Refine your search
Collections
Co-Authors
Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Tambave, K. N.
- Importance of Silkworm and its Wastes to Enhance Socio-Economic Status in India
Abstract Views :406 |
PDF Views:0
Authors
Affiliations
1 Department of Agricultural Entomology, Ratnai College of Agriculture, Akluj (M.S.), IN
1 Department of Agricultural Entomology, Ratnai College of Agriculture, Akluj (M.S.), IN
Source
International Journal of Plant Protection, Vol 13, No 1 (2020), Pagination: 105-110Abstract
Mulberry sericulture always been recognized only for commercial production of silk from silkworm. Its quiet true also that at present this sericulture industry is looked as an important source by countries such as China and India to generate global currencies. But several resources regarding mulberry sericulture are still utilized properly. The sericulture waste can be emanated into three kinds i.e., first is beds refuse after silkworm rearing, second mulberry twigs, surplus leaves along with fruits, third waste from coccon reeling such as pupae. Also silkworm excreta and different by products can offer diverse utility either by direct or indirect way in agriculture and rural cottage industries. Hence helping to generate note worthy economic for the sericulture farmers.Keywords
Sericulture, Silkworm, Wastes, Socio-Economic, Status.References
- Anonymous (1996). By products for better revenue. Indian Silk, 35 : 3.
- Babu, G.R. (1994).Drugs from silkworms and their faeces too. Sci. Rep., 31: 51.
- Bharathi, D. (2018).The utilization of sericulture waste for the improvement of socio-economic welfare in India. Internat. J. Sci. & Res., 8(2): 372-377.
- Bhuroo, Z. I., Bhat, M.A., Kamili, A.S., Ganai, N.A., Bali, G.K., Khan, I.L. and Aziz, A. (2018).Trends in development and utilization of sericulture resources for diversification and value addition. J. Entomol. & Zoology Studies, 6(4): 601-615.
- Dandin, S.B. and Kumar, S.N. (1995).Bio-medical uses of silk and its derivatives. Indian Silk, 8 : 15-17.
- Datta, R.K. (1994).Silk worms to produce human vaccine. Indian Silk, 33 : 33-35.
- Deewangan, S.K. (2017).Employment generation and socio-economic change through sericulture in Rajgarh District, Chattisgarh, India.Ann. Natural Sci., 3(2): 32-42.
- Ghonmode, S.V. (2020).Application of sericulture waste by the farmers to ameliorate crop yield. Our Heritage, 68(1): 91-95.
- Gui, Z. and Zhuang, D. (2000).Study on the silkworm powder and its physiological functions. China Sericulture, 2 : 53-54.
- Hara, T., Tarui, H., Kawaguchi, H., Yoshimura, N. and Kawarabata, T. (1995).Effect of silkworm hemolymph on Escherichia coli -galactosidase expression in insect cell lines infected with a recombinant baculovirus. J. Seric. Sci. Jpn., 64, 477-481.
- Imai, K., Sugiura, K., Komiya, T. and Yamashita, O. (1996). Isolation and partial structure of a unique lipophilic peptide, VAP peptide from the heads of male silkworm moths. Bioscience Biotech Biochemistry, 60 : 355-357.
- Inouye, K., Kurokawa, M., Nishikawa, S. and Tsukada, M. (1998).Use of Bombyx morisilk fibroin as a substratum for cultivation of animal cells. J. Biochemical & Biophysical Methods, 37(3):159-164.
- Jalba, H.C. (2016).Scenario of sericulture industry in Maharashtra state, India. J. Entomol. & Zoology Studies, 4 (1) : 601-605.
- Kato, T., Kajikawa, M., Maenaka, K. and Park, E.Y. (2010). Silkworm expression system as a platform technology in life science. Appl. Microbiol. & Biotechnol., 85 : 459-470.
- Kim, E.J. and Park, T.H. (1999).Reduction of FBS concentration through adaptation process in mammalian cell culture and addition of silkworm haemolymph in insect cell culture. J. Microbiol. & Biotechnol., 9 : 227-229.
- Koul, S., Dhar, A. and Bindroo, B.B. (1994).Industrial utilization of sericultural resources in china. Pop Sci., 3: 29-34.
- Longvah, T., Mangthya, K. and Ramulu, P. (2011).Nutirent composition and protein quality evaluation of eri silkworm (Samia ricinii) prepaque and pupae. Food Chemistry, 128 (2) : 400-403.
- Majhi, S.K., Singha, U.S.P. and Thangavelu, K. (1991).Use of by products of non mulberry sericulture and silk industry. Indian Silk, 30(7): 13-14.
- Majumder, S.K. (1997).Scope for new commercial products from sericulture. Indian Silk,35: 13-18.
- Matsumoto, S., Ozawa, R., Uchiumi, K. and Kurihara, M. (1996). Cell free production of the silkworm sex pheromone Bombykol. Biosci Biotech Biochem., 60: 369-373.
- Narang, M.P. and Lal, R. (1985).Evaluation of some agro industrial wastes in the feed of jersy calves. Protien News, 3: 2-2.
- Panthee, S., Paudel, A., Hamamoto, H. and Sekimizu, K. (2017). Advantages of the silkworm as an animal model for developing novel antimicrobial agents. Frontier Microbiol., 8 : 373.
- Patil, B.R, Singh, K.K., Pawar, S.E., Moarse, L. and Otte, J. (2009).Sericulture: An alternative source of income to enhance the livelihood of small scale farmers and tribals communities. Pro poor Livestock policy Initiative A Living from livestock Research Report: 1-26.
- Qian, J. (1997).The chemical constitution and utilization of silkworm pupae. Sci. Technol. & Food Industry, 5: 42-43.
- Rajasekaran, P. (1986).Biogas production potential of sericulture waste. Rural Technology J., 3: 21-27.
- Raju, S. (1996).Utilization of sericultural by-products . A Chinese example. Indian Silk, 35: 19-20.
- Ramakanth and Raman, K.V.A. (1997).Cocoon pelade for better health. Indian Silk, 35: 35.
- Rathore, M. S. and Srinivasula, Y. (2018). Vermicomposting bed types for recycling of sericultural waste. Internat. Res. J. Engg. & Technol. (IRJET), 5: 1484-1488.
- Reddy Manohar, R. (2008).Value addition span of silkworm cocoon –Time for utility optimization. Internat. J. Indust. Entomol., 17 (1): 109-113.
- Reddy, R.N., Banuprakash, K.G., Shankarappa, T.H. and Mallesha, B.C. (2018).Utility of different silkworm (Bombyx moriL.) residues for cultivation of button mushroom. Internat. J. Curr. Microbiol. & Appl. Sci., 7(4): 473-479.
- Seiichi, H. and Minoru, Y. (1995).Moricin a novel type of antibacterial peptide isolated from silkworm, Bombyx mori. J. Biological Chemistry, 270(50): 29923-29927.
- Sheikh, I.U., Banday, M.T., Baba, I.A., Adil, S., Shahista, S.N., Bushra Zaffer and Bulbul, K.H. (2018).Utilization of silkworm pupae meal as an alternative source of protein in the diet of livestock and poultry: A review. J. Entomol. & Zool. Studies, 6(4): 1010-1016.
- Siddappaji, D., Latha, C.M., Ashoka, S.R. and Basava raja, M.G. (2014).Socio-Economic development through sericulture in Karnataka. IOSR J. Humanities & Social Sci. (IOSR_JHSS), 19(10): 24-26.
- Singhal, B.K., Dhara, Tripathy, P.M., Gadry, S.M., Bindroo, B.B. and Ashan, M.M. (2001). Medicinal utilities of mulberry and non-mulberry food plants of silkworm. Recent progress in medicinal plants research periodicals and book publishing house, Texas, USA.
- Singh, K.P. and Jayasomu, R.S. (2002). Bombyx mori- A review of its potential as a medicinal insect. Pharmaceutical Biol., 40(1) : 28-32.
- Soumya, M., Reddy Harinatha, A., Nageshwari, G. and Venkatappa, B. (2017).Silkworm (Bombyx mori) and its constituents :A Fascinating insect in science and Research. J. Entomol. & Zoology Studies, 5(5) : 1701-1705.
- Trivedy, K., Kumar, S.N., Mondal, M., Kumar and Bhat, C.A. (2008).Protien banding pattern and major amino acid component in de-oiled pupal powder of silkworm Bombyx mori Linn.J. Entomol., 5: 10-16.
- Vathsala, T.V. (1997).Creativity in cocoon crafts. Indian Silk, 36: 17-22.
- Velayudhan, K., Balachandran, N., Sinha, R.K. and Kamble, K.C. (2008).Utility of silkworm pupae-A new dimension as food and medicine. Indian Silk, 47(1): 11-18.
- Vishakanta (2018).Socio-Economic status of sericulture farmers of Ramanagaram district of Karnataka. Internat. J. Res. Econ. & Soc. Sci.,8(4): 472-482.
- Wani, M. Younus, Mir, M.R., Baqual, M.F., Ganie, N.A., Bhat, Z.A. and Ganie, Qayoom A. (2017).Roles of mulberry tree. The Pharma Innovation J., 6(9): 143-147.
- Xia, B., Li, z. and Ding, Y. (1989).Properties of ultraviolet spectrum of domestic silkworm chorionins. Canye Kexue,15: 45-48.
- Xia, W. and Zhao, D. (2003).The chrysalis of silkworm synthesizes to develop the present condition and technique. J. Shaanxi Normal University (Natural Science Edition), 31: 265-269.
- Mulberry and its Waste Utilization an Important Socio-Economic Status in Sericulture
Abstract Views :419 |
PDF Views:0
Authors
Affiliations
1 Department of Agricultural Entomology, Ratnai College of Agriculture, Akluj (M.S.), IN
1 Department of Agricultural Entomology, Ratnai College of Agriculture, Akluj (M.S.), IN
Source
International Journal of Plant Protection, Vol 13, No 1 (2020), Pagination: 119-124Abstract
Mulberry plant is an extremely versatile plant that can fulfill a number of roles in smallholder agricultural production. Mulberry has been used as silkworm feed also in traditional oriental medicine as a anti-oxidative, anti-inflammatory, anti-cancer, anti-diabetic, anti-obesity and also to treat cardiovascular problems. Mulberry fruits are used as a foodstuff to enhance the cattle milk production. Mulberry stem and ischolar_main barks can be used in the paper making industry. Dried wastes of mulberry are utilized in poultry rations which improve the nutritional content i.e., vitamin A, finally increasing their egg production. Mulberry wastes such as stem, leaves, branches etc. are used in biofuel and biogas production which can inflates a notable avenue to seri-farmers. Its high thickness stems are applied in manufacturing of hockey sticks and various agricultural implements. Their biomass waste is an valuable raw material for the pharmaceutical industry due to its high flavones and phenol content. Hence whole mulberry plant have a specific value and if proper utilization of such raw material takes place it can open new vista in industrial exploitation which may help to uplift standard of living and socio- economic status of seri-farmers.Keywords
Mulberry, Wastes, Importance, Socio-Economic, Sericulture.References
- Ahmad, J., Farooqui, A.H. and Siddiqui, T.O. (1985).Morus nigra. Hamdard Medicine, 15: 76-78.
- Angadi, B.S., Manohar Reddy, R. and Sivaprasad, V. (2013). Scope of product diversification and value creation in Indian sericulture industry. J. Engg., Computers & Appl. Sci. (JEC and AS)., 2 (5): 33-39.
- Bharathi, D. (2019).The Utilization of sericulture waste for the improvement of socio-economic welfare in India. Internat. J. Sci. & Res., 8(2): 372-377.
- Buhroo, Z.I., Bhat, M.A., Kamili, A.S., Gannai, N.A., Bali, G.K., Khan, I.L. and Aziz, A. (2018).Trends in development and utilization of sericulture resources for diversification and value addition. J. Entomol. & Zool. Studies, 6(4): 601-615.
- Deepa, M. and Priya, S. (2012). Purification and characterization of a Novel Anti-proliferative lectin from Morus alba L. leaves. Protein Pept. Lett., 19(8):839-45.
- Du, Z.H., Liu, J.F. and Liu, G. (2001).Study on Mulberry trees as both water and soil conservation and economy trees. J. Guangxi Sericulture, 38 : 10-12.
- Fairjuice (2008).Superfruit mulberry juice. Food & Beverage Internat., 13 : 4.
- FAO (1998). Tropical Feeds, 8th Edition. FAO, Rome (http:// www.fao.org/WAICENT/FAOINFO/AGRICULT/AGA/AGAP/ FRG/TFEED8/index.htm)
- Ghosh, Ashmita, Debnirmalaya, G. and Tanmay, C. (2017). Economical and environmental importance of mulberry: A Review. Internat. J. Plant & Enviorn., 3(2): 51-58.
- Habib, G. (2004).Mulberry fruit based feed blocks-a key supplement for livestock in mountains regions. MountainRES. DEVP, 24 : 106-109.
- Han, S.Y. (2007).The ecological value of mulberry and its ecological cultivation models for planting mulberry from eastern to western areas in Guizhou. J. Guizou Agric. Sci., 35: 140-142.
- Hou, D.X. (2003).Potential mechanisms of cancer chemo prevention by anthocyanins. Curr. Mol. Med., 3: 149-159.
- Iyengar, M.N.S. (2007a).Mulberry leaf – A cure for many serious diseases. Indian Silk, 46(3): 29.
- Iyenger M.N.S. (2007b).Mulberry leaves are toxic. Indian Silk, 45(9): 29.
- Jothimani, P., Ponmani, S. and Sangeetha, R. (2013). Phytoremediation of heavy metals- A review. Internat. J. Res.: Studies Biosci., 1: 17-23.
- Khayade, Vitthalrao, B., Pawar, Shubhangi Shankar and Khyade, Rjashri V. (2018).Oxidative stress reducing capabilities of Moracin. The novel compound from the fruits of mulberry, Morus alba(L) in hydrogen peroxide induced stress in skin fibroblast cell line culture (AH 927). Internat. J. Scientific Studies, 6(1): 1-14.
- Khurana, P. and Checker, V.G. (2011).The advent of genomics in mulberry and perspectives for productivity enhancement. Plant Cell Reports Research Gate, 30: 825-838.
- Kumar, V., Nataraju, B. and Datta, R.K. (2000).Potential of wood ash from mulberry and coconut as disinfectant for sericulture. Indian Silk, 39 : 11.
- Lee, J.J., Yang, H., Yoo, Y.M., Hong, S.S., Lee, D., Lee H.J., Myung, C.S. Choi, K.C. and Jeung, E.B. (2012).Morusinol extracted from Morus alba Inhibits Arterial Thrombosis and Modulates Platelet Activation for the treatment of Cardiovascular disease. J. Antheroscler Thromb., 19 (6) : 516-522 Malsiamani, S., Qadri, S.M.H. and Dandian, S.B. (2008).
- Mulberry fruits a potential value – addition enterprise. Indian Silk, 46(11): 12-13.
- Nan, H.W., He, X.B. and Bao, Y.H. (2011).Influence of ischolar_main system of Morus albato shearing resistance of Purple soil. Soil & Water Conservation China, 8: 48-51.
- Ni, G., Zhang, G.J., Wang, H.Y., Chen, R.Y., Zherg, F.Z. and Yu, D.Q. (2010).Chemical constituents of the stem bark of Morus cattayana. J. Asian Nat. Prod. Res., 12: 505-515.
- Priya, Sulochna (2012).Medicinal Values of Mulberry-An overview. J. Pharmacy Res., 5(7) : 3588-3596.
- Ramesh, C., Basha, K.I., Lakshami, H., Seshagiri, S.V. and Kumar, P.K. (2003).Mulberry an ideal resource for biotechnological products. Indian Silk, 41(11): 5-9.
- Ramesh, S., Kumar, C.S., Seshagiri, S.V., Basha, K.I., Lakshami, H., Rao, C.G.P. and Chandrashekaraian (2005). Silk filament its pharmaceuticals applications. Indian Silk, 44(2): 15-19.
- Rutuja Ashok, K., Dhumal, Nivedita Dattatray and Khyade, V.B. (2019).The Mulberry, Morus alba(L): The Medicinal Herbal source for human health. Intenat. J. Curr. Microbiol. & Appl. Sci.,8(4): 2941-2964.
- Shaikh, Anis, Bhargava, Tanu and Upadhyay, Himanshu (2012).A review on phytotherapy by Morus alba. Internat. J. Pharamceutical & Chemical Sciences., 1(4): 1563-1566.
- Sharma, S. and Madan, M. (1994).Potential of mulberry (Morus alba) biomass. J. Scientific & Industrial Res., 53: 710-714.
- Shi, D.M., Lu, X.P. and Liu, L.Z. (2005).Study on functions of soil and water conservation by mulberry hedgegrow intercropping of purple soil slopping formland in three gorges reservoir region. J. Soil Water Coservaion, 19: 75-79.
- Shi, Y.A., Fukai, T., Sakagami, H., Chang, W.J., Yang, P.Q., Wang, F.P. and Nomura, T. (2001).Cytotoxic flavonoids with isopreroid groups from Morus mongolica. J. Nat. Products, 64: 181-188.
- Singhal, B.K., Dhar, A., Sharma, A., Qadri, S. M. H. and Ahsan M.M. (2001).Sericultural by-products for various valuabe commercial products as emerging bio science industry. Sericologia, 41(3): 369-391.
- Singhal, B.K., Dhara, Tripathy, P.M., Gadry, S.M., Bindroo, B.B. and Ahsan, M.M. (2001).Medicinal utilities of mulberry and non mulberry food plants of the silk worm. Recent progress in medicinal plants. Research periodicous and book publishing house, Texas, USA.
- Sinha, R.K. (2008).Mulberry fruits : A culture of delectable desert. Indian Silk, 46(11): 6-9.
- Suryanarayan, N. (2002).Mulberry and its therapeutic values. Indian Silk, 41(7): 11-13.
- Tanase, D.C., Glaran, M., Constatinescu, E., Pau, C. and Ungureanu (2008).The SWOT Method for energetic potential of Morus bomass plants. International Conference, Bucharest.
- Venkatesh, K.R. and Chauhan, S. (2008).Mulberry :Lfe Enhancer. J. Medicinal Plant Res., 2 : 271-278.
- Yang, J., Liu, X., Zhang, X., Jin, Q. and Li, J. (2016).Phenolics profiles, antioxidant activities and neuroprotective property of mulberry (Morus atropurpureaRoxb) fruit extracts from different ripening stages. J. Food Sci., 81: C2439-C2446.
- Zhang, M., Chen, M., Zhang, H.Q., Sun, S., Xia, B. and Wu, F.H. (2009). In vivohypoglycaemic effects of phenolics from the ischolar_main bark of Morus alba. J. Fitoterepia, 80: 475-477.
- Zhou, L., Zhao, Y., Wang S., Han, S. and Liu, J. (2015).Lead in the soil mulberry (Morus alba L)- Silkworm (Bombyx mori) food chain: translocation and detoxification. Chenosphere, 128: 171-177.