بررسی عملکرد هفت هیبرید کرم ابریشم در تربت‌حیدریه

نوع مقاله : علمی پژوهشی- سایر

نویسندگان

1 گروه تولیدات گیاهی، دانشگاه تربت حیدریه، تربت حیدریه، ایران.

2 اداره توسعه نوغانداری خراسان رضوی، تربت حیدریه

چکیده

شش هیبرید تجاری ایرانی و یک هیبرید چینی کرم­ابریشم موجود در کشور، در بهار سال ۱۳۹۵ پس از تفریخ در اتاق تفریخ مرکز توسعه ­نوغانداری تربت‌حیدریه پرورش­داده­شدند. هدف از این تحقیق مقایسه عملکرد هیبریدهای مورداستفاده کرم­ابریشم در منطقه تربت‌حیدریه بود. پس از اتمام دوره پرورش، پیله‌های تولیدی جمع‌آوری گردید.  بعضی از صفات موردبررسی شامل تعداد لارو زنده، تعداد شفیره زنده، وزن پیله، وزن قشر ­پیله، درصد ­قشر  پیله اندازه‌گیری و رنگ پوسته تخم­نوغان و طول­دوره­لاروی بود. مقایسه بین هیبریدها نشان­داد که هیبرید ۳۱ × ۳۲ دارای بالاترین وزن برای پیله‌های­ خوب ­تولیدی (86/147 گرم)، بیشترین میانگین وزن یک پیله­خوب (64/1 گرم) و بیشترین میانگین وزن یک پیله ­خوب (39/0 گرم) بود (05/0>P). از طرفی هیبرید ­چینی و هیبرید ۱۵۴×۱۵۱   برای صفات وزن­ پیله­ خوب ­تولیدی  به­ترتیب با 66/121 و 61/121 و میانگین وزن­ قشر یک پیله ­خوب به ترتیب با 29/0 و 31/0 کمترین عملکرد را نشان­دادند (05/0>P). همچنین  پروانه‌های هیبرید ۳۱ × ۳۲ با تولید 67/604 عدد تخم بیشترین مقدار تخم‌گذاری را داشتند (0.05>P).

کلیدواژه‌ها


عنوان مقاله [English]

Performance of Seven Silkworm Varieties in Torbat Heydarieh

نویسندگان [English]

  • Masoud alipanah 1
  • Zabihioallah Abedian 2
  • Abdolazim Nasiri 2
  • Farid Sarjamei 2
1 Department of Plant Production, Torbat Heydariyeh University, Torbat Heydariyeh, Iran.
2 Centre of Sericulture of Khorasan Razavi Province, Torbat Heydarieh
چکیده [English]

Introduction: City of Torbat Heydarieh in the northeast of Iran is one of the most important region in rearing silkworm in country. In Iran, two types of silkworm are used for rearing, mostly hybrids produced in center of Iran silkworm research, also in some regions some of imported hybrids using for rearing. Understanding the resistance and sensitivity of these hybrids is essential for choosing the best hybrid in each region and for understanding their genetic capabilities to apply future breeding hybrid. In addition, considering the conditions in the traditional and industrial field of silkworm breeding, which is suffering from many contamination and morality reasons, the selection of resistant strains and hybrids is important for preventing a severe drop in production.
The goals of many of pervious experiments were to identify the proper hybrid for each region. Results of studies in Iran showed that Iranian hybrids as 103 x 104, 104 x 103, 31 x 32 and 154 x 151 are proper for rearing in some region in Iran.
Seven Iranian commercial silkworm hybrids were hatched and reared during the spring 2016 in center of silkworm development of Torbat Heydarieh. Propose of the study was compare of performance for silkworm hybrids.
Materials and Methods :The field survey was conducted for determination of performance in six Iranian silkworm hybrids namely 154 x 153, 32 x 31, 104 x 103, 151 x 154, 154 x 151, 153 x 154 and one Chines hybrid. Study was carried out by feeding on the mulberry variety Kenmuchi.  For the propose one box of disease-free laying of each hybrid was obtained from Iran Sericulture Research Center (ISRC) and the eggs were rearing in the center of sericulture development of Torbat Heydarieh under standard conditions of 25°C with RH of 80 and photoperiod of 16L:8D. After hatching, silkworm larvae fed base on standard rearing conditions. The larvae were fed with the healthy leaves of Kenmuchi mulberry tree. After finishing of rearing stages, the produced cocoons were collected. Some of recorded traits were including: number of live larva, number of live pupa, cocoon weight, cocoon shell weight, cocoon shell percent, color of cocoon shell and duration of larva period. Results according by CRD were analysis using procedure of GLM in SAS 9.2.
Results and Discussion: While Iranian Hybrids in this study were similar for many of quality trait, Chinese hybrid was different in most of the traits. Chinese hybrid has longer molt period for 3th instar, young larvae and longer nutritional period for 4th instar, 5th instar and adult larvae, also the hybrid has longer larvae period in compare with Iranian hybrids.
Results of analysis showed that Chinese hybrid had most number of good cocoons in litter (P<0.05) due to mean good cocoon weight in this hybrid was lowest in compare with hybrids.
Results showed that Chinese hybrid had the lowest good cocoon weight and good cocoon mean (P<0.05). Mean weight of a good cocoon with female pupa in 32 x 31 and 151 x 154 hybrids was more than other hybrids, meanwhile Chines hybrid showed lowest weight (P<0.05). Male pupa in different hybrids had similar weight, but female pupa in 151 x 154 hybrid and Chines hybrid showed the most and the least weight, respectively. In other hand, 32 x 31 had a higher performance for these traits. Chines hybrid and 151 x 154 hybrid showed lowest mean of cocoon shell weight meanwhile, for the trait 32 x 31 had most performance. Number of egg laying in 32 x 31 hybrids was higher in compare with other hybrids. For other traits did not observe difference between studied hybrids although, for example 151 x 154 and Chines hybrid had the least number of cocoon production and number of good cocoon. Other studies identified that using directly of imported hybrids for rearing in different region of Iran will not lead to good results.
Conclusion: According to the results, Chinese hybrid had the lowest value for rearing in Torbat Heydarieh region due to the hybrid has the lowest mean of good cocoon and weight of shell cocoon. Although Iranian hybrids in most of traits had similar performance but this study indicates that 32 × 31 is better for cocoon production in Torbat Heydarieh Region

کلیدواژه‌ها [English]

  • Cocoon
  • Hybrid
  • Larvae
  • Performance
  • Sericulture
  • Silkworm
Seidavi, A. R., S. Z. Mirhosseini, A. R. Bizhannia, and M. Ghanipoor. 2007. Investigation on selection efficiency for some quantitative cocoon characters at 3P lines and it's correlation with reproduction and resistance against diseases parameters of hybrids (F1) silkworm. Iranian Biology, 20(3): 262-268. (In Persian).
2- Mirhosseini S. Z., M. Ghanipoor, A. Shadparvar, and K. Etebari. 2005. Selection indices for cocoon traits in six commercial silkworm (Bombyx mori) lines. Philippine Agriculture Science, 88:328–336. (In Persian).
3-Zhao, Y., K. Chen, and S. He. 2007. Key principles for breeding spring and autumn silkworm varieties: From our experience of breeding 873×874. Caspian Journal of Environmental Science, 5(1): 57-61.
4-Mirhoseini, S. Z., a. R. Seidavi, M. Ghanipoor, and K. Etebari, 2004. Estimation of general and specific combining ability and heterosis in new varities of silkworms. Bombyx Mori L. Journal of Biological Sciences, 4(6): 725-730. (In Persian).
5-Keramatlo, H., A. M. Gharah Bash, J. Bayat Kohsar, and M. Keramatlo. 2017. Comparison of size and diameter of Iranian and foreign silkworm cocoon (Bombyx mori) in Minoodasht town. Page 46 in Proc. Iranian National Conference of Silkworm, Guilan University, Rasht.  (In Persian).
6-Keramatlo, H., A.M. Gharah Bash, J. Bayat Kohsar, and Keramatlo, M. 2017. Comparison of weight and shell of Iranian and foreign silkworm cocoon (Bombyx mori) in Minoodasht town. . Page 62 in Proc. Iranian National Conference of Silkworm, Guilan University, Rasht.  (In Persian).
7-Hossini Moghadam, S.H., N. Emam Gomeh, and A. Gerami. 2000. An evaluation of genetic parameters of economic traits in four varieties of silkworm (Bombyx mori). Iranian Journal of Agricultural Science, 31(4): 767-772. (In Persian).
8-Ghanipoor, M., S. Z. Mirhosseini, A. Shadparvar, A. Seidavi, and A. Bizhannia. 2008. Comprision of different multi-trait selection strategies for genetic improvement of economic in six Iranian commercial lines of the silkworm, Bombyx mori (Lep.:Bpmbycidae). Letter of Insectology Society, 27(2): 1-16.
Ghanipoor, M. 2002. Determination of index selection for three commercial varieties of Iranian silkworm. Thesis of Master of Science, Department of Animal Science, Guilan University. (In Persian).
9-Hosseini Moghadam, S.H., S. Z. Mirhosseini, M. Ghanipoor, and A. R. Seidavi. 2011. Study of some of nutritional indices silkworm commercial hybrids in five instar larva. Iranian Journal of Animal Science Research, 3(3): 311-323. (In Persian).
10- Vidyunmala, S., B. N. Murphy, and N. S. Reddy. 1998. Evaluation of new mulberry silkworm Bombyx mori L. hybrids (multivoltine×bivoltine) through multiple trait evaluation indexes. Journal of Entomological Research, 22(1): 49-53.
11-Ashoka, J., R. Govindan, R. N. Raju, and S. G. Rayar. 1989. Performance of some bivoltine silkworm breeds and hybrids for larval traits. Environment and Ecology, 7 (2): 354-357.
12- Buhroo, Z. I., M. A. Malik, N. A. Ganai, A. S. Kamili, and B. A. Bhat. 2016. Evaluation of some silkworm Bombyx mori L. genotypes for cocoon associated traits during different Seasons. International Journal of Advanced Research in Biological Sciences, 3(10): 225-231
13-Vishgahi Sedigh, S., A. R. Bizhannia, S. Z. Mirhosseini, and A. R. Seidavi. 2007. Evaluation of hybrids performance of five Iranian native silkworm (Lepidoptera, Bombicidae, Bombyx. mori L.) with two improved breeds. Journal of Agriculture Science, 13(4): 897-903. (in Persian).
14-Amini, H., J. J. J. Sendi, H. Hosseini Moghadam, H. Ghafouri, and M. Sharifi. 2014. Comprative study on biochemical indices of silkworm (Bombyx mori) hybrids for their thermal stress. Plant Pest Research, 4(4): 71-81.
15-Mandal, K., and S. M. Moorthy. 2016. Analysis of phenotypic stability for yield components in bivoltine silkworm hybrids. Journal of Entomology and zoology studies, 4(1): 378-385.
16-  Seetharamulu, J., S. V. Seshagi, H. Lakshmi, and P. J. Raju. 2017.  APC1 x APJ1- A promising bivoltine silkworm(Bombyx mori) hybrid for costal region. International Journal of Applied Research, 2(6): 750-753.
17-Seydavi. A., M. R. Gholami, and M. R. Biabani. 2003. Resistance Evaluation of Pure Lines of Silkworm Bombyx mori L. against the Pathogen of White Muscardine DiseaseBeauveria bassiana. Iranian Journal of Agriculture Science, 34(3): 701-710. (In Persian).
18- Ito, T. 1987. Silkworm nutrition in the silkworm an important laboratory tool.  Tazima, Y. (ed), pp.121-157, Ko. LTD., Tokyo
19- Nematolahian, S., A. Torfeh, M. A. Mavajpoor, S. H. Hosseini moghadam, and A. R. Seidvavi. 2016. Study of production performance of different indigenous and foreigner silkworm hybrids. Animal Biological environmental, 8(1): 85-94. (In Persian).
20-Satenahalli, S. B., R. Govindan, and J. V. Goud. 1988. Variation in some polygenic traits of silkworm breeds and their F1 hybrids. Environment and Ecoligy, 6(4): 855-857.
21-Lakshmi, L.V., P. Sujathamma, and S. Sivaprasad. 2014. Studies on the manifestation of hybrid vigour and combining ability in bivoltine hybrid of mulberry silkworm, Bombyx mori L. tolerant to BMNPV. Research Journal of Agricultural and Environmental Sciences, 1(2):44-53.
CAPTCHA Image