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2001 - 200212
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Subject: Agricultural Entomology × End date: 2002 × Start date: 2001 × Type: Thesis × Thesis Type: M.Sc ×
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    ThesisItemOpen Access
    Bionomics and ecological management of coconut eriophyid mite
    (Department of Agricultural Entomology, College of Horticulture, Vellanikkara, 2001) Vidya, CV; KAU; Ranjith, A M
    The bionomics and ecological management of coconut eriophyid mite, Aceria guerreronis (Keifer) was studied under the Department of Entomology, College of Horticulture, Vellanikkara. The preference of mites to bunches of different maturity, symptoms of damage, population dynamics, relationship of mite population with weather factors and the distribution pattern of mites based on plant morphology were considered for the study. Some ecological management practices were also tried along with this. The experiment was laid out as completely randomised design. Mites were absent in male and female flowers and also on buttons of first bunch. Initiation of infestation starts from buttons of second bunch and population increases further and maximum population is noticed in buttons of third and fourth bunches and thereafter it decreases. This is because after fourth bunch, the meristematic tissue becomes necrotic due to feeding of mites and hence mites cannot feed further easily. Traces of population were noticed even on nuts of ninth bunch. Predatory mites were also seen along with eriophyid mites even though they are very negligible. Symptoms of damage were seen outside from second bunch onwards. The symptom initially appears as whitish streak or triangular patch and it increases further in length and breadth and becomes brownish and later necrotic. In some cases, cracks, cuts and gummosis can be seen on the husk. The relationship between surface damage and mite population was worked out. Maximum mite population was noticed when the surface damage was 1-3 and 3-6 cm2 before and after the removal of perianth respectively and the percentage of damage was 1-3 per cent. Mite population was found to vary with different weather parameters. Minimum temperature of current week, current, -1 and -2 fortnights and maximum temperature of -2 fortnight were positively related with mite population. Morning humidity is also positively related with mite population. Mite population was negatively related with wind speed of zero current, current, -I and -2 fortnights. There is no direct relation between mite population and rainfall, number of rainy days, evening humidity and sunshine hours. Mite infestation was irrespective of the height of the palm, crown shape and perianth arrangement. The intensity of infestation varies between each inner tepals. Maximum infestation was under fourth tepal followed by fifth and sixth tepa\. The preference of mites to different portions under each tepal also varies with maximum entry through the 'outer edge' of fourth tepal followed by 'outer edge' of fifth tepal, 'middle' portion of sixth tepal, 'middle' portion of fifth and fourth tepal, and 'inner edge' of sixth and fifth tepa\. Infestation was found to be less in round shaped nuts compared to oval and oblong nuts. Maximum incidence was in green coloured nuts followed by greenish yellow and orange coloured nuts. There was no reduction in mite damage by different water regimes (rainfed, channel and drip irrigated) fertilizer regimes (0.34:0.17:0.68 kg NPK/palm, 0.5:0.32:1.2 kg NPKlpalm and 0.25:0.32:1.2 kg NPKlpalm) micronutrients (MgS04, ZnS04, MnS04, Borax and Micronutrient mixture) and crown cleaning (once and twice in an year).
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    ThesisItemOpen Access
    Management of coconut eriophyid mite Aceria guerreronis Keifer using ecofriendly methods
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2001) Amritha, V S; Saradamma, K
    Experiments were conducted in the Department of Agricultural Entomology and in the Instructional Farm, College of Agriculture, Vellayani during 2000-2001, to generate eco-friendly components in developing a sustainable long term strategy of pest management against coconut eriophyid mite. The treatments included the laboratory screerung of various oils, botanicals and synthetic acaricides. The promising treatments and innovative farmer practices were evaluated in a field experiment. The results of laboratory screening revealed that Neem oil three per cent followed by Neemazal 0.4 per cent and castor oil three per cent were promising among the botanicals while fenazaquin 0.05 per cent followed by sulphur W.P 0.4 per cent were found to be effective among the synthetic acaricides. The field evaluation using promising natural products and synthetic acaricides, showed that fenazaquin 0.05 per cent was effective followed by sulphur W.P 0.4 per cent. Maximum protection was observed after the third round of spraying. Sprays applied at the critical stage of infestation afforded maximum protection to the bunches. Results of the field evaluation experiment using natural products and innovative farmer practices revealed that starch solution five per cent was the most effective among the various treatments.
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    ThesisItemOpen Access
    Management of stingless bee Trigona iridipennis Smith (Meliponinae: Apidae) in the homesteads of Kerala
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2002) Nisha, M M; KAU; Devanesan, S
    With the objective of studying the management of stingless bees, Trigona iridipennis Smith in the homesteads of Kerala, studies were conducted at the College of Agriculture, Vellayani during 2000-2001. Different management practices were tried. Division of the• bee colony could be successfully carried out by transferring equal amount of brood cells, pollen and honey pots along with queen to the different hives VIZ., wooden, bamboo and earthen pot with different capacities. Bamboo hive with capacity 1500cc was found to be more suitable for hiving T. iridipennis since the brood development, pollen storage, population buildup and honey storage were superior in this type of hive. Observations on handling of bees indicated that wooden hives were easy to handle compared to bamboo and earthen pot. Brood development and pollen storage were shown maximum during the month of February, while maximum honey storage was noticed during the month of April. Bee strength increased as the colony got established well. Presence of queen cells and drones were noticed from November to March during which population build up existed. The bee strength was also found to be . maximum in bamboo hive which had maximum brood, pollen and honey storage. Investigation on the reuse of emptied honey pots by the bees indicated that the bees reused it for reconstruction of worn off honey pot parts beneath and nearby. Investigations on the foraging activity of T. iridipennis showed two peak periods of activity one at 1200h and the other at 1500h and with maximum activity during July. It was observed in the present study that 76 plants were visited by the stingless bees for nectar or pollen or both. Of this twenty plants provided both nectar and pollen. Thirty five plants provided nectar only and 20 plants provided pollen only. The Trigona honeys collected from different tracts around Kerala varied widely in colour from light yellow to dark amber colour with all intermediate shades. The percentage of moisture varied from 18.96 to 20.48 in different districts of the state and pH ranged from 3.76-4.4. In all the honey samples the acidity ranged from 0.17-0.29 while the ash content varied from 0.17-0.19 per cent. The specific gravity also ranged from 1.3507-1.3775. The observations of reducing sugar indicated that it ranged from 77.12-69.85 per cent. The refractive index value also indicated variation from 1.4855 to 1.4891. The values on glucose and fructose per cent varied from 35.92-33.53 and 38.16-39.74 respectively. The glucose fructose ratio observed indicated variation from l.17 -1. 05. The sucrose per cent also seen varied from 1.23-l.81 and the values on specific heat varied slightly from 60.50-60.9. A dipteran fly Hermetia illucens L., a mite, Amblyscius sp. and Megachile disjuncta was newly identified as pest of T. iridipennis. Solenopsis geminata was also observed to attack weak colonies. No disease incidence was noticed.
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    ThesisItemOpen Access
    Eco-friendly insecticides for the management of major pests of amaranths
    (Department of Agricultural Entomology, College of Horticulture, Vellanikkara, 2001) Leena, M K; KAU; Suma Paulose
    There has been increasing reports on health hazards in human beings from the unscientific and intensive use of pesticides in crops, especially vegetables. It was in this backdrop, a scientific investigation was designed to evolve safer and eco-friendly methods in pesticide use to control the major pests of the popular leafy vegetable amaranths. Field experiments were conducted at the college of Horticulture, Vellanikkara during 2000-2001 to identify the safer, eco-friendly insecticides. For the first experiment, thirteen different commercial formulations of neem, microbial and chemical pesticides were evaluated for the control of amaranths leaf webbers viz., H. recurvalis, P. basalis, weevil H. truncatulus and grasshopper A. crenulata. The best six effective components were further screened at lower doses, so as to identify the most promising one in the second experiment. The effect of the tested components on the natural enemies and other bio control agents were also studied.. Organoleptic quality evaluation of cooked amaranths leaves was done to know, whether the applied insecticides have any effect on the taste, appearance, colour, flavour, texture and bitterness. Of the insecticides tested in the first experiment, Econeem, N eem Azal, Halt, Dipel, Delfin and Nuvan were the most effective in controlling the pest population. The results of the second experiment indicated that the plots treated with Dipel @ 0.7 ml r' gave better control of both the leaf webbers. Halt @ 0.7 g r' gave comparably good results for the control of weevil. All the microbial insecticides tested were found ineffective to grasshopper. No disease symptom or deformities were observed in any of the natural enemies and other bio control agents. In the field, though Nuvan was found to control the pests, it was not effective in the long run. All the microbial products were found to protect the crop for a longer period of time. The crop sprayed with Delfin @ O.7g r' gave an yield of 5481 kg green leaves per acre compared to untreated control (2963 kg). Organoleptic quality evaluation of cooked amaranths leaves revealed that, there was no significant difference in qualities of cooked amaranths due to treatments compared to untreated control.
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    ThesisItemOpen Access
    Effect of entomopathogenic fungi on sucking pests and leaf feeders of vegetables under in vitro conditions
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2002) Jincy, Simon; KAU; Susamma, Mathai
    Investigation on "Effect of entomopathogenic fungi on sucking pests and leaf feeders of vegetables under in vitro conditions" was carried out II1 the Insect Pathology Laboratory, Department of Agricultural Entomology. College of Agriculture, Vellayani. Among the seven entomopathogenic fungi tested, Be auver ia r a l it ura and Peri call ia ricini, an aphid isolate of Fusarium pallidoroseum infected aphids Aphis craccivora and Myzus pers icae while Rhizop us oryzae caused mortality of Dysdercus cingula/us. The LCso values for B. bassiana were calculated as S.75 x 108. 6.99 X J08 and 2.72 x 105 spores m]"1 against S. derogat a. S. l it ura and P. rici ni respectively. F. pallidoroseum caused SO per cent mortality of A. cracci vora and M. persicae at 3.86 x 106 and 0.72 x 106 spores 111]"1 respectively. R. oryz ae caused 50 per cent mortality of D. cingula/us at 4.15 x 106 spores mrl. Evaluation of different naturally available substrates for mass multiplication of B. bassiana. F. p all i dor o se um and R. oryz ae revealed that both rice bran and gingelly oil cake were suitable for the mass multiplication of these fungi.'Among the liquid substrates. coconut water produced maximum mycelial growth of all the fungi. At room temperature. B. bassiana retained the vi.ulerice up to five months after inoculation in rice bran and gingelly oil cake. hut the vi rulence of the fungus was drastically reduced after two months or storage. F. p al lidorosetnn retained the virulence upto six months in rice bran and gingelly oil cake but R. oryzae lost the virulence after two months of storage. Coconut water and starch solution could not retain the \ i a h i lit y all d vir u I e n c e 0 f the fu n g i a ft e r t w 0 III 0 nth s 0 f s tor age. l-, p allidoroseum and R. OITZ(/(! with different pesticides revealed that two per cent neem oil emulsion could be incorporated with B. bassiana and R. oryzae without any inhibitory effect while sporultio n of F. pallidoroseum was inhibited by nee m oil. Mancozeb, dimethoate malathion, quinalphos and chlorpyriphos greatly inhibited the growth and sporulation of the three fungi tested.
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    ThesisItemOpen Access
    Management of the american serpentine leaf miner Liriomyza trifolii (Burgess) Dietars on cowpea, Vigna unguiculata (L.) Walp
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2002) Reji, G V; KAU; Hebsy Bai
    Survey conducted in Kailiyoor panchayat of Thiruvananthapuram district revealed that Liriomyza trifol ii caused maximum damage to cowpea at the reproductive phase of the crop III summer. Raising susceptible varieties, applying high doses of nitrogen and frequent use of insecticides were noted to intensify the pest incidence. The weeds, Achyranthus aspera, Amaranthus viridis, Cleome viscosa, Cleome monophylfa, Heliotropium indicum, Physalis minima and Desmodium gyrans were identified as host plants of the pest. Seven larval parasitoids were recorded of which Chrysonotomyia rexia and Asecodes sp. were predominant. Twenty accessions of ccwpea including trailing and bush types were screened in the laboratory for resistance to L. trifolii. Accessions of trailing type were more susceptible to the pest. VU-12 was least susceptible among the trailing type while Sharika and Vyjayanthi were highly susceptible. Among the bush type, VU-4, VU-6, VU-3 and Arka Garima were less susceptible. Four plant oils and four synthetic insecticides when evaluated in the laboratory at two doses along with neem oil (2.5 per cent) and dimethoate (0.05 per cent) showed no significant diffe. ence in efficacy between the doses. Neem oil, marotti oil and ilIupai oil at 2.5 per cent and abamectin, 0.003 per cent, thiamethoxam, 0.02 per cent and profenophos, 0.025 per cent were found to be effective in controlling the pest. All the treatments reduced the pest infestation significantly in the field. Abamectin, 0.003 per cent was significantly superior. Neem oil, marotti oil and illupai oil 2.5 per cent also reduced pest infestation. Considering the cost and safety to the natural enemies, the oils were found more advantageous to the farmers. Based on the results, cultivation of the tolerant accession VU -12 111 endemic areas, destruction of weed host plants, judicious application of nitrogen and need based application of neem oil / marotti oil / illupai oil at 2.5 per cent can be recommended for inclusion in rPM strategies of L. trifolii.
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    ThesisItemOpen Access
    Distribution of phytonematodes and their management in ornamental crops in Thiruvanantharpuram district
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2001) Mahesh, T; Arthur Jacob, J
    A random survey was. conducted in Thiruvananthapuram district to gather information about the nematodes associated with cut flowers( anthurium and orchid), traditional flowers( rose and jasmine) and ornamental foliage plants ( begonia and croton). The root - knot nematode M incognita and burrowing nematode, R. similis were found associated with these plants. Other nematodes observed were the lance nematode Hoplolaimus spp.,spiral nematode Helicotylenchus spp. and ring nematode Criconemoides sp. Among the cut flowers, anthurium was found to be highly susceptible to root - knot nematode. In ornamental foliage, begonia and traditional flowers, jasmine were found susceptible to the nematode. Small terminal galls were seen in anthurium whereas comparatively large sized galls spread throughout the root system were seen in begonia and croton . Histopathological studies were conducted in anthurium, jasmine and begonia .The xylem vessels were highly damaged in these crops due to nematode attack affecting translocation of nutrients and water. Studies on nematode management conducted in anthurium revealed no significant difference in the biometric characters of the plant. Significant reduction in root weight was observed in plants receiving different treatments. Treatment of soil with carbofuran 2 kg ai ha' gave maximum reduction of nematode population in soil. Neem cake 0.5 per cent w/w ,carbofuran lkg ai ha+ neem cake 0.25 per cent w/w and carbofuran 1 kg ai hal+neem cake 0.25 per cent w/w +G.fasciculatum 200 spores per pot were equally effective in reducing population of nematode in the soil. G. fasciculatum 200 spores per pot +neem cake 0.25 per cent w/w gave maximum reduction of nematode in root. A low gall index of 1.25 was observed in plants treated with carbofuran @ 2 kg ai ha:' and carbofuran @ 1 kg ai hal+neem cake 0.25 per cent w/w.
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    ThesisItemOpen Access
    Eco-friendly management of root-knot and burrowing nematodes associated with kacholam (Kaempferia galanga Linn.)
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2001) Nisha, M S; KAU; Sheela, M S
    Field experiments were conducted to evaluate the efficacy of bioagents (Pseudomonas fluorescens, arbuscular mycorrhizal fungi, Trichoderma vir i dae (3 per cent w/w) plant products (nee m oil (2%), neem leaf extract (S%), neem oil + garlic (2%), neem leaf extract (4%)+ garlic (l %), botanical pesticide, nimbecidine (0.2%), hot water treatment (SSoC) and organic amendments (neem cake (200g/m2), coir pith (SOOg 1m2), sawdust (SOOg/m2), neem leaf (7S0 g/rn ") as rhizome and main field treatments for working out an eco-friendly management strategy against the nematodes (Meloidogyne inco gnit a and Radopholus si milisi in the medicinal plant, kacholam, Kaempfer ia galanga Linn. The efficacy of green leaf mulching was also tested using locally available green leaves (neem, glyricidia, mangium, clerodendron, calotropis, chromolaena) @ Skg 1m2 as mulch, to maximise the natural resource utilization in the context of low cost farmer friendly technology. To establish the potential of rhizome treatment with bioagents, botanicals, plant products and hot water treatment a micro plot study (2 m x 2 m) was conducted at College of Agriculture, Vellayani in sick plots having an initial population range of 100 to 160 M. incognita and 4S-6S R. similis per 100 g soil. The effect of the above treatments were compared with the chemical, dimethoate (0.1 %) and untreated. The results showed that maximum improvement in biometric characters like fresh plant weight and root weight of kacholam plants was observed in rhizome treatment with P. fluorescens. Next best treatments were AMF and hot water treatment and the effect of these two were significantly better than the chemical, dimethoate. The improvement in biometric characters due to above three treatments increased the yield of kacholam to the tune of 87 to cent per cent. Regarding the reduction in nematode population in root (root-knot count and number of females), P. jluorescens and AMF were the best treatments. Next effective ones the hot water treatment and T. viride were also better than the chemical, dimethoate. There was no significant variation in the R. similis population in soil due to rhizome treatments. The results on the effect of application of bioagents and organic amendments in soil at the time of planting revealed that neem cake (200 g I m2) and AMF (300 g inoculum I m") were on par in leaf production and nee m cake established its superiority in improving the shoot weight also. Neem cake, AMF, sawdust and coir pith were statistically on par in improving the fresh weight of plant. In all these cases effect of the above treatments were on par with the chemical, carbofuran (lkg a.i.lha). Regarding the improvement in yield also the best treatments (neem cake, AMF, sawdust, P. jluorescens and coir pith) were on par with the chemical, carbofuran. The superiority of carbofuran was maintained in reduction of nematode population only in root (number of females and larvae). In all other cases (nematode population in soil at different periods) the effect of nee m cake, AMF, neem leaf were on par with the chemical. The results on the. effect of mulching with green leaves revealed that neem and chromolaena leaves improved the fresh plant weight and yield of kacholam. Reduction in nematode population in soil was observed 111 glyricidia leaves also along with neem and chromolaena. The effect of nee m and chromolaena @ Skg 1m2 leaves were on par in reducing the root-knot count and number of larvae in root. There was no significant variation in population of R. similis due to mulching with different leaves but minimum population was recorded in neem leaf (4 MAP). Even the application of mangium @ 5 kg/rn ' significantly reduced the nematode population in soil, but the effect was inferior to other leaves, but superior to the untreated.
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    ThesisItemOpen Access
    Eco-friendly pest management in snakegourd
    (Department of Agricultural Entomology, College of Agriculture, Vellayani, 2001) Sivakumar, T; KAU; Jiji, T
    A study was conducted to document farmers' practices for pest control, record the population of pests of snakegourd and their natural enemy complex in farmers' field, as well as to evolve an eco - friendly package of practices for pest management. The survey conducted in the farmers' field revealed that the farmers were resorting to indiscriminate use of pesticides. The recommended pesticide/ fertilizer dosage was not practised by the farmers. Quinalphos was the most widely used pesticide followed by carbaryl. The frequency of spraying was the highest at fruiting stage. The major pests observed in the field were B. cucurbitae, A.peponis, D. indica, E. septima, Aulacophora sp. A. gossypii and L. trifolii. A very low population of pests and their natural enemies were present in the farmers' fields compared to untreated plot maintained in the Instructional Farm, Vellayani. In the untreated plot there was ten fold population of natural enemies compared to farmers' field. Fruit flies were found to be serious pests causing 63.63 per cent loss in unprotected field and this emphasised the importance and necessity for fruit fly management in snakegourd fields. Three fruit fly traps viz., were tested to assess their efficacy in catching fruit flies. Among the three traps tested, banana traps consisting of palayamkodan fruit pieces and carbofuran were the best. Three snakegourd varieties viz., Kaumudi, T.A. -19 and Local, were tested against insect infestation. Kaumudi had the lowest infestation by pests like pumpkin beetle (Aulacophora sp.), leaf eating caterpillar (Diaphania indicas, snakegourd semilooper (Anadevidia peponis) and fruit fly (Bactrocera cucurbitae). Kaumudi recorded the minimum fruit fly damage and consequently, the highest yield. Field evaluation of fourteen treatments was carried out at the Instructional Farm, Vellayani during 1999-2000. Chemical insecticides were found to be very . effective in controlling the pests of snakegourd at vegetative and flowering period, but the pest population build up was the highest with them. Neem oil - garlic emulsion was the best in controlling the pest menace with the least impact on natural enemies. Population build up of pests was also low in case of neem oil - garlic emulsion. The practice of covering fruits was very effective in preventing the flies from attacking the fruits. Covering the fruits and setting up of banana traps at the rate of two traps for three plants gave the best protection against the fruit flies. The treatments involving neem oil - garlic 2.5 per cent spray at vegetative stages + covering the fruits and banana trap setting at flowering and fruiting stages gave the highest yield and benefit - cost ratio (1.938). Spraying neem oil -garlic emulsion 2.5 per cent, on need basis, at vegetative stages and setting up of banana fruit fly traps and covering the fruits with reusable polythene covers was found to be the best eco- friendly and economical package for the management of major pests affecting snakegourd.