Insect and Non-Insect Pests Associated with Drumstick, Moringa oleifera (Lamk.)
Received Date: May 09, 2016 / Accepted Date: May 20, 2016 / Published Date: Jun 01, 2016
The aim of this review article is to provide the basic information on insect and non-insect pests of drumstick, Moringa oleifera Lam. at different stages of crop growth as well as their nature of damage. The literature on the insect and non-insect pests of drumstick and their seasonal incidence is scanty. Therefore this information will help to understand the different kinds of insect pests occurring on drumstick. It is also intended to determine type of control measures can adopt against these pests.
Keywords: Drumstick; Insects pests; Non-insect pests; Nature of damage; Seasonal incidence
The Indian subcontinent is the cradle of many economically important vegetable crops. Among them, drumstick is an important vegetable crop rich in minerals and vitamins, grown by the Dravidians and as well by the Aryans in each and every home yard. Over the past ten years there has been a rapid growth in interest surrounding drumstick. Considerable new research has been done on its cultivation, extraction of its seed oil, use in agro-forestry systems, water purification properties and its medicinal and nutritional benefits. It has the great potential to become one of the most economically important tree crops for the tropics and sub- tropics.
But this miracle tree is susceptible to many insects pests [1-7] namely bark eating caterpillar, Inderbela quadrinotata (Wlk.), caterpillar pests, Eupterote mollifera Walker, and Noorda blitealis Walker, bud worm, Noorda moringae Tams., stem borers, Indarbela tetraonis (Moore), Diaxenopsis apomecynoides (Bruning), and Batocera rubus L., ash weevils, Myllocerus viridanus (Fab.), Myllocerus discolor var. variegatus Boheman, Myllocerus delicatulus Boheman, aphids, Aphis craccivora Koach, leaf eating caterpillar, Tetragonia siva Lef., Metanastria hyrtaca (Cramer), Tea mosquito bug, Helopeltis antonii (Sign.), bud midges, Stictodiplosis moringae Mani, scale insects, Diaspidiotus sp., Ceroplastodes cajani (Mask.). A few aphids feeding on the terminal end of the fruit causing tip drying has been recorded. Termites are other pests associated with drumstick. Of late drumstick fruit fly, Gitona distigma (Meigen) a palaearctic species reported for first time in India has become one of the most serious pests of drumstick. In the recent years, damage by the fruit fly is increasing especially during rainy season. Infestation of this pest starts from fruit initiation and persists till harvesting stage. Pod fly has attained a major pest status in Southern India  This pest is reported to cause 70 per cent loss under poor management conditions .
Butani and Verma  gave a list of 28 species of insects and two species of mite pests attacking drumstick. Likewise many workers reported different insects on drumstick. Such of the insect and noninsect pests on drumstick, as reported by different workers, have been enlisted in Table 1. Accordingly, 49 insect pests and four mite pests have been found to infest drumstick. Mites, aphids, imported cabbageworm (Pieris rapae ) and borers causing trunk damage have been observed on drumstick at Nigeria .
|Sl. No||Common Name||Scientific Name||Familyand Order||Alternate host||Reference|
|1.||Pod fly||Gitonadistigma(Meigen)||Drosophilidae: Diptera||_||[13-15]|
|2.||Pod fly||Gitonasp.||Drosophilidae: Diptera||_||[16,1,17,5,18]|
|3.||Shoot fly||Atherigonasp.||Muscidae: Diptera||Sorghum|||
|4.||Bud borers/ budworm||NoordamoringaeTams||Crambidae: Lepidoptera||_||[19,20,5,21,22,18,15]|
|5.||Fruit feeders||OxycetoniaversicolorFb.||Scarabaeidae: Coleoptera||_||[5,23,18]|
Leaf eating caterpillar
|8.||Bud midge||StictodiplosusmoringaeMani||Cecidomyiidae: Diptera||_||[19,27]|
|9.||Cut worm/fruit borer/shoot borer||HelicoverpaarmigeraHubner||Noctuidae: Lepidoptera||Brinjal, Okra, Chilli,Bittergourd and Onion.||[16,21,28]|
|10.||Cut worm||Spodopteralitura(Fab.)||Noctuidae: Lepidoptera||Amaranthus, Cowpea and Garden pea||[29,18]|
|Albizia lebbeck Benth and Casurina equisetifolaForsti||[5,21,28,22]|
|12.||Bark borer||Indarbelaspp||Metarbelidae: Lepidoptera||-|||
|Mango, Guava citrus, Jujube, Cashew and Litchi||[2,30]|
|14.||Leaf eating caterpillars||NoordablitealisWalker||Crambidae: Lepidoptera||[19,20,22,31,5,21,18,15]|
|15.||Hairy caterpillars||EupterotemolliferaWalker||Eupterotidae: Lepidoptera||Acacia arabica, Tamarind and Nerium||[32,26,5,21,18]|
|16.||Hairy caterpillars||EupterotegeminataWalker||Eupterotidae: Lepidoptera||[5,21]|
|17.||Hairy caterpillars||Metanastriahyrtaca(Cramer)||Lasiocampidae: Lepidoptera||Mimus elengi, Terminalia catapa, Nyctanthus arbortristisia, Sapota, Guava, Eugenia andAcacia arabica.||[32,21]|
|19.||Tussock caterpillars||Euproctislunata(Walker)||Lymantridae: Lepidoptera||Cotton, AcaciaArabica, Tamrind, Nerium and Chrysanthemum||[18,33]|
|20.||Wooly bear moth/ Tiger moth||Pericalliaricini (Fabricius)||Arctiidae: Lepidoptera||Elephant foot yam, banana, Coccinia, Brinjal, Cowpea, sweet potato, Radish, Arum and Pumpkin.||[32,20,5,21,18]|
|21.||Tiger moth||AmatapassalisFabricius||Erebidae: Lepidoptera|||
|22.||Hairy caterpillars||TaragamasivaLef||Lasiocampidae: Lepidoptera||Acaciaarabica, Rose, Polyalthia longifolia, Tamarix gallica||[33,28]|
|23.||Miner-cum webber||ProtrigoniazizanialisSwinhoe||Pyraustidae: Lepidoptera||_||[34,18]|
|24.||Leaf eating caterpillar||ActiasseleneHubner||Saturniidae: Lepidoptera||_||[32,21]|
|25||Leaf eating caterpillar||AscotisselenariaimparataWalk.||Geometridae:Lepidoptera||-|
|26||Leaf feeding caterpillar||UlopezaphaeothoracicaHampson||Lepidoptera: Crambidae||-|||
|27.||Painted Grasshopper||PoekiloceruspictusFab.||Pyrgomorphidae: :Orthoptera||_|||
|28.||Grass hoppers||Chrotogonussp.||Pyrgomorphidae: Orthoptera|||
|29.||Grass hoppers||Atractomorphacrenulatacrenulata(Fabricius)||Pyrgomorphidae: Orthoptera|||
|30.||Grass hoppers||Pyrgomorphabispinosabispinosa(Walker)||Pyrgomorphidae: Orthoptera|||
|C||Sucking insects/ Sap feeders|
|Lab lab, Ground nut, Cluster bean, Gliricidia,Gynadropsispentaphylla,Indigoferasp. and SesbeniagrandifloraBogdon||[36,18,15]|
|32.||Cotton Aphid||Aphis gossypiiGlover||Aphididae :Homoptera||Cotton||[22,37]|
|33.||White fly||TrialeurodesraraSingh||Aleyrodidae: Hemiptera||_|||
|34.||White fly||AleurodicusdispersusRussel||Aleyrodidae: Hemiptera||_|||
|36.||Scale insect||CeroplastodescajaniMarshell||Coccidae: Hemiptera||Redgram, lab lab,Zizyphus, Tephrosia candida (Roxb), Coleus and Ocimum sanctum Linn.||[38,16,5]|
|37.||Hard scale||Diaspidiotussp.||Diaspididae: Homoptera||_||[38,5]|
|38.||Thrips||RamaswamiahiellasubnudulaKarny||Thripdae : Thysonoptra||_||[5,18]|
|39.||Flower thrips||Thripstabaci||Thripidae: Thysonoptera||Ziziphus mauritiana, Parkinsonia, aculeate and Cassia siamea|||
|40.||Flower thrips||MegalurothripsdistalisKarny||Thripidae: Thysonoptera||Ziziphus mauritiana Lam., Parkinsonia, aculeate and Cassia siamea|||
|41.||Flower thrips||Undetermined||Thripidae: Thysonoptera||-|||
|42.||Pentatomid bug||CyclopeltasuccifoliaWestwood||Pentatomodae: Homoptera||_|||
|43.||Tea mosquito bug||Helopeltisantonii(Sign)||Miridae:
|Tea, Cashew, Guava and Grapevine||[3,18]|
|44.||Green bug||NezaraviridulaLinn.||Pentatomidae: Hemiptera||_|||
|45.||Red cotton bug||DysdercussimilisFreeman||Pyrrhocoridae: Hemiptera)||Cotton||[18,15]|
|46.||Tree hoppers||Leptocentrussp.||Membracidae: Hemiptera||_|||
|47.||Tree hoppers||Otinotussp.||Membracidae: Hemiptera||_|||
|48.||True bugs||Spilosthethuspandrurus(Scopoli)||Lygaeidae: Hemiptera||_|||
|49.||Red bug||Leptocorissp.||Rhopalidae: Hemiptera||_|||
|50.||Dusky cotton bug||Oxycarenushyalinipennis(Costa)||Lygaeidae: Hemiptera||_|||
|51.||Painted bug||Halyomorphapicus(Fabricius)||Pentatomidae: Hemiptera||_|||
|52.||Jewel bug||ChrysocorisstolliWolf||Scutelleridae: Hemiptera||_|||
|D||Beetles and Weevils/Stem borers/Bark feeders|
|53.||Longhorn beetle||Batocerarubus(Linnaeus)||Cerambycidae: Coleoptera||_||[41,5,43,18]|
|54.||Stem borer||Coptopsaedificator(Fabricius)||Cerambycidae: Coleoptera||_|||
|55.||Stem borer||Monohammusspp.||Cerambycidae: Coleoptera||_||[41,5]|
|56.||Stem borer||Diaxenopsisapomecynoide(Bruning)||Cerambycida : Coleoptera||_||[43,5,16]|
|57.||Stem Girdler||Stheniasgrisator(Fabricius)||Cerambycidae: Coleoptera||Grape|||
|58.||Flower beetle/ flower chaffer beetle||Gametes versicolor(Fabricius)||Scarabaeidae: Coleoptera||_|||
|59.||Chaffer Beetle||Protaetiaperegrina(Herbst)||Scarabaeidae: Coleoptera||_|||
|60.||Chaffer Beetle||ProtaetiaalboguttataVigors||Scarabaeidae: Coleoptera||_|||
|61.||Blister beetle||ZonabrispustulataThunb||Meloidae: Coleoptera||_|||
|62.||White grub||HolotrichiainsularisBrenske||Scarabaeidae: Coleoptera||_||[44,5]|
|63.||Ash weevil||Myllocerusviridanus(Fab.)||Curculionidae: Coleoptera||_||[41,5,18,15]|
|64.||Ash weevil||Myllocerusteniclavis var. inferior Marshell||Curculionidae: Coleoptera||_||[41,5]|
|65.||Ash weevil||Myllocerus 11- pustulatusFst||Curculionidae: Coleoptera||Cotton, Castor, Cholam and Bhendi|||
|66.||Ash weevil||Myllocerusdiscolor var. variegatesBoheman||Curculionidae: Coleoptera||Cholam, Maize, cotton, Redgram and Guava||[41,18,15]|
|67.||Ash weevil||PtochusovulumFst.||Curculionidae: Coleoptera||Amaranthus, Beet root, Bhendi, Gliricidiamaculata|||
|68.||Ash weevil||MyllocerusdelicatulusBoheman||Curculionidae: Coleoptera||_|||
|69.||Weevil||PtochusovulumFst.||Curculionidae: Coleoptera||Amaranthus, Beet root, bhendi, Gliricidiamaculata and Millingtonia|||
|71.||Beetle grub||HolotrichiareynaudiBlanchard||Melolonthidae: Coleoptera||_|||
|72.||Termite||Microtermes spp.||Kalotermitidae: Isoptera||_|||
|73.||Termite||Odontotermes sp.||Kalotermitidae: Isoptera||_|||
|3.||Mite||A. MoringaeChannabasavanna||Eriophyidae: Acarina||_||[5,47,18]|
|4.||Mite||A. pterigospermaeKeifer||Eriophyidae: Acarina||_||[47,18]|
|5.||Land snails and tree||Achatinasp. and Helix sp.||(Mollusca: Gastropoda)||_|||
Table 1: Insect and non- Insect pests reported on drumstick (Moringa olifera Lamk.).
Similarly, Ojiako et al.,  identified several nursery insect pests of M. oleifera Lam. in Owerri, Nigeria, but added that such attacks were of non-significant nature. Several other insect pests causing minor or only occasionally serious damage have also been reported.The insects identified were mainly: Zonocerus variegatus Linnaeus (variegated grasshopper), Musa domestica Linnaeus (house fly), Formica rufa Linnaeus (red wood ant), Lagria villosa Fabricus (leaf-eating beetle), Oedaleus nigeriensis Uvarov (Nigerian grasshopper) and Homorocoryphus nitidulus vicinus Walker (edible or long- horned grasshopper).
Okonkwo et al.,  also investigated the diversity of higher invertebrate fauna living in close association with drumstick at Nigeria. They reported the insects and related arthropods found on drumstickincluded caterpillars, aphids, weevils, spiders and mites. Other invertebrate animals included tree and land snails. These have pale white shells with dark brown notches as ornamentation. The species recorded included Achatina sp. and Helix sp., both of which are land and tree snails, respectively. The Araneae and Acarina (spiders and mites, respectively) of the class Arachnida included 52 aerial, webbuilding spiders (29.7% of total) and numerous green mites. The insect groups made up about 61% of the invertebrate collections, including 50 specimens of black and orange-yellow ants, 13 black hairy caterpillars, 13 weevils and 19 lady bird larvae.
Among the piercing and sucking insects were numerous green and brown/black aphids, whiteflies and mealy bugs. Others included praying mantis (9) and two small adult cockroaches and one dragonfly.
Recently, Mahesh and Kotikal  investigated 31 species of insects occurring on drumstick crop at various stages. Among them, four species viz., Gitona distigma (Meigen), Noorda blitealis Walker, Noorda moringae Tams, and Myllocerus spp. were considered as major pests. Remaining species recorded as minor pests on drumstick viz., aphids, Aphis craccivora Koch, white fly and flower thrips were found to occur occasionally.
The incidence of stem borer beetle, Diaxenopsis apoecynoides (Bruning) was seen high during the months of September to November. The larvae of the Cerambycid beetle were noted to bore into the tender shoots of moringa . The lab lab scales, Ceroplastodes cajani M. was observed to occur during January to February and August to December on moringa. In Puerto Rico, moringa trees are highly susceptible to attack by termites, and heavy seed predation by an unidentified insect was often found .
Ali et al. studied the seasonal occurrence of developmental stages (viz., larvae, pupae and adult moth), status of Indarbela quadrinotata Walker on different growth stages of woody perennials and its host specificity to some host plants in Bihar plains revealed high occurrence and more susceptibility of the pest stage from sapling to tree stage of Albizia lebbeck, B. variegata, G. arhorea, M. oleifera during February to October and low to moderate occurrence from seedling to tree stage. Bark caterpillar, Inderbela tetraonis causes severe damage drumstick. On hatching caterpillars feed superficially below bark, making zig zag gallaries and later bore inside bark or main stem, remain within these burrows during day but come out at night and feed on bark .
Stem borer, Batocera rubus Linn. distributed all over the Indian subcontinent. Eggs laid singly in cracks or crevices in the bark of the tree. On hatching grubs make zig zag burrow beneath the bark, feed on internal tissues, reach sapwood and cause death of affected branch or stem .
Diarrhegma modestum (Fabricius) has been reported from India (West Bengal, Karnataka and Tamil Nadu) where it breeds in the pods of drumstick, M. oleifera Lam. used as vegetable in India . For the first time the occurrence of D. modestum (Fabricius) was reported from Bangladesh .
The pod fly, Gitona distigma (Meigen), a palaearctic species reported for the first time in India  has attained a major pest status in Southern India . It is reported to cause 70 per cent loss under poor management conditions . Economic injury level (EIL) for this pest is 15 per cent of affected fruits . The maggots of Gitona sp. have been found to bore into the developing fruits and feed on pulp and seed. Oozing of gum out of fruits, splitting of fruits and drying of fruits from the tip upwards to the base of the fruit stalk are indications of the prevalence of the pest .
Recently, Mahesh and Kotikal  reported infestation by the pod fly, G. distigma (Meigen) was 35.10 per cent. Pod fly adult was small with transparent wings with two black spots on forewing, having red coloured compound eyes. The resulting creamy white maggots were found to feed on the developing pods, on pulp and also on seed. As a result of which oozing of gum from pods, splitting of pods and drying of pods from the tip to the base of the pod stalk, were the main symptoms observed to be caused by the pest.
Flower feeders/bud borers
The larva bores into flower buds and causes shedding to a large extent. Noorda moringae Tams occurred in South India which caused 78 per cent bud damage when the infestation was severe . Usha Rani et al.,  also reported bud midge, Stictodiplosis moringae larvae were found to feed on the internal content of the flower buds causing shedding of buds in large numbers. Adult fly is free living, small and brown coloured.
The caterpillars were noticed to bore into the flower buds, due to which, the bored buds dry and drop. The unopened buds with a hole are indications of damage by this insect. The incidence of N. moringae was observed throughout the year except during December, with an average bud damage of 17.08 per cent. The maximum bud borer incidence was noticed in second fortnight of February with 54 per cent bud damage while the minimum was 2.0 per cent .
Defoliators/ Leaf feeders
Butani and Verma  observed maximum damage by Noorda blitealis Walker during March to April and December to January. Leaf eating caterpillar is considered to be the most serious pest of annual moringa as it occurs throughout the year and causes serious damage to the crop . The leaf caterpillar, N. blitealis Walker was seasonal and found to occur during January to April in Periyakulam, Tamil Nadu .
Munj et al.,  reported N. blitealis infestation in Konkan region of Maharashtra, having three peak periods of defoliation, the first during July to August, second during October and third during January. The pest was active throughout the year and the maximum population was noticed during January and the lowest population during May to June.  observed the severity of Euproctis lunata Walker during February and March 2002 on Acacia trees in Thailkulam, Virudhunagar, Tamil Nadu, India. The larvae were found gregariously on Acacia trees in social forest plantations. Tamrind, Nerium, Chrysanthemum, Moringa and other weed flora served as alternate hosts for the larval swarms.
Satti et al.,  reported that N. blitealis has become an important leaf defoliator of drumstick species in Sudan. In India, the larvae of N. moringae bore into flower buds of drumstick causing shedding of up to 75% of the buds (TNAU Agritech, 2014), while the E. mollifera feed gregariously by scrapping and gnawing foliage resulting in complete defoliation of the tree during severe infestation.
Mahesh and Kotikal  observed the early instars of N. blitealis Walker feed on the leaves by scrapping the chlorophyll content resulting the papery appearance of leaves and later instars feed on entire leaves by leaving only veins behind. In severe infestation, the trees were almost without leaves resulting in 100 per cent damage to foliage. Female moth laid creamy, oval eggs on under surface of leaves and after hatching the larvae started feeding on leaves by scrapping. The incidence was observed throughout the year. Maximum larval population of N. blitealis was noticed during second fortnight of April 2013 with a population of 11.2 larvae per branch followed by second fortnight of October with a population of 7.8 larvae per branch.
Yusuf and Yusif  from Nigeria reported the leaf caterpillar, Ulopeza phaeothoracica Hampson larvae found to feed on leaf lamina, turning them into transparent parchment structures as or in some cases a creating a window like opening on the leaf of drumstick.  observed that three species of grass hoppers were found to feed on to feed on leaves and cut the tender shoots. These grass hoppers were recorded during the vegetative and flowering stage.
Sucking insects/ Sap feeders
The tender shoots, as well as the fruits and their stalk were fully covered by the scale in the case of severe attack, the tender shoots dried up  Aphids, Aphis craccivora Koach, have been observed to infest the tender shoots of moringa during January to March on the under surface of leaflets .
White fly, Trialeurodes rara Singh, Scale insect, Ceroplastodes cajani Mashell and Diaspidiotus sp. and a pentatomid, Cyclopelta siccifolia Westwood have been recorded sucking the sap from ventral surface of leaflets and tender twigs. Thrips, Ramaswamiahiella subnudula Karmy, a polyphagus pest has also found to feeding and breeding in inflorescence of drumstick .
Scale, Ceroplastodes cajani both nymps and adults suck the sap and affect the vigour of the plants. Though each insect takes only only a few drops of sap during its life time presence of enormous number of insects sucking the sap continuously at times, weakness trees and ultimately affects size of fruits .
Palada and Chang  and Radovich  noted that even though drumstick may be resistant to most pests and diseases, spider and mite populations could increase during dry and cool weathers, thereby causing leaf yellowing. They normally constitute the biggest economic problem according to  because of the potential for rejecting shipments of drumstick from the producing areas of Hawaii to North America. Numerous white flies (Bermisia sp.) were recorded by . Palada and Chang  also reported prevalence of white flies among other insect pests of drumstick in India.
Cotton Aphid, Aphis gossypii both nymphs and adults damage the tender shoots . The nymphs of Aphids, A. craccivora, a small brown coloured aphid, were observed on leaves. Both the nymphs and adults suck the sap and cause the yellowing of leaves and drying of leaves. Incidence of aphids was noticed during second fortnight of February to first fortnight with an average population of 0.83 per compound leaf .
Both the nymphs and adults of tree hoppers, Otinotus sp. suck the sap from the tender shoots. Population was noticed during vegetative stage. These were observed to be active on the tender shoots in groups associated with black ants, Camponotus campressus (Fabricius) .
Beetles and Weevils
The longicorn beetles, Batocera rurus Linnaeus, Captops aedifactor Fabricius and Monohammus sp. have been recorded boring the stems. Monohammus sp. is most common in South India. The females excavate small cavities in the stems and deposit one or two eggs in each cavity. On hatching the grubs bore into the stems, sealing the entrance with their excreta; as a result, the growing points of stems get wilted and started drying, shedding of all the leaves . From Rajsthan, White grub, Holotrichia insularis Brenske has been reported as a serious leaf defoliator. Grubs feed on all sorts of roots and pupate in the soil. Adult on emergence stay in the soil till the early mansoon showers, when they come out at night and feed voraciously on foliage . Usha Rani et al.,  reported white grubs feeds on roots and adult beetles feeds on leaves. Adults come out with mansoon during June-July.
Subramaniam  observed the five species of weevils Mylloceros causing damage to the leaves of drumstick plant at Coimbatore. The weevil cause appreciable damage to the leaves. The adults congregate on tender leaves, mostly on the undersurface and nibble the leaves, starting from the margins and nibble the leaves, starting from the margins and working towards the midrib, finelly consuming the entire leaf balde.
The adult weevils cause notching of leaves. Grubs feeds on roots and causes wilting of plants . Three species of Ash weevils, Myllocerus viridanus Fabricius, Myllocerus discolor (Boheman) and Myllocerus sp., were recorded by  on drumstick. Myllocerus viridanus is a small weevil having uniform pale greenish white scaling on the body, which often exhibits chalky whit e efflorescence. The head is tinged with yellow and the elytra do not have any markings. Incidence was observed throughout the year with an average population of 1.30 adult weevils per branch. Myllocerus discolor is larger than the M. viridanus. It has a uniform dull greyish brown scaling on the body and the elytra are variegated with large irregular pale grey blotches mingled with small grey spots. The adults of an undetermined species of Myllocerus were observed to damage drumstick in the month of July to December with an average of population of 6 adult weevils per branch.
Feeding activity of the vegetable mite, Tetranychus neocaledonicus (Andre) on M. oleifera led to the formation of conspicuous white spots, manifested through chlorosis of the leaves. Affected leaves exhibited chlorophyll loss and subsequent drying up and shedding. Cattle, sheep, pigs, and goats were found to eat drumstick seedlings, pods and leaves and also reported mites populations can increase during dry and cool weather .
Recorded significant loss (p< 0.01) in chlorophyll content of M. oleifera leaves due to infestation by T. neocaledonicus regardless of the developmental stages of the mite . Mites are vagrants on both the surfaces of leaves causing no apparent damage symptoms to its host . Mites are vagrants on leaf and stem showing no injury to its host.
From this review article, it is clear that different insect and noninsect pest associated with drumstick from different parts of the world. Some of the insect pests cause major threats to drumstick cultivation and they occur at particular season. Therefore, it is necessary to understand their seasonal occurrence and nature of damage caused by these insect and non- insect pests. By understanding the insects, it helps us to take effective control measures at particular season.
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Citation: Kotikal YK , Math M (2016) Insect and Non-Insect Pests Associated with Drumstick, Moringa oleifera (Lamk.). Entomol Ornithol Herpetol 5: 180. Doi: 10.4172/2161-0983.1000180
Copyright: © 2016 Kotikal YK, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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