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44
Evaluation of Organic Pest Managernent Techniques
Against Tea Mosquito Bug in Cashew
D. SUlJdarrl.r~tl, P. Shivarama Bhat and T.N. Ravipras;lJ
INTRODUCTION
Mirid bugs belonging to genus He/opeltis calied ka mosquito bugs (TMB) are the
most s-:rious foliage and fruit pests of cashew in India. Under west coast condition, three
spl:cies o r He/ope/lis (H. antonii Sign. H. theivora Watl:rh and H. bradyi Waterh.) infestcashew, whcrc:lS in other regions, only one species (H. antonii) exists on cashew. However,
in all regions, Il. anlonii is the dominant species causing severe damage. Its feeding injury
leads to necrosis which is attributed as one of the causes of infection and manifestation of
blossom blight and Jieback diseases due to various funga! pathogens resulting in maximum
yield loss. On cashew. its build up commences during October-November synchronising
with the emergencl' of new flushes, after cessation of the monsoon. The population reaches
a peak during.J anuary, when the trees are in full bloom. The pest prevails predominantly in
the plantation till May and subsequently exists in negligible number during monsoon period
(June-September) especially in older plantations (Sundararaju' and Sundararbabu, 1999a).
Under severe out-break situation, only insecticidal application rescues the cashew crop
from ravage ofTMB. As the major cashew importing countries (USA and EU) have alreadyimposeJ restrictions on cashew kernels having pesticidal residues, research on non-chemical
pesticides techniques viz., host plant resistance. botanical pesticides and biological control
were done at National Research Centre for Cashew (NRCC) since 1987. The information
available at NRCC on above a~pects was compiled and presented in this paper.
Host Plant Resistance
A total of 76 cashew accessions consisting of released varieties, promising accessions
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Evaluation of Organic Pest Management Techniques Against Tea Mosquito Bug in Cashew 349
and tolerant accessions located in TMB hot spot area (endemic area), germplasm and progeny
evaluation trial were screened during 1988-92 under laboratory through cage screening
technique in order to confIrm genetic basis of resistance. The results revealed that all
accessions were susceptible (Sundararaju and John, 1993 andSundararaju, 1999).
Subsequently, 392 cashew accessions available in the National Cashew Field Gene Bank
(NCFGB) were also screened for resistance to TMB and no resistance could be detected.
Bhaskara variety, a promising selection was collected from severe TMB infested hot
spot area of Goa state as a tolerant type to TMB. In order to confIrm its tolerance to TMB
under field condition, thirty cashew grafts were planted in a plot with a spacing of 6 x 6mduring 1989 and the whole plot was maintained without any insecticidal application. In
each year, the overall TMB damage of each tree was also assessed qualitatively as; very
low (50%). Tree-wise-yield data
was collected from J 992-93-200 1-02 cropping season (Le., from 2nd to 11th harvest). The
damage ofTMB was in the range of very low to severe in the initial years (upto six years of
age) and subsequently fluctuated between very low to moderate and moderate to severe).
The varied level of TMB damage during different years was mainly due to clumpingl
patchy distrihution of TMB. Since, Bhaskara variety has the mid-season flowering habit,
clear cut delay of one to two months in buildup of population was seen over early flowering
varieties especially in older plantations and thus, it has got potential to escape from TMB
attack as a phenomenon of pseudo resistance when compared to early varieties(Sundararaju, 2005).
Tab le 44 .1 . Yie ld and TMB ( tea mosqu ito damage) in va r ious ages 01Bhaskara cashew var ie ty under unpro tected cond it ion
Year (P lan ted du r ing 1989) Ra n g e o f T M B d a m a g e Yie ld in kg
Per tree Per ha "
Mean ' Range
2'
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350 Organic Horticulture - Principles, Practices and Technologies
From the yield data of sixth to eleventh harvest, it was found that whenever the TMB
damage was low to moderate, the yield level was not affected drastically when compared
to damage level of moderate to severe. Further, this variety has also yielded more than
1 tlha from fourth harvest onwards and the highest yield of 2.975 tlha (l0.7 kg/tree) was
obtain~d during 11th harvest (Table 44.1) (Sundararaju et al., 2006).
Evaluatio of Plant Products (botanicals)
A number of plant products viz., Nee,n oil, Cotton seed oil, Butea jmndosa L. leaf .
extract (LE), Adathoda vasic L., LE, Pongo'nia llil suspension (OS), POllgamia OS i" lime
solution, Pongamia solvent extr:.tct (inn- hL'xanc), Calophyllum oil, Vitex IICgIllU.'f)L.. LE,
Thc\Qria 11 'riljo/ia Juss. LE, SlIychllou;, l1'U. \' JlniCQ L., LE and fruit extract, to!'acco
decoction, Annona seed extract (commercial formulation from Mis Godrej Ltd.), PaIn rosa
oil (RAZE""), Neem Commercial formulations ( 'imbicidine, RD-9 Repllin, Godn.:jAcliook,
Limanool,). Dillapiole extract, Garlic extract (CB+) and Phalada III C lexlracts of Seeds
of Saphora japonica Qnd Annona relieulata L. + leaf extracts ofAdatllOda I'Osica, Sap' 'ldus
trifoli(lllls L. and Pongamia pinnata (L.)) were e\aluated at different concentrations ranging
from 0.1 to 1).0% (Table 44.2) against TMB during 1992 -2006 and nonc were found to be
effective (NRCC, 2002; Raviprasad et al., 2002; Sundararaju, 2004a; Bhat and RaviprJsad,
2007). Even' smoking of the canopy in the carly morning with dried leavc:-;of cashew or
V.negundo neither caused any mortality ofTMB nor reduced its damage on cashew (NRCC,
2(00). Though neem contains repellent and insecticidal properties due to secondarymetabolites (Iimonoids/tetratriterpenoids). T B causes severe damage on neem and
overcomes those phytochemicals through its salivary mechanism. It is possible as it-; salivary
gbnds secrete various detoxifying salivary enzymes (catechol oxidase. peroxidase and
catalase) and free amino acids (Sundararaju and Sundarababu, 1996 and 1999b). Because
of this phennmenon. all the plant products tc~ted :.tgainstTMB were found to be ineffective.
Table 44.2. L is o f p lant produc ts (botan ica ls) eva luated agains t tea m osquito bug at Nationa l Research Cent re for Cashew,
Pul tur.
5 1 . N o . N a m e o f p la n t p r od u c ts e v a l u a te d
1 . N eem o il
2 . C olto n s ee d o il
3 . B u te a f ro n d os a L. leaf extract
4 . A d at ho d a v as ic a Nees. leaf extract
5. P o n g a m i a oi l suspension
Pongam la oi l suspension in lime solut ion
Pongam ia oi l suspension in l ime solu1ion
Pongam ia solvent extract (in n hexane)
6 . C a lo p hy ll um oi l
Concent rat ion tes ted (% )/ dosai! ! :
5.0
5.0
5.0
5.0
5.0 & 6.0
2.0
4.0
5.0
5.0
(Gontd.)
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Evaluation of Organic Pest Management Techniques Against Tea Mosquito Bug in Cashew 351
5 1 . N o . N a m e o f p la n t p ro d u c ts e v a lu a t e d Concent rat ion tes ted (% )/ dos age
7 . V ite x n e gu n do L.leaf extract 5.0
8 . T h e v a ti a n e r ii fo l ia Juss. leaf extract 5.0
9 . S tr yc h no u s n u x v om i ca L.leaf extract 5.0
S. nux v om ica Fruit extract 5.0
H J . Tobacco decoction 100g/31itre water
1 1. A nn on a seed extract (commercial formulatio:l from M!s Godrej Ltd.) 5.0
12. Palmrosa oil (RAZEe) 0.5
1'3 . I\'eem Commercial formulations
t ,imbicidine 1.0
RD9 Repllin 1.0
Godrej Achook 1.0
Llmanool 1.0
1j. Dillapiole extract 1.0
15. Garlic extract (GB+) 0.4
16. Phalada III C [extracts of Seeds ofSa ph ora ja po nica a nd An no na re ticu la ta 0.1
L+ leaf extracts ofAdathod a vas ica, Sapindus t r if o l ia tus L. and Pongam ia p inna t a (L.)] .
17. Fumigation ofV. negundo / ca sh ew leaves un de r ca she w ca no py 3 0 m in utes twice ! we ek
Biological Control
This pest was found to be regulated under natural condition mainly through its egg
p~lrasitojds (Telenomus sp., VJens sp. and Chaetostricl1a sp.). Among them Telenomus sp.and '['(ens sp. are dorrunant in west coast of India and coastal Tamil Nadu with highest
n~ltura] parasitism upto 70.8 and 47.4'tc, re:;pectively. These parasitoids are specialist type
and not amenable for mass multiplication under conventional laboratory rearing methods
(Sund;lraraju and Sundarababu, 1999.1and 1999c). Therefore, they could not be exploited
under inundative release methods. However, their activities are naturally enhanced under
favourable weather condition (increased minimum temperature and relative humidity) during
vulnerable period (November-February) (Sundararaju, 2003). During the outbreak ofTMB,
among the cashew trees which had nests and intensive activities of Oecophylla smaragdinG
Fabr., the infestation ofTMB was in the range of low to moderate; whereas remaint~g trees
had severe TMB infestation. But under natural condition, O. smaragdinG did not establish
on majority of cashew trees in spite of cashew plantation heing never sprayed with
insecticides or in cashew plantation having prolonged withdrawal of insecticide application."':hen the impact of various arthropod predators on incidence of TMB was studied under
unsprayed situations, the results indicated that among total arthropod predatory population,
spiders accounted maximum upto two third of total population and appeared to be the
domin:mt predators in cashew ecosystem. Therefore. their role in reducing the TMB dan1agc
was critically analysed. Actually. the mean spider population varied from 22-3 I spiders pe:r
10J (ashew panicles and in spite of this, out break of TMB had occurred. No significant
Tclationship between TMB damage and spiders was observed (Sundararaju, 2004b).
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352 Organic Horticuiture - Principles, Practices and Techn%gies
CONCLUSION
Even though re"earch on organic pest management techniques (non-chemical pesticidestechniques) viz., hdst plant resistance, botanical pesticides and biological control were
done at Nat ion~dRcsear'-.:hCentre for Cashew. Puttur, KlJrnat:,ka for the management of tea
mosquito bug on ca~he\" since 1987, under host plant re~istance only, some lead could be
obtained. 'Bhaskar.!' ca 'hcw variety appeared to be a pmmising escape (pseudo resistant)
variety and high vicldin-!. and it can be popularised in fmme organic farming propositions.
Sex Pheromone Behaviour
The informatiOI1col leeted in cashew plantation clearly indicated that the male population
ofTMB can be detected within 15 minutes and highest population of 18 males 'were collected
on single bait cage containing virgin females. In the entire trapping period of 90 minutes
132 males were collected (Sundararaju and Sund:trababu, 1999d). Thus it provide~
substantial scope in future for exploiting this sex pheromone behaviour for mass trapping
in the plantations of organic cashew.
_________________ References
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