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Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia

Year 2010, Volume: 23 Issue: 4, 375 - 379, 20.09.2010

Abstract

Four different species of wild edible mushrooms (Armillaria mellea, Infundibulicybe geotropa, Meripilus giganteus and Sparassis crispa) representing four different families (Physalacriaceae, Tricholomataceae, Meripilaceae and Sparassidaceae) growing in southwest regions of Anatolia were analyzed for their Fe, Na, K, Zn, Cu, Cd and Pb contents and ash, dry matter, protein, and fat levels. All mineral concentrations were determined on a dry weight basis (d.w.). The mineral content of mushroom samples ranged from 54.00 to 112.33 µg/ g d.w. for Fe, 66.50 to 117.33 µg/ g d.w. for Na, 32.33 to 117.00 µg/ g d.w. for K, 47.40 to 87.40 µg/ g d.w. for Zn, 54.30 to 74.67 µg/ g d.w. for Cu and not detected for Cd and Pb. Na content was higher than other minerals in all mushroom species. This research proves that wild edible fungi can be used in well-balanced diets due to their nutritive values. Also, their heavy metal contents (Pb, Cd) shows that collection areas are not polluted, therefore all collected mushroom species can be unreservedly consumed without any health risk.

Key Words:Mineral contents, wild mushrooms, Turkey

 

References

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  • Falandysz, J., Szymezyk, K., Ichihashi, H., Bielawski, L., Gucia, M. and Frankowska, A., “ICP/MS and ICP/AES elemental analysis (38 elements) of edible wild mushrooms growing in Poland”, Food Add.Cont., 6: 503 – 513 (2001).
  • Manzi, P., Aguzzi, A. and Pizzoferrato, L., “Nutritional value of mushrooms widely consumed in Italy”, Food Chem., 73: 321 – 325 (2001).
  • Buigut, S.K., “Mushroom production in sustainable small-scale farming system- opportunities and constraints: a survey of Uasin Gishu district”, Proceedings of the Horticulture seminar on sustainable horticultural production in the tropics at Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya, 3-6 October 2001, 1-5 (2002).
  • Solak, M.H., Kalmış, E., Sağlam, H. and Kalyoncu, F., “Antimicrobial activity of two wild mushrooms Clitocybe alexandri (Gill.) Konr. and Rhizopogon roseolus (Corda) T.M. Fries collected from Turkey”, Phyto. Res., 20, 1085 – 1087 (2006).
  • Mau, J.L., Lin, H.C. and Song, S.F., “Antioxidant properties of several specialty mushrooms”, Food Res. Int., 35: 519-526 (2002).
  • Jiskani, M.M., “Energy potential of mushrooms”, The DAWN Econ. Bus. Rev., Oct. 15-21 (2001).
  • Svoboda, L., Zimmermannova, K. and Kalac, P., “Concentrations of mercury, cadmium, lead and copper in fruiting bodies of edible mushrooms in an emission area of a copper smelter and a mercury smelter”, Sci. Tot. Environ., 246: 61 – 67 (2000).
  • Yılmaz, F., Işıloğlu, M. and Merdivan, M., “Heavy metal levels in some macrofungi”, Turk. J.Bot., 27: 45 – 56 (2003).
  • Isildak, Ö., Turkekul, I., Elmastas, M. and Tuzen, M., “Analysis of heavy metals in some wild-grown edible mushrooms from the middle black sea region, Turkey”, Food Chem., 86: 547 – 552 (2004).
  • Yamaç, M., Yıldız, D., Sarıkürkcü, C., Çelikkollu, M. and Solak, M.H., “Heavy metals in some edible mushrooms from the Central Anatolia, Turkey”, Food Chem., 103: 263 – 267 (2007).
  • Sesli, E., “Trace element contents of some selected fungi in the ecosystem of Turkey”, Fresenius Environ. Bull., 15 (6): 518 – 523 (2006).
  • Kalac, P. and Svoboda, L., “A review of trace element concentrations in edible mushrooms”, Food Chem., 69: 273 – 381 (2000).
  • Solak, M.H., Işıloğlu, M., Kalmış, E. and Allı, H., “Macrofungi of Turkey”, Volume 1. Universiteliler Ofset, Bornova, İzmir (2007).
  • Ouzouni, P.K., Veltsistas, P.G., Paleologos, E.K. and Riganakos, K.A. “Determination of metal content in wild edible mushroom species from regions of Greece”, J. Food Comp. Anal., 20: 480- 486 (2007).
  • Turkekul, I., Elmastas, M. and Tüzen, M., “Determination of iron, copper, manganese, zinc, lead, and cadmium in mushroom samples from Tokat, Turkey”, Food Chem., 84: 389 – 392 (2004).
  • A.O.A.C. “Official Methods of Analysis of the Association of Official Analytical Chemists”, Method No. 920.151, K. Helrich, Ed. U.S.A.: A.O.A.C, Inc. (1995).
  • Sanmee, R., Dell, B., Lumyong, P., Izumori, K. and Lumyong, S., “Nutritive value of popular wild edible mushrooms from nortern Thailand” Food Chem., 82: 527 – 532 (2003).
  • Kalac, P. and Svoboda, L., “A review of trace element concentrations in edible mushrooms”, Food Chem., 69: 273 – 281 (2001).
  • Melgar, M.J., Alonso, J., Perz-Lopez, M. and Garcia, M.A., “Influence of some factors in toxicity and accumulation of cadmium from edible wild macrofungi in NW Spain”, J. Environ. Sci. Health B., 33: 439 – 455 (1998).
  • Kalac, P., Svoboda, L. and Havlickova, V., “Contents of cadmium and mercury in edible mushrooms”, J.App. Biomed., 2: 15 – 20 (2004).
  • Moreno-Rojas, R., Diaz-Valverde, M.A., Arroyo, B.M., Gonzalez, T.J. and Capote, C.J.B., “Mineral content of gurumelo (Amanita ponderosa)”, Food Chem., 85: 325 – 330 (2004).
  • Vetter, J., “Data on arsenic and cadmium contents of some common mushrooms”, Toxicon, 32: 11 – 15 (1994).
  • Mendil, D., Uluözlü, Ö.D., Hasdemir, E. and Çağlar, A,. “Determination of trace elements on some wild edible mushroom samples from Kastamonu, Turkey”, Food Chem., 88: 281 – 285 (2004).
  • Adejumo, T.O. and Awosanya, O.B., “Proximate and mineral composition of four edible species from South Western Nigeria”, African J. Biotechnol., 4 (10): 1084 – 1088 (2005).
  • Gençcelep, H., Uzun, Y., Tunçtürk, Y. and Demirel, K., “Determination of mineral contents of wild-grown edible mushrooms”. Food Chem., 113: 1033-1036 (2009).
Year 2010, Volume: 23 Issue: 4, 375 - 379, 20.09.2010

Abstract

References

  • Demirbaş, A., “Concentrations of 21 metals in 18 species of mushrooms growing in the East Black Sea region”, Food Chem., 75: 453 – 457 (2001).
  • Falandysz, J., Szymezyk, K., Ichihashi, H., Bielawski, L., Gucia, M. and Frankowska, A., “ICP/MS and ICP/AES elemental analysis (38 elements) of edible wild mushrooms growing in Poland”, Food Add.Cont., 6: 503 – 513 (2001).
  • Manzi, P., Aguzzi, A. and Pizzoferrato, L., “Nutritional value of mushrooms widely consumed in Italy”, Food Chem., 73: 321 – 325 (2001).
  • Buigut, S.K., “Mushroom production in sustainable small-scale farming system- opportunities and constraints: a survey of Uasin Gishu district”, Proceedings of the Horticulture seminar on sustainable horticultural production in the tropics at Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya, 3-6 October 2001, 1-5 (2002).
  • Solak, M.H., Kalmış, E., Sağlam, H. and Kalyoncu, F., “Antimicrobial activity of two wild mushrooms Clitocybe alexandri (Gill.) Konr. and Rhizopogon roseolus (Corda) T.M. Fries collected from Turkey”, Phyto. Res., 20, 1085 – 1087 (2006).
  • Mau, J.L., Lin, H.C. and Song, S.F., “Antioxidant properties of several specialty mushrooms”, Food Res. Int., 35: 519-526 (2002).
  • Jiskani, M.M., “Energy potential of mushrooms”, The DAWN Econ. Bus. Rev., Oct. 15-21 (2001).
  • Svoboda, L., Zimmermannova, K. and Kalac, P., “Concentrations of mercury, cadmium, lead and copper in fruiting bodies of edible mushrooms in an emission area of a copper smelter and a mercury smelter”, Sci. Tot. Environ., 246: 61 – 67 (2000).
  • Yılmaz, F., Işıloğlu, M. and Merdivan, M., “Heavy metal levels in some macrofungi”, Turk. J.Bot., 27: 45 – 56 (2003).
  • Isildak, Ö., Turkekul, I., Elmastas, M. and Tuzen, M., “Analysis of heavy metals in some wild-grown edible mushrooms from the middle black sea region, Turkey”, Food Chem., 86: 547 – 552 (2004).
  • Yamaç, M., Yıldız, D., Sarıkürkcü, C., Çelikkollu, M. and Solak, M.H., “Heavy metals in some edible mushrooms from the Central Anatolia, Turkey”, Food Chem., 103: 263 – 267 (2007).
  • Sesli, E., “Trace element contents of some selected fungi in the ecosystem of Turkey”, Fresenius Environ. Bull., 15 (6): 518 – 523 (2006).
  • Kalac, P. and Svoboda, L., “A review of trace element concentrations in edible mushrooms”, Food Chem., 69: 273 – 381 (2000).
  • Solak, M.H., Işıloğlu, M., Kalmış, E. and Allı, H., “Macrofungi of Turkey”, Volume 1. Universiteliler Ofset, Bornova, İzmir (2007).
  • Ouzouni, P.K., Veltsistas, P.G., Paleologos, E.K. and Riganakos, K.A. “Determination of metal content in wild edible mushroom species from regions of Greece”, J. Food Comp. Anal., 20: 480- 486 (2007).
  • Turkekul, I., Elmastas, M. and Tüzen, M., “Determination of iron, copper, manganese, zinc, lead, and cadmium in mushroom samples from Tokat, Turkey”, Food Chem., 84: 389 – 392 (2004).
  • A.O.A.C. “Official Methods of Analysis of the Association of Official Analytical Chemists”, Method No. 920.151, K. Helrich, Ed. U.S.A.: A.O.A.C, Inc. (1995).
  • Sanmee, R., Dell, B., Lumyong, P., Izumori, K. and Lumyong, S., “Nutritive value of popular wild edible mushrooms from nortern Thailand” Food Chem., 82: 527 – 532 (2003).
  • Kalac, P. and Svoboda, L., “A review of trace element concentrations in edible mushrooms”, Food Chem., 69: 273 – 281 (2001).
  • Melgar, M.J., Alonso, J., Perz-Lopez, M. and Garcia, M.A., “Influence of some factors in toxicity and accumulation of cadmium from edible wild macrofungi in NW Spain”, J. Environ. Sci. Health B., 33: 439 – 455 (1998).
  • Kalac, P., Svoboda, L. and Havlickova, V., “Contents of cadmium and mercury in edible mushrooms”, J.App. Biomed., 2: 15 – 20 (2004).
  • Moreno-Rojas, R., Diaz-Valverde, M.A., Arroyo, B.M., Gonzalez, T.J. and Capote, C.J.B., “Mineral content of gurumelo (Amanita ponderosa)”, Food Chem., 85: 325 – 330 (2004).
  • Vetter, J., “Data on arsenic and cadmium contents of some common mushrooms”, Toxicon, 32: 11 – 15 (1994).
  • Mendil, D., Uluözlü, Ö.D., Hasdemir, E. and Çağlar, A,. “Determination of trace elements on some wild edible mushroom samples from Kastamonu, Turkey”, Food Chem., 88: 281 – 285 (2004).
  • Adejumo, T.O. and Awosanya, O.B., “Proximate and mineral composition of four edible species from South Western Nigeria”, African J. Biotechnol., 4 (10): 1084 – 1088 (2005).
  • Gençcelep, H., Uzun, Y., Tunçtürk, Y. and Demirel, K., “Determination of mineral contents of wild-grown edible mushrooms”. Food Chem., 113: 1033-1036 (2009).
There are 26 citations in total.

Details

Primary Language English
Journal Section Biology
Authors

Fatih Kalyoncu

Bülent Ergönül This is me

Hasan Yıldız This is me

Erbil Kalmış This is me

Halil Solak This is me

Publication Date September 20, 2010
Published in Issue Year 2010 Volume: 23 Issue: 4

Cite

APA Kalyoncu, F., Ergönül, B., Yıldız, H., Kalmış, E., et al. (2010). Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia. Gazi University Journal of Science, 23(4), 375-379.
AMA Kalyoncu F, Ergönül B, Yıldız H, Kalmış E, Solak H. Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia. Gazi University Journal of Science. September 2010;23(4):375-379.
Chicago Kalyoncu, Fatih, Bülent Ergönül, Hasan Yıldız, Erbil Kalmış, and Halil Solak. “Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia”. Gazi University Journal of Science 23, no. 4 (September 2010): 375-79.
EndNote Kalyoncu F, Ergönül B, Yıldız H, Kalmış E, Solak H (September 1, 2010) Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia. Gazi University Journal of Science 23 4 375–379.
IEEE F. Kalyoncu, B. Ergönül, H. Yıldız, E. Kalmış, and H. Solak, “Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia”, Gazi University Journal of Science, vol. 23, no. 4, pp. 375–379, 2010.
ISNAD Kalyoncu, Fatih et al. “Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia”. Gazi University Journal of Science 23/4 (September 2010), 375-379.
JAMA Kalyoncu F, Ergönül B, Yıldız H, Kalmış E, Solak H. Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia. Gazi University Journal of Science. 2010;23:375–379.
MLA Kalyoncu, Fatih et al. “Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia”. Gazi University Journal of Science, vol. 23, no. 4, 2010, pp. 375-9.
Vancouver Kalyoncu F, Ergönül B, Yıldız H, Kalmış E, Solak H. Chemical Composition of Four Wild Edible Mushroom Species Collected From Southwest Anatolia. Gazi University Journal of Science. 2010;23(4):375-9.