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Effects of forestry host plants, rearing seasons and their interaction on cocoon productivity of tropical tasar silkworm, Antheraea mylitta in uttarakhand
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 Title & Authors
Effects of forestry host plants, rearing seasons and their interaction on cocoon productivity of tropical tasar silkworm, Antheraea mylitta in uttarakhand
Bhatia, N.K.; Yousuf, Mohd.;
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 Abstract
Antheraea mylitta Drury (Lepidoptera: Saturniidae) is a commercial silk producing forest insect of India, but it has never been experimented in Uttarakhand state in spite of the huge availability of its forestry host plants. This is the first study on A. mylitta in Uttarakhand. The goal of this study is to introduce forest based commercial rearing of A. mylitta, in tropical forest areas of Uttarakhand to reduce poverty among forest dependent people. In current study, we assessed the effect of seven forest tree species, rearing seasons, and their interactions on cocoon productivity of Daba (bivoltine) ecorace of A. mylitta in the New Forest of FRI, Dehra Dun during 2012 and 2013 and collected the data that was analysed by two-way completely randomized block factorial design. Post HOC Tukey`s HSD test was carried out to compare the homogeneous pairs of means. We also carried out Evaluation Index analysis to rank the tested forestry host plants for better growth and development of A. mylitta under the climatic condition of Uttarakhand. Analysis of variance indicated that cocoon yield of A. mylitta differed significantly between rearing seasons (DF
 Keywords
Tropical forests;forest dependent people;forest based livelihood opportunity;vanya sericulture;poverty alleviation;socioeconomic development of Uttarakhand;
 Language
English
 Cited by
 References
1.
Agarwal SC, Jolly MS and Sinha AK (1980) Foliar constituents of secondary food plants of tasar silkworm, Antheraea mylitta D. Indian Forester 106 (12), 847-851.

2.
Basu AC (1944) Effect of different foods on the larval development of the moth, Prodeni litura Fb. (Lepidoptera, Noctuidae). Journal of the Bombay Natural History Society 44 (1&2), 275-288.

3.
Bhatia NK and Yousuf M (2013a) Reassuring livelihood functions of the forests to their dependents, Adoption of collaborative forest management system over Joint forest management regime in India. Annals of Forest Research 56(2), 377-388.

4.
Bhatia NK and Yousuf M (2013b) Forest insect industry in collaborative forest management, an overview. International Journal of Industrial Entomology 27(1), 166-179. crossref(new window)

5.
Brues CT (1920) The selection of food plants by insects, with special reference to Lepidoptera larvae. American Naturalist 54, 313-322. crossref(new window)

6.
Brues CT (1924) The specificity of food plants in the evolution of phytophagous insects. American Naturalist 58, 127-144. crossref(new window)

7.
CSB (2012) Why Sericulture. Central Silk Board, Ministry of Textiles, Government of India, Bangalore, India.

8.
David WAL and Gardiner BOC (1966) The effect of sinigrin on the feeding of Pieris brassicae L. larvae transferred from various diets. Entomologia Experimentalis et Applicata 9(1), 95-98. crossref(new window)

9.
De Foliart GR (1992) Insect as human food. Crop Protection 11(5), 395-399. crossref(new window)

10.
Deka M and Kumari M (2013) Comparative study of the effect of different food plant species on cocoon crop performance of tropical tasar silkworm (Antheraea mylitta Drury). International Journal of Research in Chemistry and Environment 3(1), 99-104.

11.
Dubey AK, Mishra US and Dixit SA (1981) Effect of host plant on the developmental stages of gram pod borer, Heliothis armigera (Hubner). Indian Journal of Entomology 29,48-57.

12.
Fraenkel G (1969) Evaluation of our thoughts on secondary plant substances. Entomologia Experimentalis et Applicata 12(5), 473-486. crossref(new window)

13.
Hassell MP and Southwood TRE (1978) Foraging strategies of insects. Annual Review of Ecology and Systematics 9, 75-98. crossref(new window)

14.
Isenhour DJ, Wiseman BR and Layton RC. (1987) Enhanced predation by Orius insidiosus (Hemiptera, Anthocoridae) on larvae of Heliothis zea and Spodoptera frugiperda (Lepidoptera, Noctuidae) caused by prey feeding on resistant corn genotypes. Environmental Entomology 18, 418-422.

15.
Jermy T, Hanson FE and Dethier VG (1968) Induction of specific food preferences in Lepidopterous larvae. Entomologia Experimentalis etApplicata 11, 211-230. crossref(new window)

16.
Jolly M S, Sen S K and Ahsan M M (1974) Tasar Culture, pp. 33-45.

17.
Jolly MS, Sen SK, Sonwalkar TN and Prasad GK (1979) Biochemistry of tasar food plants. In FAO Manuals on Sericulture, Vol (4) Non - mulberry Silks. Food and Agriculture Organization of the United Nations, Rome, pp. 84-85.

18.
Krishnaswami S (1978) New technology of silkworm rearing. Indian silk 16(12), 7-15.

19.
Mano Y, Nirmal Kumar S, Basavaraja HK, Mal Reddy N. and Dutta RK (1993) A new method to select promising silkworm breeds/combinations. Indian Silk 31(10), 53.

20.
Mano Y, Nirmal Kumar S, Basavaraja HK, Mal Reddy N and Dutta RK (1998) Combined trait selection for silk yield improvement in Bombyx mori Linn. In, Silkworm Breeding (ed. by Reddy, GS). Oxford IBH Publication Company Private Limited, New Delhi, pp. 278-284.

21.
Mathur JP and Mathur AP (1996) Seasonal effect on survival and cocoon production of pure and hybrid races of B. mori L. under sub humid south plan zones of Rajasthan. Journal of Parasitology and Applied animal Biology 5(2), 75-79.

22.
Mathur SK, Singh BMK, Sinha AK and Sinha BRRP (1998) Integrated package for rearing of A. mylitta D. Indian Silk, 37(2), 15-18.

23.
Muafor FJ, Levang P, Angwafo TE, Gall LE (2012) Making a living with forest insect, bettles as an income source in Southwest Camroon. International Forestry Review, 14(3), 314-325. crossref(new window)

24.
Nayak BK and Guru BC (1998b) Studies on cocoon biometry of the bivoltine tasar silkmoth Antheraea mylitta Drury (Lepidoptera, Saturniidae) reared at Bangiriposi. Bulletin of Indian Academy of Sericulture 2(1), 31-34.

25.
NISCAIR (1976) The Wealth of India - An Encyclopedia of India's Raw Material Resources Vol. X. Council of Scientific and Industrial Research -National Institute of Science Communication and Information Resources (CSIR-NISCAIR)., New Delhi, pp. 157-177.

26.
Pandey ND, Yadava DR and Teotia TPS (1968) Effect of different food plants on larval and post larval development on Diacrisia obliqua Walk. Indian Journal of Entomology 30(3), 229-234.

27.
Parpiev A (1968) Water metabolism in silkworm fed with a different mulberry strains changing diet. Shelk 39,15-17.

28.
Singh HN and Byas (1975) Larval development of Prodenia litura F. in relation to certain cultivated plants. India Journal of Entomology 37(1), 1-6.

29.
Sinha AK and Jolly MS (1971) Foliar constituents of the food plants of tasar silk worm Antheraea mylitta D. The Indian Forester 97(5), 261-263.

30.
Sinha AK, Sengupta AK, Sharma KK, Sinha BRRP and Sinha SS (1995) Yield components and their implication to better genotype of Antheraea mylitta Drury (Lepidoptera, Saturniidae). In Perspective in Cytology and Genetics (ed. by Manna, G.K. and Roy, S.C.). Hindasia Publishers, Delhi, India, pp. 617-626.

31.
Slansky F (1980) Effect of food utilization on food consumption and reproductive allocation by adult milkweed bugs, Journal of Insect Physiology 26, 79-84. crossref(new window)

32.
Srivastava BK (1959) Growth potential of Laphyqma exiqua in relation to certain food plants. Madras Agriculture Journal 46(7), 255-259.

33.
Stride GO and Stratman R (1962) The host plant relationship of an Australian swallow stain, Papilio aeges and its significance in the evolution of its host plant selection. Proceedings of Linnean Society of New South Wales 87, 69-78.

34.
Takeshita H. Suto M, Kumata K, Sakate S, Matsumara M and Shigematsu H (1975) Biological characteristic of factors concerning silk formation in the silkworm Bombyx mori Linn. Journal of Sericulture Society of Japan 44,183-189.

35.
Tamiru A, Getu E, Jembere B and Bruce T (2012) Effect of temperature and relative humidity on the development and fecundity of Chilo partellus (Swinhoe) (Lepidoptera, Crambidae). Bulletin of Entomological Research 102, 9-15. crossref(new window)

36.
Thangamani R and Vivekanandan M (1984) Physiological studies and leaf analysis in the evaluation of best mulberry varieties. Sericologia 24(3), 317-324.

37.
Thangavelu K (2004) Host plant wealth of Vanya Silks in the Himalayan states and strategies for its utilization. In Proceedings of National Workshop on Potential and Strategies for Sustainable Development of Vanya silk in the Himalayan States, 8-9 November 2004. Directorate of Sericulture, Government of Uttarakhand, Dehradun, India, pp. 1-8.

38.
Thobbi VV (1961) Growth potential of Prodenia litura F. In, relation to certain food plants at Surat. Indian Journal of Entomology 23(4), 262-264.

39.
Ueda S, Kimura R. and Suzuki K (1969) Studies on the growth of the silkworm B. mori II. The influence of rearing condition upon the larval growth, productivity of silk substance and eggs and boil off loss in cocoon shell. Bulletin of Sericultural Experiment Station Japan 23, 255-293.

40.
Venugopal P and Krishnaswami S (1987) Adoptability of silkworm, Bombyx mori Linn. to tropical condition. Indian Journal of Sericulture 26(2), 63-71.

41.
WMD (2011) Uttarakhand State Perspective and Strategic Plan 2009-2027. Water Management Directorate (WMD), Government of Uttarakhand, Dehradun, 188 p.