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47 3 / /1390 /. ph.(kle et l., 1992) ph. (Bowmn & Reinecke, 1991) Rienecke &Vilijoen, ).(1990.(www.memers.tripod.com) 10.(1383 ) 8 ph 4(ds/m) 5/0....(Appelhof, 1992)..(Himi & Huht, 1987).. Brund lnd 1982..(1379 ). jftn.sriu.c.ir
....(Edwrds, 1995) -.. :. : (Buchnn et l., 1988). - Dewr self - 5 Heting test..(neuhuser, 1988) - 2. -. Eisnifoetid. (Bowmn & Reinecke, 1992). - - 1 1/5. 50.(www.Drgnet.com.u) jftn.sriu.c.ir - 0/6 2.( Edwrds, 1995) 45 48
49 3 / /1390 / 2 ph C/N... 3 (1382 ) 4. Mitchell & Homor, ).(1980 - + NO 3 NH 4.(Christensen, 1998) 1.. -1 Cu 16 16 n.s. Ec(ds/m) 15/98 3/7 1/86 c Mn 420 520 363 Zn 46 79 Mn 388 363 Fe 69/9 61/9 K 0/19 0/16 P 0/07 0/24 t 1 1 n.s. -2 ph 9 7/2 7/4 C/N 6/3 c 10/8 13/7 (%) 14 9/5 c 12/3 (%) 2/22 0/88 0/9 jftn.sriu.c.ir. * (1382 ) - 3 Zn 95 114 79 Cu 31 18 16 Fe 7470 75 61/9 N (%) 0/53 1/4 0/90 EC (ds/m) 10 1/95 1/86 ph 7/5 7/77 7/4
<10 0/16 22/4 94 4 <10 0/03 22/4 94-8/5 650 45. 1 2. ph.(1383 ). 3..(www.Cityfrmer.org) ph. ph 2. ph. ph.(nrender et l., 2001) >20 >3 >500 <80 10-20 0/5-3 100-500 80-90 <10 < 0/6 <100 >90 ppm.(www.kitspezerth.com) 1..(Gestel & Breemen,1988) ph.(springett & Syers, 1984). ph jftn.sriu.c.ir 50
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20-30 20-30 1-2 20-30 -5 defined medium for the study of growth nd reproduction of erthworm Eiseni fetid (oligochet).j. Biol-Fertil-Soils. 10, 4, 285-289. Buchnn, M. A., Rusell, G. & Block, S. D. (1988). Chemicl chrcteriztion nd nitrogen minerliztion potentils of vermicomposts derived from differing orgnic wsts. The Hgue: SPB Acdemic pulishing. P: 231-239. Christensen, O. (1988). The direct effects of erthworms on nitrogen turmover in cultivted soils. Ecol. Bull. 39, 41-44. Neuhuser, E. F. (1988). The cse for temperture control in vermiculture. The Hugue: SPB Acdemic pulishing. P: 135-143. Edwrds, C. A. (1995). Historicl overview of vermicomposting for sludge mngement Erthworms, wste recycling. Compost Sci Lnd Util. 21, 3, 42-43. Gestel, C. A. M. & Breemen, E. M. (1988). Comprison of two methods for determining the viility of cocoons produced in Erthworm toxicity experiments. Pedoiologi. 32, 5/6, 367-371. Himi, J. & Huht, V. (1987). Comprison of compost produced from identicl wstes y "vermistiliztion" nd comventionl composting. Pedoiologi. 30, 2, 137-144. Kle, R. D., Mllesh, B. C. & Bno, K. (1992). Influence of vermicompost ppliction on the ville mcronutrients nd selected microil popultions in pddy field. J. Soil- Biol Biochem. 24, 12, 1317-1320. Mitchell, M. J. & Homor, S. G. (1980). Decomposition of sewge sludge in drying eds nd the potentil role of the erthworm, Eiseni foetid. Americn Society of Agronomy. 9, 3, 373-378. Nrender, P., Mlik, T. P. & Mngl, J. (2001). Effect of FYM nd vermicompost on potto. Horticulture Art nd Science for Life XXVI th interntionl Horticulturl Cngress. Torento. Cnd. 20-50 25-50 2-3 10-20 %50-60. 10 1. 400 200. 5....(1383) 208..(1379). 1109...(1382).... 317. Appelhof, M. (1992). Compost indoors! Worms do the work. Org-Grd. 39, 1, 58-60. Bowmn, H. & Reinecke, A. (1991). A jftn.sriu.c.ir 52
53 3 / /1390 / Rienecke, A. J. &Vilijoen, S. A. (1990). The influence of feeding ptterns on growth nd reproduction of the vermicomposting erthworm Eiseni fetid (Oligochet). Biol Fertil Soils.10, 3, 184-187. Springett, J. A. & Syers, J. K. (1984). Effect of ph nd clcium of soil on erthworm cst production in the lortory. Soil-Biol-Biochem. 16, 2, 185-189. www.cityfrmer.org/wormcomp.htm www.drgnet.com.u www.ecoresouces.net www.emphet.com/worm/feeding.htm www.kitspezerth.com www.mgicworms.com www.memers.tripod.com jftn.sriu.c.ir
Astrct of Persin Articles Possiility of Producing Compost nd Vermicompost from Sugr Beet Wste in the Sugr Fctory M. Honrvr *, S. Smvt, M. H. Dvoodi, Kh. Krimi c Assistnt Professor of the College of Food Science & Technology, Science nd Reserch Brnch, Islmic Azd University, Tehrn, Irn Acdemic Memer of Wter nd Soil Reserch Center c M. Sc. of Food Science & Technology, Science nd Reserch Brnch, Islmic Azd University, Tehrn, Irn Received: 18 Jnury 2010 Accepted: 2 June 2010 Astrct Introduction: Due to the unfvorle smell of the ccumulted sugr eet wstes in the fctory nd its mixture with the lime wstes, it is costly nd uneconomic to dispose this mixture. This reserch hs een performed to investigte the possiility of producing compost nd vermicompost from the wste in sugr eet fctory in Qzvin. Mterils nd Methods: In order to produce compost, sugr eet wstes were collected. Temperture, moisture nd ertion were controlled during production period. The qulity of compost ws exmined y crrying out series of qulity control tests concerned with ripening degree. Results: The initil results indicted n initil increse in temperture to over 60 o C due to intensive ctivity of microorgnisms. The temperture decresed grdully nd reched the environmentl temperture fter two months. In order to investigte nd control the qulity of the produced compost, ripening degree of compost ws clculted. Compring the experimentl results with the stndrd indices of ripening degree showed tht the product is suitle in terms of temperture vrition, cress, nd percentge of Ammonium-Nitrte. Conclusion: Aprt from the ove findings, the produced vermicompost ws suitle in terms of ripening degree. The produced vermicompost ws superior to the compost produced from sugr eet wstes in terms of chemicl chrcteristics, i.e., Phosphor in vermicompost incresed 3 times s compred to compost while sltiness decresed y 50%. Zinc nd Nitrogen were lso incresed. jftn.sriu.c.ir Keywords: Compost, Orgnic Fertilizer, Ripping Degree of Compost, Sugr Beet Wstes, Vermicompost. 104 9 *Corresponding Author: m-honrvr@hotmil.com