[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.4489/MYCO.2003.31.3.145

Characterization of Fruitbody Morphology on Various Environmental Conditions in Pleurotus ostreatus

Jang, Kab-Yeul (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Jhune, Chang-Sung (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Park, Jeong-Sik (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Cho, Soo-Muk (Div. of Agriproduct Science, National Institute of Agricultural Science and Technology, R.D.A.)
Weon, Hang-Yeon (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Cheong, Jong-Chun (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Choi, Sun-Gyu (Div. of Applied Microbiology, National Institute of Agricultural Science and Technology, R.D.A.)
Sung, Jae-Mo (Department of Environmental Biology, Kwangwon National University)

Publication Information

Mycobiology / v.31, no.3, 2003 , pp. 145-150 More about this Journal

Abstract

This study investigated the morphological differences of P. ostreatus grown in the artificial environmental conditions such as humidity, temperature, ventilation, and watering. Oyster mushroom, which was cultivated on artificial environmental condition, was shown to have different morphology of fruitbodies. The optimum $CO_2$ concentration for good morphology of P.ostreatus was 0.3%. But most fruitbody showed the morphologically low qualities in more than 0.5% of $CO_2$ concentration. In the humidity in excess of 80% at $13{\sim}16^{\circ}C$ , the best morphology of P. ostreatus was investigated. The growth of fruitbodies of P. ostreatus in the ventilation system was good at the wind velocity ranging from $0.2{\sim}0.5$ fpms and expouring type. In other conditions, P. ostreatus generally showed the morphology closing to malformation.

Keywords

Morphological characteristics; Pleurotus ostreatus; Ventilation system;

Citations & Related Records

Reference

1	Kinukawa, K. and Takamatsu, Y. 1986. Effect of concentrated carbon dioxide on the ing cultivated basidiomycetes (I). Trans. Mycol. Soc. Japan 27: 327-340
2	Long, P. E. and Jacobs, L. 1969. Some observations on carbon dioxide and sporophore initiation in the cultivated mushroom. Mushroom Science 7: 373-384
3	Raudakoski, M. and Viitamen, H. 1982. Effect of aeration and light on body induction in Schizophylum commune, Trans. Br. Mycol. Soc. 78(1): 89-96 DOI
4	Ministry of Agriculture & Forestry. 2003. The actual production of industrial crop. pp. 8-9
5	Paul, S. and Chilton, J. S. 1983. Chapter environmental factors: sustaining the mushroom crop in the mushroom cultivator. pp. 149-157
6	Sohi, H. S. and Upadhyay, R. C. 1989. Effect of temperature on mycelial growth of Pleurotus species and their yield performance on selected substrates. Mushroom Science 12(2): 49-56
7	Yoo, Y. B., You, C. H. and Cha, D. Y. 1993. Strain improvement of the genus Pleurotus by protoplast fusion. Korean. J. Mycol. 21(3): 200-211
8	Antonio, J. P. S. and Thomas, R. L. 1972. Carbon dioxide stimulation of hyphal growth of the cultivated mushroom, Agaricus bisporus (Lange) sing. Mushroom Science 8(1): 623-629
9	Cha, D. Y., You, C. H. and Kim, K. P. 1989. New technology of mushroom cultivation. Sangrok press. pp. 1-19
10	Donald, J. N. 1963. Role of carbon dioxide in the control of ing of Schizophyllum commune. J. Bacteriol. 85: 1300-1308
11	Lambert, E. B. 1933. Effect of excess carbon dioxide on growing mushrooms. J. of Agricultural Research 47(8): 599-608
12	Flegg, P. B. 1978. Effect of temperature on sporophore initiation and development in Agaricus bisporus. Mushroom Science 10(1): 595-602
13	Kinukawa, K. and Tanesaka, T. 1990. Changes in the rate of $CO_2$ release from cultures of three basidiomycetes during cultivation. Trans. Mycol. Soc. Japan 31: 489-500
14	Kinukawa, K. and Akira, S. 1994. Effect of concentrated carbon dioxide on the ing cultivated basidiomycetes (II). Mycoscience 35: 345-352 DOI

Reference

1	(2005) Mycobiology / 33 (1) , 30
3	Woo-Sik Jo. (2008) Mycobiology via Bottle Cultivation Using Recycled Substrate / 36 (3) , 157
45	(2016) African Journal of Biotechnology Optimization of humidifying procedure in controlled environment for indoor cultivation of Pleurotus pulmonarius / 15 (45) , 2578
4	(2017) Food Science and Technology Performance of Pleurotus pulmonarius mushroom grown on maize stalk residues supplemented with various levels of maize flour and wheat bran / 37 (4) , 570
2261-236X	(2017) MATEC Web of Conferences ) / 97 (2261-236X) , 01080
4	(2016) Food Science and Technology Performance of Pleurotus ostreatus mushroom grown on maize stalk residues supplemented with various levels of maize flour and wheat bran / 36 (4) , 598

1	Changes of Enzyme Activities and Compositions of Abnormal Fruiting Bodies Grown under Artificial Environmental Conditions in Pleurotus ostreatus / [Jang, Kab-Yeul;Cho, Soo-Muk;June, Chang-Sung;Weon, Hang-Yeon;Park, Jeong-Sik;Choi, Sun-Gyu;Cheong, Jong-Chun;Sung, Jae-Mo;] / Mycobiology
2	Fruitbody Development of Pleurotus ostreatus via Bottle Cultivation Using Recycled Substrate / [Jo, Woo-Sik;Kim, Jong-Soo;Cho, Doo-Hyun;Park, So-Deuk;Jung, Hee-Young;] / Mycobiology
3	Growth Characteristics of Variety of Oyster Mushroom (Pleurotus ostreatus) as Affected by Number of Air Exchanges / [Jang, Myoung-Jun;Ha, Tae-Moon;Lee, Yun-Hae;Ju, Young-Cheol;] / Journal of Bio-Environment Control