Management of Leaf Curl Disease of Chilli (Capsicum annuum L.)
Susheel Kumar Pandey,
In present study management of chilli leaf curl disease has been studied. The management of leaf curl disease, by plant products showed that Neem Seed kernal extract (5%) found most effective than Karanj and Tumba seed extract. Management by insecticides, imidacloprid 17.8 SL (0.003%) was most effective than spinosad 48 EC (0.02%), malathion 50 EC (0.05%), acephate 75 SP (0.1%) and methyl-demeton 25EC (0.025%). Management of chilli leaf curl was done by seed extract of plants and insecticides at different concentrations.
Chilli crop is attacked by a large number of pathogens but heavy losses are
caused due to viruses. Several viral diseases attack this crop and induce mild
to severe mosaic, yellow mosaic, mosaic mottle, leaf curl, leaf roll, bushy
stunt and necrosis symptoms. The leaf curl disease of chilli caused by chilli
leaf curl virus is transmitted by viruliferous whitefly (Bemisia tabaci
Genn.). In India, Senanayake et al. (2006) have
reported first time chilli leaf curl virus on chilli crop. Duleep
Kumar Samuel (1990) observed that the flower extract of 20 plant species
when mixed with the infective sap obtained from chilli mosaic virus infected
plants were inhibitory. Rajasri et al. (1991)
evaluated six synthetic insecticide, four neem preparations and one chitin inhibitor
as foliar spray against chilli pests complex including mite, P. latus
under field conditions in Andhra Pradesh during 1989 and found chitin inhibitors,
dulhar least effective against P. latus. Triazophos proved the best among
the synthetics, whereas neem preparations gave poor results as compared to synthetic
insecticides. Rustamani et al. (1994) conducted
field experiments to see the effectiveness of different insecticides against
B. tabaci on chillies. Recommended concentration of Thiodon 35 EC (endosulfan),
Azodrin 40 EC (manocrotophos), Anthio 25 EC (formothion) and Curocron 50 EC
(profenifos) were spread thrice at two-weekly intervals. Formothion found significantly
more toxic against B. tabaci. The disease incidence was also dependent
on the effectiveness of insecticides against B. tabaci. The incidence
of leaf curl virus observed higher in untreated check plots. Venkatesh
et al. (1998) reported that chilli leaf curl complex was caused by
leaf curl geminivirus (CLCV) transmitted by chilli mite (Polyphagotarsonemus
latus), whitefly (Bemisia tabaci) and thrips (Scirtothrips dorsalis).
Unah et al. (1999) used cypermethrin, decomethrin,
carbofuron and formothion for control of B. tabaci on irrigated capsicum
in the Nigeria. Dhawan et al. (2002) tested four
genotypes of capsicum viz., AVRDC-183, Hisar Vijay, Hisar Shakti and Pusa Jwala
grown during 1996 to 1999. Observations on whitefly populations and disease
incidence were recorded at ten days intervals. Disease management studies were
performed by treating three nursery beds separately by spraying with malathion,
neem based insect repellent and water (as control) prior to transplanting to
the field. Misra (2003) observed that efficacy of five
insecticides i.e., Naclfmoa 1.9 EC (fermentation metabolite) at 15, 20 and 25
mL ha-1, abamectin (Vertimec) 1.9 EC at 20 mL ha-1, dimethoate
(Rogar) 30% at 300 mL ha-1, dicofol (Hilfol) 18.5% EC at 500 mL ha-1
and ethion (Phosmite) 50% EC at 250 mL ha-1 were evaluated in a field
at Bhubaneshwar. Ethion proved superior in controlling the leaf curl disease
of chilli. Noor (2004) conducted a trail in Jodhpur,
Rajasthan for two years to control early season pests of chilli av. RCH-1 (Scirtothrips
dorsalis and Polyphagotarsonemus latus) using different insecticides,
applied through various methods. The methods included seed bed (soil) treatment,
seedbed + seedling root tip and seedling spray. The insecticides used were phorate,
monorotophos, carbofuron, acephate and methyl demeton applied individually or
in combination and found phorate 10 G @ 3 g m-2 applied as seed treatment
followed by monocrotophos (0.05%) root dip before transplanting was highly effective
in controlling the pests and leaf curl disease. However, the treatment with
carbofuron 3 G (10 g m-2) soil treatment acephate (0.05%) as seedling
root dip showed similar efficacy. Khan et al. (2006)
observed that natural incidence of mosaic and leaf curl disease on various cultivars
of chilli at Banthra Research Station of NBRI, Lucknow. The virus isolates causing
mosaic and leaf curl diseases in chilli cultivars were transmitted by aphids
and whiteflies, respectively.
MATERIALS AND METHODS
This experiment was conducted at S.K.N. College of Agriculture, Jobner during
January 2007 to May 2007. The experimental field was prepared by ploughing thrice
with cultivator followed by planking for making a good soil texture fine tilt
and smooth soil surface. Recommended doses of FYM (1 t ha-1) were
mixed thoroughly in soil before 30 day transplanting of seedlings and nitrogen
(100 kg ha-1), phosphorous (50 kg ha-1) and potash (50
kg ha-1) were drilled and mixed thoroughly in soil by light harrowing
before transplanting. Thirty-five days old healthy seedlings of local variety
that of chilli raised in nursery under insect proof conditions were planted
in each plot in 3-4 cm. Six irrigations were given weeding was done regularly
to keep the plots weed free. Different plant seeds extracts viz., Neem (Azadirachta
indica) seed kernel extract, Tumba (Citrullus colecynthis) seed extract
and Karanj (Pongamia pinnata) seeds were broken and their cotyledons
collected. Collected cotyledons ground separately. Sterilized distilled water
and cotyledons were mixed in 1:1 ratio (v/w). These grounded seed cotyledons
were squeezed through two folds of muslin cloth and it centrifuged at 3500 rpm
for 30 min. The experiments were conducted with three treatments of seed extract
viz., Neem (Azadirachta indica) seed kernel extract, Tumba (Citrullus
colecynthis) seed extract and Karanj (Pongamia pinnata) seed extract
and one treatment of untreated check without spray. The concentrations of different
seed extracts were used. Each treatment was replicated four times in Randomized
Block Design (RBD). For disease management (controlling vector) by insecticides
the experiment was conducted with five treatments of insecticides viz., methyl-demeton
25 EC, imidacloprid 17.8 SL, malathion 50 EC, spinosad 48 EC and acephate 75
SP including untreated check. Each treatment was replicated three times in Randomized
Block Design (RBD). The concentrations of different insecticides were used.
The first foliar spray of vector management substances was done just after the
appearance of the vector in the experimental area. The second and third sprays
were done at fortnightly intervals after first spray. In control plots sprays
was not given. One square meter scale was used for observing the disease incidence
in each plot by counting total number of plants as well as diseased plants.
Percent disease incidence was calculated by following formula suggested by Nene
Reduction in disease incidence: Percent disease reduction was calculated by following formula:
where, C is percent disease incidence in untreated plants, T is percent disease incidence in treated plants.
In disease management (controlling vector) by plant seed extracts, observation taken on percent disease incidence in foliar sprays of different plant extracts showed that percent disease incidence of chilli leaf curl was lower in all the seed extracts treatments in comparison to untreated check (Table 1). Result also indicated that the disease incidence was lowest in the treatment of Neem seed kernel extract showing 27.78% followed by Tumba seed extract (33.33%) and Karanj seed extract (36.11%) and in disease management (controlling vector) by insecticides, observations taken on disease management by controlling vector (Whiteflies) revealed that percent disease of chilli leaf curl was lower in all the insecticidal treatments than untreated check (Table 2). Minimum disease incidence was observed 14.81% with the use of imidacloprid at 0.003% followed by acephate at 0.1% (25.92%), methyl demeton at 0.025% (25.92%), malathion at 0.05% (29.62%) and spinosad at 0.02% (33.33%).
The management of plant viruses has two aspects (1) protection of host with disease inhibiting materials, so that either virus multiplication in them decrease or stops or insect vector fails to acquire viruses from infected hosts and (2) use of disease inhibiting materials for the control of vectors.
|| Effect of plant seed extracts on the incidence of chilli
leaf curl disease
|*Average of four replications. Values in parentheses are angular
|| Effect of plant seed extracts on the incidence of chilli
leaf curl disease
|Average of three replications. Values in parentheses are angular
Among the three seed extracts tested, Neem seed kernal extract (NSKE) was most
effective showing 27.78% disease incidence and the reduction in disease incidence
in comparison to control was 60%, whereas, reduction in disease incidence in
comparison to control were 52 and 48% in Tumba and Karanj seed extracts, respectively
(Table 1). During present investigations NSKE has been found
highly effective in reducing the transmission of chilli leaf curl virus by checking
the vector population. The efficacy of NSKE has been reported by several workers
against white fly (Singh et al., 1988; Ragupathi
and Veeraragavathatham, 2002). However, these results also indicating that
NSKE is having both virucidal as well as insecticidal properties. Mariappan
et al. (1995) also observed similar results of mosaic of chilli.
During the study Tumba and Karanj seed extract also gave good results. Chilli
pepper seedlings were sprayed with neem seed extract (NeemAzal T/S, 1% of azadiractin)
at concentrations of 0.05, 0.10, 0.15 and 0.20 g a.i. L-1, with abamectin
1.8% (Vertimec 18 CE) and with water. Adult females of P. latus were
transferred to each treated plant and after 6 days, the instantaneous rate of
increase (ri) was calculated (Venzon et al., 2008).
In disease management by the use of insecticides, The data recorded during
present investigation revealed that imidacloprid at 0.003% concentration level
was found to be best treatment for checking the vector of leaf curl disease
of chilli resulting minimum disease incidence (14.81%) and reduced maximum percent
disease than the other treatments (Table 2). Since, imidacloprid
is a new molecule hence no literature is available for supporting to data. The
next effective treatment was acephate (0.1%) and methyl-demeton (0.025%) followed
by malathion (0.05%) and spinosad (0.02%). Rao et al.
(1984) evaluated 18 insecticides for the control of pest complex of chilli,
acephate was recommended as the most effective compounds against the chilli
pest complex as a whole. Similar results observed by Ganesha-Naik
and Muniyappa (2004), in case of leaf curl disease of tomato.
Noor (2004), in control of early season pests of chilli. The efficacy of
the following insecticides for their control of this pest on Scotch Bonnet pepper
on St. Vincent: spinosad, imidacloprid, chlorfenapyr, novaluron, abamectin,
spiromesifen, cyfluthrin, methiocarb and azadirachtin were evaluated. Irrespective
of the number of applications and use of surfactant, chlorfenapyr was the most
effective in reducing the densities of S. dorsalis adults and larvae
followed by spinosad and imidacloprid. The performance of other insecticides
in controlling S. dorsalis populations was inconsistent. Nevertheless,
all of the above insecticides if applied repeatedly were effective in suppressing
of S. dorsalis populations (Seal et al., 2006).
Dhawan, P., J.K. Dang and R. Mehra, 2002. Capsicum leaf curl disease in relation to weather variables and its eco- friendly management. Capsicum Eggplant Newslett., 21: 77-80.
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Venzon, M., R.M. Consolac-ao, M.R. Adrian Jose, D.V. Silveira, D. Rondinelli and P. Angelo, 2008. Acaricidal efficacy of neem against Polyphagotarsonemus latus (Banks) (Acari: Tarsonemidae). Crop Prot., 27: 869-872.