5. Occurance
Moths are recorded to be warm tropic.
Most abundant in rainy season.
Active from may to october.
During active period it complete 4-5 generations.
Humid and high temperature is considered important for
insect abundance.
6. Identification
Eggsare creamy white.
Eggs are laid in batches along
the midrib of the leaf blade .
Eggs are 0.90mm long and
0.39mm wide.
Eggs are oval in shape.
7. Larvaeare light yellow or
greenish yellow
Young Larvae are 1.5-2mm long and
0.3mm wide. Fully grown larva is
20-25mm long.
Body turn green after larvae start feeding.
8. Newly formed pupa is light brown
but turns reddish brown .
Pupation take place in loose
silken web in between leaf sheath
9. Adultare golden or
yellowish brown.
Wings have 2-3 dark stripes
Moths are 10-12mm long.
Wings expense is 13-15mm.
10. Life cycle
EGG LARVA
ADULT PUPA
Eggs hatch in a
week
Larval
stage
complet
e in 5
weeks
Pupal stage last
for 2 weeks
The life cycle
complete in 5
weeks.
11. Damage
During high insect population densities, rice plants dry up and appear scorched.
Before feeding, the larvae fold the leaves longitudinally and fasten leaf margins with
stitches of threadlike silk.
The larvae feed by scraping the green mesophyll
from within the folded leaves . This results in
pale white stripe damage to the leaf.
after feeding on one fold for 2-3 days,
it moves to another leaf.
each larva destroys a number of leaves during its growth.
12. Feeding reduces photosynthetic ability of rice plant.
The damaged leaves serve as entry points for fungal and bacterial infections.
The maximum yield loss due to feeding on the flag leaf.
13. Control
CULTURAL CONTROL:-
trapping the moths by light traps.
Removal of grassy weeds from rice fields and surrounding borders prevents
the buildup of rice leaf- folders on alternate hosts.
BIOLOGICAL CONTROL:-
frogs and toads are considered predators of leaf folders.
Trichogramma spp. Is effective parastoid.
Numerous natural enemies normally push rice leaf folders below economic threshold
levels.
diptera
(Megaselia scalaris)
Hymenoptera
(Trichogramma spp.)
Coleoptera
(Coccinella spp.)
14. CHEMICAL CONTROL:-
use of nitrogenous fertilizer in split applications is
recommended.
Microbial insecticides, particularly Bacillus
thuringiensis (Acrobe,leptox ) is effective against
larvae.
Application of cartap G 9kg/acre .
(cartep hydrochloride)
Application of chlorpyrisfos EC 1000ml/acre.
15. RESEARCH
More than 18,000 rice varities from the germplasm collection
of IRRI have been screened for resistance to Cnaphalocrocis
medinalis. Nearly 115 were found resistant or moderately
resistant. Several rice varieties such as Ptb 21, Ptb 33, TKMI,
TKM2, TKM6, Muthuman- ikam, and WC1263, are resistant to
Cnaphalocrocis medinalis.
REFERENCE
Heinrichs E A, Camafiag E, Romena A (1985) Evaluation of rice cultivar for resistance
to Cnaphalocrocis medinalis Guenée (Lepidoptera: Pyralidae). J. Econ. Entomol.
78:274-278.