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Kireeti, A.

Utilization of Vermiwash Spray on Growth and Yield of Radish Cv. Local Variety

Abstract Views :244 | PDF Views:0

Authors

P. B. Jadhav ¹, A. Kireeti ¹, D. J. Patel ², S. S. Dekhane ¹, N. B. Patil ¹, S. J. Patil ³

Affiliations
1 ASPEE, Agricultural Research and Development Foundation, Mumbai (M.S.), IN
2 B.A. Collage of Agriculture, Anand Agricultural University, Anand (Gujarat), IN
3 Regional Horticultural Research Station (N.A.U.), Navsari (Gujarat), IN

Source

International Journal of Forestry and Crop Improvement, Vol 6, No 1 (2015), Pagination: 36-40

Abstract

The present investigation was undertaken with the main objective of utilization of vermiwash spray on growth and yield of radish cv. LOCAL VARIETY. The experiment was laid out in Randomized Completely Block Design with five treatments and four replications. The experiment consists of five treatments involving application of water and vermiwash in the proportion of 1:1, 1:2, 1:3 and 1:4 and control were imposed and the foliar application was made by using knapsack sprayer in the evening hours twice at 15 and 30 days after sowing seeds. The data clearly revealed that the yield obtained with treatment T₄ (100 % RDF as fertigation and vermiwash foliar twice times spray 1:4 at 15 and 30 days after sowing seeds) was significantly higher than all other treatments in growth and yield attributes such as ischolar_main diameter (5.53 cm), length (25.90 cm), weight (90.90 g), yield/plot (18.18 kg), yield/ha (60.59 t/ha) and marketable yield (45.45 t/ha) of radish cv. LOCAL VARIETY. Thus, it can be concluded that foliar spray of vermiwash (1:4) effective than control.

Keywords

Radish, Local, Vermiwash, Water, Organic.

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Studies on Effect of Types of Bag at Egg Stage on Mango Fruit (cv. ALPHONSO)

Abstract Views :188 | PDF Views:1

Authors

A. Kireeti ¹, P. M. Haldankar ¹, Y. R. Parulekar ¹

Affiliations
1 Department of Horticulture, College of Agriculture, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN

Source

The Asian Journal of Horticulture, Vol 11, No 1 (2016), Pagination: 58-62

Abstract

Bagging of mango fruits prior to harvest is the best alternative to avoid adverse effect of recent changes in climate on fruit by causing physical damage. Bagging mango fruit was undertaken at Department of Horticulture, Dr. Balasaheb Sawant Konkan KrishiVidyapeeth, Dapoli in summer, 2013 from March to June. The results indicated that various chemical parameters were affected significantly due to bagging. Treatment T₁ showed best performance for fruit retention (90.67 %), length (9.44 cm), weight (298.67 g) and pulp weight (223.88 g) of fruit. T₄ contributed best performance for days required for harvesting (55 DAB). Bagging had significant effect on mealy bug infestation. Thus, it is concluded that different types of bags influenced growth and development of mango fruit.

Keywords

Alphonso, Bagging, Egg Stage, Fruit Weight, Mealy Bug.

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References

Amerine, M.A., Pangborn, R.M. and Rocssler, E.B. (1965). Principles of sensory evaluation of food. Academic Press, London.

Anonymous (1980). Romance of mango. ICAR, pp. 45.

Anonymous (2014). Area, production and productivity of mango in India. Indian Horticulture Database, pp. 95

Awad, M.A. and Al-Qurashi, A.D. (2012). Gibberellic acid spray and bunch bagging increase bunch weight and improve fruit quality of ‘Barhee’ date palm cultivar under hot arid conditions. Scientia Hort., 138: 96-100.

Bayogan, E.R.V., Campeon, R.T. and Esguerra, E.B. (2006). ‘Carabao’ mango harvest quality and production practices and problems of growers in Davao Oriental, Philippines. ISHS Acta Hort., 699 : 103-109.

Bose, T.K. (1985). Fruits of India Tropical and Subtropical. pp. 69-123.

Chattopadhyay, N.C. and Nandi, B. (1976). Peroxidase and polyphenol-oxidase activity in malformed mango inflorescence caused by Fusarium moniliforme. Biol Plant.,18 : 321–326.

Chonhenchob, V. (2011). Preharvest bagging with wavelengthselective materials enhances development and quality of mango (Mangifera indica L.) cv. NAM DOK MAI. J. Sci. Food & Agric., 91(4): 664-671.

Chowdhury, M.N.A. and Rahim, M.A. (2009). Integrated crop management to control anthracnose (Colletotrichum gloeosporioides) of mango. J. Agric. & Rural Development (Gazipur), 7(1/2) : 115-120.

Debnath, S. and Mitra, S.K. (2008). Panicle bagging for maturity regulation quality improvement and fruit borer management in litchi (Litchi chinenesis). Acta Hort., 773: 201-209.

Fallahi, E., Colt, W.M., Baird, C.R., Fallahi, B. and Chun, I.J. (2001). Influence of nitrogen and bagging on fruit quality and mineral concentrations of ‘BC-2 Fuji’ Apple.Hort. Technol., 11(3): 462-465.

Haldankar, P.M., Parulekar, Y.R., Haldavnekar, P.C., Pawar, C.D., Desai, V.S. and Pandey, V.S. (2013). Mango production technology. Dr. B.S. Konkan Krishi Vidyapeeth. Dapoli, Dist. RATNAGIRI, M.S. (INDIA).

Hwang, A.S., Huang, K.L. and Hsu, S.H. (2004). Effect of bagging with black paper on colouration and fruit quality of ‘Ruby’ Grapefruit. J. Agric. Res. China, 53 : 229-238.

Lei, W. and Kun, X. (2006). Effects of bag texture on microenvironment and fruit development of tomatoes. China Veg., 1 : 15-18.

Mukherjee, S.K. (1951). The origin of mango. Indian J. Genet., 2: 49.

Oosthuyse, S.A. (2007). Effect of the time of bagging Wai Chee litchi (Litchi chinensis) fruit bunches after fruit-set on fruit appeal and the incidence of litchi moth infestation at harvest. South African Litchi Growers’ Association Yearbook, 19: 25-29.

Panse, V. G. and Sukhatme, P.V. (1985). Statistical methods for agricultural workers. ICAR, New Delhi, INDIA.

Ranganna, S. (1977). Manual of analysis of fruit and vegetable products. Tata Mc. Graw-Hill Publishing Company Ltd., New Delhi: 201-208.

Rangaswamy, R. (1995). Textbook of agricultural statistics (2nd ed.). New Age International Publishers.

Senanan, C., Khamsee, Y., Manochai, P., Somboonwong, P. and Wongnanta, N. (2011). Effect of fruit bagging on postharvest quality of litchi cv. HONGHUAY. J. Agric. Res. & Extension, 28(2): 11-18.

Sharma, R.R., Reddy, S.V.R., and Jhalegar, M.J. (2014). Preharvest fruit bagging a review. J. Hort. Sci. & Biotechnol., 89(2) : 101-113.

Teixeira, R., Boff, M.I.C., Amarante, C.V.T. Do, Steffens, C.A. and Boff, P. (2011). Effects of fruit bagging on pests and diseases control and on quality and maturity of ‘Fuji Suprema’ apples. Bragantia, 70(3):688-695.

Watanawan, A., Watanawan, C. and Jarunate, J. (2008). Bagging ‘Nam Dok Mai #4’ mango during development affects color and fruit quality. Acta Hort., 787: 325-330.

Xu, X.U., Chen, H.B., Huang, R.Y. and He, Y.J. (2008). Effects of bagging on fruit growth and quality of carambola. Acta Hort., 773: 195-200.

Yang, W.H., Zhu, X.C., Bu, J.H., Hu, G.B., Wang, H.C. and Huang, X.M. (2009). Effects of bagging on fruit development and quality in cross-winter off-season longan. Scientia Hort., 120 : 194-200. http://dx.doi.org/10.1016/j.scienta.2008.10.009.

Standardization of Optimum Time Planting on Broccoli Production

Abstract Views :224 | PDF Views:0

Authors

D. Thirupal ¹, G. Narayana Swamy ¹, M. Ravi Venkanna Babu ¹, A. Kireeti ¹

Affiliations
1 Department of Vegetable Science, Horticulture College and Research Institute, Anantharajupet (A.P.), IN

Source

The Asian Journal of Horticulture, Vol 11, No 1 (2016), Pagination: 72-74

Abstract

The effect of sowing date on the growth and yield of broccoli was studied at Horticulture College and Research Institute, Anantharajupet, YSR Kadapa (Dist), Andhra Pradesh, India, during Rabi season of 2013. Four sowing dates were used in this study viz., 20^th November-2013, 10^th December-2013, 31^st December-2013 and 20^th January-2014 under open field conditions. Significant variations were observed in different growth, yield and quality parameters among the planting dates.The results indicated that significantly higher growth parameters viz., plant height, number of leaves per plant, stalk stem diameter, leaf length, width, petiole length and higher yield components like curd weight, curd length, curd width, yield per hectare, B:C ratio and higher curd quality components viz., ascorbic acid content and shelf-life at room temperature and at 4°C were recorded in December 10^th planting (D₂). Minimum days to curd initiation were observed in December 10^th planting, whereas least number of days to harvest was observed in January 20^th planting (D₄).

Keywords

Broccoli, Planting Dates, Sulphoraphane, Curd Weight, Curd Yield, B: C Ratio, Ascorbic Acid, Helf Life.

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References

Ara, N., Kaisar, M.O., Khalequzzaman, K.M., Kohinoor, H. and Ahamed, K.U. (2009). Effect of different dates of planting and lines on the growth, yield and yield contributing characteristics of cauliflower. J. Soil Nature, 3 (1): 16-19.

Guo, J.H., Lee, S., Chiang, F. and Chang, C. (2001). Antioxidant properties of the extracts from different parts of broccoli in Taiwan. J. Food & Drug. Analysis, 9: 96-101.

Hossain, M.F., Ara, N., Uddin, M.R., Dey, S. and Islam, M.R. (2011). Effect of time of sowing and plant spacing on broccoli production. Trop. Agric. Res. & Exten., 14 (4) : 90-92.

Kunicki, E., Capecka, E., Siwek, P. and Kalisz, A. (1999). The effect of plant spacing on the yield and quality of three broccoli cultivars in autumn growing. Folia Hort., 11 (2): 69-79.

Nooprom, K., Santipracha, Q. and Sompong, T.C. (2013). Effect of palnting date and variety on growth and yield of broccoli during the dry season in southern Thailand. Internat. J. Plant, Animal & Environ. Sci., 3(2) : 121- 124.

Saikia, B.R., Phookan, D.B. and Sanchita, Brahma (2010). Effect of time of planting and planting densities on growth, yield and economic production of broccoli (Brassica oleracea var. italica) cv. PUSA BROCCOLI KTS-1.J. Hill Agric., 1 (2): 135-139.

Singhal, B.K., Preeti, Srivastava, B.K., Singh, M.P. and Singh, P.K. (2009). Effect of date of planting and spacing on the performance of broccoli. Indian J. Hort., 66(1) : 137-140.

Yoldas, F. and Esiyok, D. (2004). Effects of plant spacing, sowing and planting date on yield and some quality parameters of broccoli. Ege Univ. Ziraat Facultesi Dirges, 41 (2): 37- 48.

Efficacy of biopesticides under moderate infestation levels of exotic Rugose Spiraling Whitefly (RSW), Aleurodicus rugioperculatus Martin in coconut (Cocos nucifera L.) plantations

Abstract Views :111 | PDF Views:65

Authors

P. V. RAGHUTEJA ¹, N. B. V. CHALAPATHI RAO ¹, E. PADMA ², A. KIREETI ¹, N. EMMANUEL ³, K. UMAKRISHNA ², V. SEKHAR ²

Affiliations
1 Dr YSR Horticultural University, Horticultural Research Station (HRS), Ambajipeta, Dr BR Ambedkar Konaseema District - 533214, Andhra Pradesh, India ., IN
2 Dr YSR Horticultural University - College of Horticulture (COH), Venkataramannagudem - 534101, West Godavari District, Andhra Pradesh, India ., IN
3 Dr YSR Horticultural University - College of Horticulture (COH), Venkataramannagudem - 534101, West Godavari District, Andhra Pradesh, India., IN

Source

Journal of Biological Control, Vol 36, No 2 & 3 (2022), Pagination: 136 - 142

Abstract

Field evaluation of various biopesticides viz., Beauveria bassiana, Isaria fumosorosea NBAIR pfu-5, Metarhizium anisopliae, Lecanicillium lecanii, azadirachtin and soapnut powder were carried out against coconut invasive Rugose Spiraling Whitefly (RSW), Aleurodicus rugioperculetus Martin at Ramachandrapuram and Ambajipeta (Dr BR Ambedkar Konaseema district, AP) during 2020-21 and 2021- 22. Pooled data analysis indicated that azadiracthin 10,000 ppm significantly reduced the nymphal population of RSW to the level of 25.74, 22.14, 17.67 and 15.82 nymphs per leaflet at 7, 14, 21 and 28 days after spray and was found superior among the different treatments tested. Regarding the reduction of the adult population, pest incidence and pest intensity, I. fumosorosea NBAIR pfu-5 spray was significantly superior compared to that of other treatments.

Keywords

Bio pesticides, Coconut, Rugose Spiraling Whitefly (RSW), moderate incidence, management

Full Text

References

Alagar M, Siva KV, Praneetha S, Chinnadurai K, Josephraj KA, Maheswarappa HP. 2021. Ecofriendly management of Rugose Spiralling Whitefly, Aleurodicus rugioperculatus Martin infesting coconut. Indian j Entomol, Ref. No. e20390. 1-4. https://doi.org/10.55446/ IJE.2021.317

Ali AD, Harlow JL, Avery PB, Kumar V. 2015. Investigating the role of fungal entomopathogens in whitefly landscape IPM Programs. J Entomol Sci, 50: 254-261. https://doi.org/10.18474/JES14-35.1

Ali S, Huang Z, Ren S. 2010. Production of cuticle degrading enzymes by Isaria fumosorosea and their evaluation as a biocontrol agent against diamondback moth. J Pest Sci, 83: 361-370. https://doi.org/10.1007/s10340-0100305-6

Asian and Pacific Coconut Community (APCC) Statistical Year Book. 2019.

Boopathi T, Karuppuchamy P, Kalyanasundaram MP, Mohankumar S, Ravi M. 2013. Pathogenicity, ovicidal action and median lethal concentrations (L.C50) of entomopathogenic fungi against exotic spiralling whitefly, Aleurodicus dispersus Russell. J Pathog, Article ID 393787: 7. https://doi.org/10.1155/2013/393787 PMid:24455279 PMCid:PMC3885141

Boopathi T, Palaniappan K, Soibam BS, Manickavasagam K, Mohankumar S, Madhaiyan R. 2015. Microbial control of the invasive spiralling whitefly on cassava with entomopathogenic fungi. Braz J Microbiol, 46: 10771085. https://doi.org/10.1590/S1517-838246420141067 PMid:26691465 PMCid:PMC4704627

Chalapathi NBVR, Ramani BSL, Roshan RD, Bhagavan BVK. 2020. Bio control management options for invasive white flies on Coconut. Indian Coconut J, 63(4): 19-24.

Chandrika M, Josephraj KA, Anjali AS, Merin B, Hegde V. 2017. Invasive Rugose Spiralling Whitefly infesting coconut palms in India. Available from: https://www. ncbi.nlm.nih.gov/nucleotide/JQ340181.1

Chowdappa P, Hedge V, Chandrika M, Josephraj KA, Merin B. 2018. Pest and disease free coconut. Indian Coconut J, 61(2): 24-28.

Copping LG, Duke SO. 2007. Natural products that have been used commercially as crop protection agents a review. Pest Manag Sci, 63: 524-554. https://doi.org/10.1002/ ps.1378 PMid:17487882

Elango K, Nelson JS. 2020. Efficacy of Biopesticides against coconut rugose spiralling whitefly, Aleurodicus rugioperculatus Martin under Laboratory Conditions. Biopestic Int, 16(1): 21-26.

Gupta S, Dikshit AK. 2010. Biopesticides: An ecofriendly approach for pest control. J Biopestic, 3: 186-188.

Kalidas P. 2019. The inference of the impact of rugose spiralling whitefly on Oil Palm Fresh Fruit Bunch Yield in India. The Planter, Kuala Lumpur, 95(1115): 83-89.

Koodalingam A, Periasamy M, Munusamy A. 2009.Antimosquito activity of aqueous kernel extract of soapnut, Sapindus emarginatus: Impact on various developmental stages of three vector mosquito species and non-target aquatic insects. Parasitol Res, 105: 1425-1434. https://doi.org/10.1007/s00436-009-1574-y PMid:19655173

Krishnarao G, Chalapathi NBVR. 2019. Surveillance and eco-friendly management of new invasive alien pest, rugose spiralling whitefly, Aleurodicus rugioperculetus Martin: Inherent Menance. J. Appl. Anim. Res., 30 (2): 148-158.

Kumar V, Francis A, Avery PB, McKenzie CL, Osborne LS.2018. Assessing compatibility of Isaria fumosorosea and Buprofezin for mitigation of Aleurodicus rugioperculatus (Hemiptera: Aleyrodidae): An invasive pest in the Florida landscape. J Econ Entomol, 111(3): 1069-1079. https://doi.org/10.1093/jee/toy056 PMid:29546290

Luangsa AJJ, Hywel JNL, Manoch L, Samsonbc RA. 2005. On the relationships of Paecilomyces sect. Isarioidea species. Mycol Res., 109(5): 581-589. https://doi. org/10.1017/S0953756205002741 PMid:16018312

Neeraja B, Chalapathi NBVR, Bhagavan BVK. 2020. Occurrence of leaf blight- A new concern to coconut plantations in Andhra Pradesh. The Indian Coconut J, 63(4): 28-29.

Selvaraj K, Sumalatha BV, Ramanujam B, Poornesha B, Kandan A, Amala U, Bakthavatsalam N. 2020.

Isarea fumosorosea: A potential biocontrol agent for management of invasive Rugose Spiralling Whitefly in coconut and oilpalm. ICAR: NBAIR publication.11/2020.

Selvaraj K, Sundararaj R, Venkatesan T, Ballal CR, Jalali SK, Gupta A, Mrudula HK. 2016. Potential natural enemies of the invasive Rugose Spiralling Whitefly, Aleurodicus rugioperculatus Martin in India. J Biol Control, 30(4): 236-239. https://doi.org/10.18311/jbc/2016/15598

Simberloff D, Martin JL, Genovesi P, Maris V, Wardle DA, Aronson J, Courchamp F, Galil B, Garcia BE, Pascal M, Pysek P, Sousa R, Tabacchi E, Vila, M. 2013. Impacts of biological invasions: What is what and the way forward. Trends Ecol Evol, 28: 58-66. https://doi.org/10.1016/j. tree.2012.07.013 PMid:22889499

Srinivasan T, Saravanan PA, Josephraj KA, Rajamanickam K, Sridharan S, David PMM, Natarajan N, Shoba N. 2016. Invasion of the Rugose Spiralling Whitefly, Aleurodicus rugioperculatus Martin (Hemiptera: Aleyrodidae) in Pollachi tract of Tamil Nadu, India. Madras Agric J, 103: 349-353.

Visalakshi M, Selvaraj K, Poornesha B, Sumalatha BV. 2021. Biological control of invasive pest, rugose spiralling whitefly in coconut and impact on environment. J Entomol Zool Stud, 9(1): 1215-1218.

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Author Details

Kireeti, A.

Utilization of Vermiwash Spray on Growth and Yield of Radish Cv. Local Variety

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Abstract

Keywords

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Studies on Effect of Types of Bag at Egg Stage on Mango Fruit (cv. ALPHONSO)

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Abstract

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References

Standardization of Optimum Time Planting on Broccoli Production

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Abstract

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References

Efficacy of biopesticides under moderate infestation levels of exotic Rugose Spiraling Whitefly (RSW), Aleurodicus rugioperculatus Martin in coconut (Cocos nucifera L.) plantations

Authors

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Abstract

Keywords

Full Text

References