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Development of a Muga Disease Early Warning System – A Mobile-Based Service for Seri Farmers
Flacherie is a major bacterial disease causing >40% loss during Muga summer crops. For finding the ischolar_main causes of the diseases, relationships were established between rearing and production data corresponding to land use/land cover, land surface temperature and meteorological parameters. Adverse affects were found in farms associated with anthropogenic activities, in contrast to forest cover which shows a negative trend. Muga disease early warning system, a mobile-based application and dashboard has been developed to predict rate of flacherie infestation at least 5–10 days in advance, for proper precautionary measures by the farmers to avoid disease outbreak and crop loss
Keywords
Crop Loss, Early Warning System, Flacherie Disease, Mobile-Based Service, Muga Silkworm, Remote Sensing. Muga Silkworm.
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- Tikader, A., Vijayan, K. and Saratchandra, B., Muga silkworm, Antheraea assamensis (Lepidoptera: Saturniidae) – an overview of distribution, biology and breeding. Eur. J. Entomol., 2013, 110(2).
- Kumar, R. and Rajkhowa, G., Muga silkworm, Antheraea assamensis (Insecta: Lepidoptera: Saturniidae): rearing and insect. Hartmann and Weipert. Proceedings: Biodiversität und Naturausstattung im Himalaya IV.–Erfurt, Germany, 2012, pp. 187–190.
- FAO, Manuals of Sericulture, Food and Agriculture Organization, Rome, 1976.
- Madhusudhan, K. N. et al., Impact of varying different abiotic factors on the survivability of tasar silkworm in outdoor rearing fields. J. Entomol. Zool. Stud., 2017, 5(6), 957–963.
- Chakravorty, C., Das, R., Neog, R., Das, K and Sahu, M., A Diagnostic Manual for Diseases and Pests of Muga Silkworms and their Host Plants, Central Muga Eri Research and Training Institute, CSB Publication, 2007, 1st edn.
- Subrahmanyam, G. et al., Isolation and molecular identification of microsporidian pathogen causing nosemosis in Muga silkworm, Antheraea assamensis Helfer (Lepidoptera: Saturniidae). Indian J. Microbiol., 2019, 59(4), 525–529.
- Ueda, S., Kimura, R. and Suzuki, K., Studies on the growth of the silkworm, Bombyx mori L., 4: Mutual relationships between the growth in the fifth instar larvae and the productivity of silk substance. Bull. Sericult. Exp. Station, 1975.
- Benjamin, K. V. and Jolly, M. S., Principles of silkworm rearing.
- In Proceedings of Seminar on Problems and Prospects of Sericulture (ed. Mahalingam, S.), Vellore, 1986, pp. 63–108.
- Sys, C. et al., Land Evaluation. Part I, II & III: Crop Requirements, Agricultural Publications N° 7, GADC, Brussels, Belgium, 1993, p. 191.
- Sys, C., Van Ranst, E., Debaveye, J. and Beenaert, F., Land evaluation part III. Crop Requirements. Agriculture Publication, 1993, vol. 7, p. 166.
- Handique, B. K. et al., Expansion of sericulture in India using geospatial tools and web technology. Curr. Sci., 2016, 111(8), 1312–1318.
- National Remote Sensing Agency, Manual of National Land Use/Land Cover Mapping using Multi-Temporal Satellite Data, Hyderabad, 2006.
- Malik, B., The problem of shifting cultivation in the Garo Hills of North-East India, 1860–1970. Conserv. Soc., 2003, 287–315.
- Willmer, C. W., Stone, G. and Johnston, I., Environmental Physiology of Animals, Blackwell Science, Oxford, UK, 2009, 2dn edn, pp. 175–183.
- Shirota, T., Selection of healthy silkworm strain through high temperature rearing of fifth instar larvae. Rep. Silk Sci. Res. Inst. (Jpn), 1992.
- Tajima, Y. and Ohnuma, A., Preliminary experiments on the breeding procedure for synthesizing a high temperature resistant commercial strain of the silkworm, Bombyx mori. Rep. Silk Sci. Res. Inst. (Jpn), 1995, 1–16.
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