Page 25 - Volume 4, Issue 1, January 2011
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Nematicidal effect of entomopathogenic nematodes and garlic components
23
survive the first application hatch into in-
fective juveniles, which are subsequent-
ly killed by the second application. Alterna-
tively, due to the high volatility of the diallyl
disulfide and the protective nature of the
egg mass (11), repeated applications are re-
quired to achieve higher effectiveness. It is
also worth mentioning that neither the sin-
gle nor the double application of diallyl dis-
ulfide caused any phytotoxicity.
It can be concluded that both
S. car-
pocapsae
and diallyl disulfide exhibit signifi-
cant nematicidal or nematostatic properties
and have the potential for nematode con-
trol. However, more parameters should be
studied, such as plant parasitic nematode
initial infestation density, soil type, applica-
tion time, dosage and repeated applications
of diallyl disulfide.
Literature Cited
Agbenin, N.O., Emechebe, A.M., Marley, P.S. and
1.
Akpa, A.D. 2005. Evaluation of nematicidal ac-
tion of some botanicals on
Meloidogyne incogni-
ta
in vivo and in vitro.
Journal of Agriculture and
Rural Development in the Tropics and Subtropics
,
106: 29-39.
Akhurst, R. and Boemare, N.E. 1990. Biology and
2.
taxonomy of
Xenorhabdus.
In Gaugler, R. and
Kaya, H.K. (eds)
Entomopathogenic nematodes
in biological control
, CRC Press, Boca Raton, FL,
pp. 75-87.
Bird, A.F. and Bird, J. 1986. Observations on the
3.
use of insect parasitic nematodes as means of
biological control of root-knot nematodes.
In-
ternational Journal of Parasitology,
26: 511-516.
Burman, M. 1982.
4.
Neoplectena carpocapsae
:
A toxin production by axenic insect parasitic
nematodes.
Nematologica,
28: 62-70.
Cetintas, R. and Yarba, M.M. 2010. Nematicidal
5.
effects of five plant essential oils on the South-
ern Root-Knot nematode,
Meloidogyne incogni-
ta
Race 2.
Journal of Animal and Veterinary Ad-
vances
, 9: 222-225.
Grewal, P.S., Lewis, E.E. and Venkatachari, S.
6.
1999. Allelopathy: a possible mechanism of sup-
pression of plant-parasitic nematodes by ento-
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1: 735-
743.
Gupta, R. and Sharma, N.K. 1993. A study of the
7.
nematicidal activity of allicin – an active princi-
ple in garlic,
Allium sativum
L., against root-knot
nematode,
Meloidogyne incognita
(Kofoid and
White, 1919) Chitwood, 1949.
International Jour-
nal of Pest Management,
39: 390-392.
Kaya, H.K. and Stock, S.P. 1997. Techniques in
8.
insect nematology. In Lacey, L. (ed.)
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techniques in insect pathology.
Academic Press,
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Lewis, E.E., Grewal, P.S. and Sardanelli, S. 2001.
9.
Interactions between the
Steinernema feltiae,
Xenorhabdus bovienii
insect pathogen complex
and the Root-Knot nematode
Meloidogyne in-
cognita
.
Biological Control
, 21: 55-62.
Molina, J.P., Dolinski, C., Souza, R.M. and Lew-
10.
Table 1.
Effects of diallyl disulfide (Dd), used alone or in combination with dead or live
Stein-
ernema carpocapsae
(Sc), on the number of female
Meloidogyne javanica
(
Mj
), 28 days after
inoculation of potted tomato plants (cv. ‘Belladona’).
Treatment
Rate/dose
Time of application (dpi)
1
Nematodes per root
2
Control
0
0
243 a
3
Dd
2 μl/ml
0
112.8 cd
Dd
2 & 2 μl/ml
0 & 7
76.4 def
Live Sc
7,000 IJ
0
165.4 b
Dead Sc
7,000 IJ
0
133 bc
Live Sc + Dd
7,000 IJ + 2 μl/ml
0
104.2 cde
Live Sc + Dd
7,000 IJ + (2 & 2 μl/ml)
0 + (0 & 7)
71.2 ef
Dead Sc + Dd
7,000 IJ + 2 μl/ml
0
101 cde
Dead Sc + Dd
7,000 IJ + (2 & 2 μl/ml)
0 + (0 & 7)
59.4 f
LSD = 40
1
dpi: days post-
Mj
inoculation
2
Mean of five replicates
3
Numbers followed by the same letter do not differ significantly at P<0.001
