Browse > Article

Effect of Parasitoids' Exit and Predators' Ingress Holes on Silk Yield of the African Wild Silkmoth, Gonometa Postica Walker (Lepidoptera: Lasiocampidae)  

Fening, Ken Okwae (CSIR-Crops Research Institute)
Kioko, Esther Ndaisi (National Museums of Kenya)
Raina, Suresh Kumar (Commercial Insects Programme, icipe-African Insect Science for Food and Health)
Publication Information
International Journal of Industrial Entomology and Biomaterials / v.19, no.2, 2009 , pp. 265-268 More about this Journal
Abstract
Wild silkmoths can be utilised sustainably in the production of silk as an income for resource-poor rural communities. However, attack by parasitoids and predators affect the quality of cocoons and quantity of raw silk produced. A laboratory experiment was undertaken to quantify the effect of parasitoids' (dipteran and hymenopteran) and predators' (ants) exit and ingress holes, respectively, on silk production. The mean number of shells required to produce fifty grams of raw silk was highest with cocoons parasitised by a dipteran and lowest with unattacked cocoons (but with moths already emerged). Degumming loss was highest in parasitised and lowest in unttacked cocoons, but both were not different from cocoons predated by ants. Shell weight was highest in unattacked cocoons, followed by hymenopteran-parasitised and predated cocoons, with the dipteran parasitized ones being the least. Single cocoon weight was greater in hymenopteran-parasitised and predated cocoons than the dipteran-parasitised and unattacked cocoons. Shell ratio or raw silk, floss and yarn weights were higher in unattacked than parasitised and predated cocoons. The total loss in raw silk attributable to attack by parasitoids and predators ranged between 17.4~31.2%. The results offer baseline information for assessment of economic losses in wild silk farming due to parasitoids and predators in the field.
Keywords
Wild silkmoth; Gonometa postica; Parasitoids; Predators; Exit and ingress holes; Shell ratio; Raw silk yield;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Arami M, Rahimi S, Mivehie L, Mazaheri F, Mahmoodi NM (2007) Degumming of Persian Silk with mixed Proteolytic Enzymes. J Appl Polym Sci 106, 267-275   DOI   ScienceOn
2 Hartland-Rowe R (1992). The biology of the wild silkmoth Gonometa rufobrunnea Aurivillius (Lasiocampidae) in northeastern Botswana, with some comments on its potential as a source of wild silk. Botsw Notes Rec 24,123-133
3 Nel JF (2007) The evaluation of mixed yarn fabrics of Gonometa postica silk, Acrylic and wool. University of the Free State, South Africa
4 Ngoka BM (2003) A study on the biology and the impact of natural enemies on the African wild silkmoth, Gonometa sp. at Kamaguti, Uasin Gishu District, Kenya. Kenyatta University, Kenya
5 Ngoka MB, Kioko EN, Raina SK, Mueke JM, Kimbu DM (2008) Semi captive rearing of the African wild silkmoth Gonometa postica (Lepidoptera: Lasiocampidae) on an indigenous and a non-indigenous host plant in Kenya. Int J Trop Insect Sci 27, 183-190   DOI   ScienceOn
6 Kioko EN, Raina SK, Mueke JM (2000) Survey on the diversity of wild silkmoth species in East Africa. E Afri J Sci 2, 1-6
7 Zethner O, Koustrp R, Raina SK (2009) African Ways of Silk. The Centre for Advanced Studies of African Society (CASAS), Cape Town, South Africa; CASAS Book Series No. 57 ISBN: 978-1-920294-60-1
8 Vishuprasad N (2004) Composite quality index of silk cocoons-application of discriminant analysis. J Acad Bus Econs http://findarticles.com/p/articles/mi_m0OGT/is_1_4/ai_n8690412
9 Shimazaki A (1964) Filature Technology Lecture. Published by Sericulture Association, Tokyo
10 Peigler RS (1993) Wild silks of the world. Amer Entomol 39, 151-161   DOI
11 SAS Institute Inc (2005) SAS Users Guide: Statistics. Version 9.1.3 ed. SAS Institute, Cary, NC, USA (on disk)
12 Raina SK, Kioko EN, Adolkar V, Muli E, Nguku E, Macharia J, Mbahin N, Okwae F, Ngoka B, Makau S (2007) Programme for the Development of Sericulture and Apiculture Products for the Poor in Fragile Ecosystems using the Value Chain Approach; in Development of Sericulture and Apiculture Products for the Poor in Fragile Ecosystems Using the Value Chain Approach. Raina SK, Muli EM, Nguku EK, Kioko EN (eds.), pp. 35-45. Proceedings of the Trainers Course and Fourth International Workshop on the Conservation and Utilisation of Commercial Insects. The International Centre of Insect Physiology and Ecology (icipe). Headquarters, Duduville, Nairobi, Kenya, 14th November-8th December 2006, icipe Science Press, Nairobi, Kenya
13 Veldtman R, McGeoch MA, Scholtz CH (2004) Parasitoids of Southern African wild silkmoths (Lepidoptera). Afri Entomol 12, 119-122
14 Akai H, Nakatomi R, Kioko E, Raina SK (1997) Fine structure of cocoon and cocoon filament from African Gonometa silkmoth (Lasiocampidae). Int J Wild Silkmoth Silk 3, 15-22
15 Fening OK (2008) Spatial distribution and biology of Gonometa postica Walker (Lepidoptera: Lasiocampidae) with reference to its key parasitoids on Acacia species in Mwingi, Kenya. Kenyatta University, Kenya
16 Veldtman R, McGeoch MA, Scholtz CH (2002) Variability in pupal size in Southern Africa wild silkmoths: implications for sustainable harvesting. Afri Entomol 10, 127-136
17 Anon (1996) Manual on bi-voltine Silk Reeling, JICA Bi-voltine Sericulture Technology Development Project, CSTRI, Central Silk Board, Bangalore
18 Sonwalkar (1993) Handbook on Silk Technology, Wiley Eastern Ltd., New Delhi, India
19 Cumming I. (2007) Managerial and technical approaches in enhancing production, processing and marketing of wild silk by small scale farmers in Africa; in Development of Sericulture and Apiculture Products for the Poor in Fragile Ecosystems Using the Value Chain Approach. Raina SK, Muli EM, Nguku EK, Kioko EN (eds.), pp. 197-200. Proceedings of the Trainers Course and Fourth International Workshop on the Conservation and Utilisation of Commercial Insects. The International Centre of Insect Physiology and Ecology (icipe). Headquarters, Duduville, Nairobi, Kenya, 14th November-8th December 2006, icipe Science Press, Nairobi, Kenya
20 Rajkhowa R, Gupta VB, Kothari VK (2000) Tensile stress–strain and recovery behaviour of indian silk fibres and their structural dependence. J Appl Polym Sci 77, 2418-2429   DOI   ScienceOn
21 Kioko EN (1998) Biodiversity of wild silkmoths (Lepidoptera) and their potential for silk production in East Africa. Kenyatta University, Kenya
22 Gaviria DA, Aguilar E, Serrano HJ, Alegria AH (2006) DNA Fingerprinting using AFLP markers to search for markers associated with yield attributes in the silkworm, Bombyx mori. J Insect Sci 6, 15   DOI   ScienceOn
23 Mbahin N, Raina SK, Kioko EN, Mueke JM (2010) Use of sleeve nets to improve survival of the Boisduval silkworm, Anaphe panda, in the Kakamega Forest of western Kenya. J. Insect Sci. In press
24 Fening OK, Kioko EN, Raina SK, Mueke JM (2009) Parasitoids of the African wild silkmoth, Gonometa postica (Lepidoptera:Lasiocampidae) in the Mwingi Forests, Kenya. J Appl Entomol 133, 411-415   DOI   ScienceOn