nematode
viability. But under favourable conditions of plant host the bacterium multiplied
rapidly and produced an environment in which nematode can not survive.