Cultivation of Agaricus bisporus X25 on Reed Plant Phragmites australis Straw Decomposed by Using Actinomycetes

Yıl 2017, Cilt: 45 Sayı: 2, 205 - 212, 01.06.2017

Mustafa Nadhim Owaid Mowafaq Mezban Muslat Idham Ali Abed

Öz

The reed plant is available as economic alternative instead of wheat straw in state unavailable or the high prices to use it in the preparing compost for cultivation of Agaricus bisporus X25. In significant P

Anahtar Kelimeler

Bio-recycling, compost, food, white button mushroom

Agaricus bisporus X25’in Actinomycetes Kullanarak Saz Bitkisi Phragmites australis Üzerinde Yetiştirilmesi

Öz

S az bitkisi, Agaricus bisporus X25’in yetiştirilmesi için buğday samanının, hazırlama kompostunda kullanılmak üzere bulunmadığı veya yüksek maliyetli olduğu durumlarda ekonomik bir alternatif olarak kullanılır. Belirgin olarak P

Anahtar Kelimeler

Bio-geri dönüşüm, kompost, gıda, beyaz düğme mantar

Kaynakça

• S.-T. Chang, P.G. Miles, Mushrooms Cultivation, Nutritional Value, Medicinal Effect and Enviromental Impact, 2nd Ed, CRC Press LLC. USA, pp. 451, (2004).
• J.M. Stephens, Mushroom - Agaricus bisporus (Lge.) Sing. Document is HS628, Institute of Food and Agricultural Sciences, University of Florida, Gainesville FL 32611, (2003).
• G. Zervakis, A. Philippoussis, Management of agro- industrial waste through the cultivation of edible mushrooms, Proceedings of the fourth European Waste Forum Innovation in Waste Management, Millan, pp. 87-90, (2000).
• E. Baysal, O.N. Yigitbasi, M. Colak, H. Toker, H. Simsek, F. Yilmaz, Cultivation of Agaricus bisporus on Some Compost Formulas and Locally Available Casing Materials. Part 1: Wheat Straw Based Compost Formulas and Locally Available Casing Materials, Afr. J. Biotechnol., 6 (2007) 2225-2230.
• O. Schmidt, Wood and Tree Fungi, Biology, Damage, Protection and Use, Springer, Germany, pp. 334, (2006).
• H. Simsek, E. Baysal, M. Colak, H. Toker, F. Yilmaz, Yield Response of Mushroom (Agaricus bisporus) on Wheat Straw and Waste Tea Leaves Based Composts Using Supplements of Some Locally Available Peats and their Mixture with Some Secondary Casing Materials, Afr. J. Biotechnol., 7 (2008) 88-94.
• Y.N. Sassine, A.M.R. Abdel-Mawgoud, Y. Ghora, M. Bohme, Effect of Different Mixtures with Waste Paper as Casing Soil on the Growth and Production of Mushroom (Agaricus bisporus), Australian Journal of Basic and Applied Sciences, 1 (2007) 96-104.
• M.N. Alheeti, I.A. Al-Assaffii, M.M. Muslat, Evalution the efficiency of reed plant (Phragmites australis) wastes and aqueous extract of Liquorices (Glycyrrhiza glabra) on the production of Agaricus bisporus, Journal of University of Anbar for Pure Science, 4 (2010) 13-21.
• M.M. Muslat, I.A. Al-Assaffii, M.N. Alheeti, A Study of Some Physical and Chemical Characteristics for Compost of Heterogeneous of Cellulose during the Fermentation Period for Mushroom Cultivation of Agaricus bisporus, Al-Anbar Journal of Agricultural Sciences, 9 (2011) 197-206.
• M.M. Muslat, I.A.A. Al-Assaffii, M.N.O. Alheeti, Use Efficiency of Reed Residues Phragmites australis with Amendment by Streptomyces O3 to Prepared Compost for Agaricus bisporus Production and Influence of Spraying Glycyrrhiza sp. extracts, Research Journal of Aleppo University. Agricultural Science Series, 93 (2011) 149-168.
• M.M. Muslat, I.A.A. Al-Assaffii, M.N. Owaid, Agaricus bisporus product development by using local substrate with bio-amendment, International Journal for Environment and Global Climate, 2 (2014) 176-188.
• D.M. Beyer. Basic Procedures for Agaricus Mushroom Growing, Penn State College of Agricultural Sciences Research, Extension, and Resident Education Programs, Pennsylvania, Chester, pp. 16, (2003).
• D.H. Tamberkar, T.P. Sonar, M.V. Khodke, B.S. Khante, The novel antibacterial from two edible mushrooms: Agaricus bisporus and Pleurotus sajor caju, International Journal of Pharmacology, 2 (2006) 584-587.
• J.S. Roberts, A. Teichert, T.H. Mc Hugh, Vitamin D2 Formation from Post-Harvest UV-B Treatment of Mushrooms (Agaricus bisporus) and Retention during Storage, J Agaric Food Chem, 56 (2008) 4541-4544.
• G.M. Halpern, Healing Mushrooms, Squareone Publishers, USA, (2006) pp. 182.
• M.N. Owaid, Mineral elements content in two sources of Agaricus bisporus in Iraqi market, Journal of Advanced & Applied Sciences, 3 (2015) 46-50.
• USDA, Mesopotamian Minute, Current News on Agriculture & USDA in Iraq - Office of Agricultural Affairs, U.S. Embassy, Baghdad, 24th April, pp.1, (2011).
• R. Locci. Streptomyces and related genera, In: Williams ST, Sharpe ME, Holt JG eds., Bergy’s Manual of Systematic Bacteriology, Williams and Wilkins Co., Baltimare, 4 (1989) 2451-2508
• P. David, C.M. Sheare, Isolation of Actinomycetes for biotechnological application, Northern Regional Research Center, Agricultural Research Service, US, Agriculture Dep., Peoria, Illinois, 61604, pp. 1-29, (1988).
• O. Adekunle, A study of the properties of ultraviolet radiation induced mutants of Streptomyces cattleya, using numerical taxonomy techniques for the selection of mutants with improved antibiotic yields, Ph.D. thesis, Surrey Uni., UK, (1985).
• M. Alexander, Introduction to soil microbiology, 2nd ed., Cornell University, New York, London, pp. 36-51, (1976).
• J.R. C.Fordyce, Relative numbers of certain microbial groups present in compost used for mushroom (Agaricus bisporus) propagation, Applied Microbiology, 20 (1970) 196-199.
• T.Y. Motr, Test the inhibition activity of two local Streptomyces isolates by used sawdust as a carbone source, Al-Anbar University Journal for Pure Sciences, 2 (2009) 81-69.
• M.N. Owaid, Biotechnology for local compost preparation used to produce mushroom Agaricus bisporus, M.Sc. thesis, Dep. Biology, College of Science, University of Anbar, Iraq, 129 pp., (2009).
• D.J. Royse, Spawning to Casing in Commerical Mushroom Production, The Pennsylvania State University, University Park, PA 16802, (2008).
• A.-S. Edit, M. Dinka, L. Nemedi, G. Horvath, Decompostion of Phragmites australis rhizome in a Shallow Lake, Aquatic Botany, 85 (2006) 309-316.
• H,B. Aswad, Effect of microbial biotechnological and media mixtures on production of Oyster Mushroom (Pleurotus ostreatus), M.Sc. thesis, College of Agriculture, University of Anbar, Iraq, pp. 78, (2005).
• T.R. Fermor, W.D. Grant, Degradation of Fungal and Actinomycete Mycelia by Agaricus bisporus, J Gen Microbiol, 131 (1985) 1729-1734.
• E. Inbar, S.J. Green, Y. Hadar, D. Minz, Competing factors of compost concentration and proximity to root affect the distribution of Streptomyces, Microbiology Ecology, 50 (2005) 73-81.
• A.G. Chigaleichik, A.N Shkidchenko, D.A. Pirieva, Chilinolytic activity of Actinomyces kurssanovii under conditions of periodic and continuous culturing, Prikl Biokhim Mikrobiol, 14 (1978) 412-416.
• M. Ishaque, D. Kluepfel, Cellulase complex of a mesophilic Streptomyces flavogriseus strain, Can J Microbiol, 26 (1980) 183-189.
• D. Wood, Primordium Formation in Axenic Cultures of A. bisporus (Lang). Sing, J Gen Microbiol, 95 (1976) 313-323.
• S. Chen, C. Qiu, T. Huang, W. Zhou, Y. Qi, Y. Gao, J. Shen, L. Qiu, Effect of 1-aminocyclopropane-1- carboxylic acid deaminase producing bacteria on the hyphal growth and primordium initiation of Agaricus bisporus, Fungal Ecology, 6 (2013) 110-118.
• G. Straatsma, J.P.G. Gerrits, M.P.A.M. Augustijn, H.J.M. Camp, G.D. Vogels, L.J.L.D. Griendsven, Population Dynamics of Scytalidium thermophilum in Mushroom Compost and Stimulatory Effects on Growth Rate and Yield of Agaricus bisporus, J. Gen. Microbiol., 135 (1989) 751-759.
• J.E. Sanchez, D.J. Royse, Scytalidium thermophilum Colonized Grain, Corn Cobs and Chopped Wheat Straw Substrates for the Production of A. bisporus, Bioresource Technology, 100 (2008) 1670-1674.
• F. Zarenejad, B. Yakhchali, I. Rasooli, Evaluation of indigenous potent mushroom growth promoting bacteria (MGPB) on Agaricus bisporus production, World J. Microbiol. Biotechnol., 28 (2012) 99-104.
• M. Tuomela, M. Vikman, A. Hatakka, M. Itavaara, Biodegradation of Lignin in a Compost Enviroment: a Review, Bioresource Technology, 72 (2000) 169-183.
• D.K. Mercer, M. Iqbal, P.G.G. Miller, A.J. McCarthy, Screening Actinomycetes for Extracellular Peroxidase Activity, Applied and Enviromental Microbiology, 62 (1996) 2186-2190.
• D. Wood, Primordium Formation in Axenic Cultures of A. bisporus (Lang). Sing, J. Gen. Microbiol., 95 (1976) 313-323.
• J.E. Sanchez, D.J. Royse, Scytalidium thermophilum Colonized Grain, Corn Cobs and Chopped Wheat Straw Substrates for the Production of A. bisporus, Bioresource Technology, 100(4) (2008) 1670-1674.
• G. Straatsma, J.P.G. Gerrits, M.P.A.M. Augustijn, H.J.M. Camp, G.D. Vogels, L.J.L.D. Griendsven, Population Dynamics of Scytalidium thermophilum in Mushroom Compost and Stimulatory Effects on Growth Rate and Yield of Agaricus bisporus, J. Gen. Microbiol., 135 (1989) 751-759.