Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar

Ersel Yılmaz; Sabiha Acer; Ayhan Karakaya

doi:10.17474/artvinofd.1662503

Araştırma Makalesi

Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar

Yıl 2025, Cilt: 26 Sayı: 1, 166 - 176, 15.05.2025

Ersel Yılmaz , Sabiha Acer , Ayhan Karakaya

https://doi.org/10.17474/artvinofd.1662503

Öz

Orman ekosistemlerinin işlevselliği büyük oranda mantar türlerinin çeşitliliğine, yoğunluğuna ve canlılığına bağlıdır. Bu çalışma, Yuvacık Barajı su toplama havzası ormanlarının odun tahripçisi makromantar türlerini belirlemek amacıyla yapılmıştır. Arazi çalışmaları 2015-2018 yılları arasındaki vejetasyon mevsimlerinde sistematik olarak yürütülmüş ve rastgele seçilen 1 km 2 lik 30 sayısal parselde mantar sporokarpları taranmıştır. Belirlenen parsellerden toplanan örnekler, yayınlanmış taksonomik anahtarlar kullanılarak boyut, şekil ve yapı gibi makro ve mikro morfo-anatomik özellikleri ile substratlar dikkate alınarak tanımlanmıştır. Toplam 136 makromantar örneğinden 31 takson teşhis edilmiş; bu türler 21 familya ve 25 cins altında sınıflandırılmıştır. Bunların 5’i Ascomycota, diğer 26’sı ise Basidiomycota’ya aittir. Tespit edilen türlerin 15’i alan için yeni kayıttır. Tanımlanan mantar türlerinin konukçuları ağırlıklı olarak sırasıyla meşe (Quercus L. spp.), gürgen (Carpinus betulus L.) ve kayın (Fagus orientalis Lipsky)’dır.

Anahtar Kelimeler

Ascomycota, Basidiomycota, sporokarp, canlı ağaçlar, ölü ağaç

Destekleyen Kurum

T.C. OGM Kavak ve Hızlı Gelişen Orman Ağaçları Araştırma Enstitüsü Müdürlüğü

Proje Numarası

İZT–391(3828)/2015-2018

Kaynakça

Ahmad MF (2020) Ganoderma lucidum: A rational pharmacological approach to surmount cancer. J Ethnopharmacol, 260.
Akata I, Kabaktepe Ş, Sevindik M, Akgül H (2018) Macrofungi determined in Yuvacık Basin (Kocaeli) and its close environs. Kastamonu Üniversitesi Orman Fakültesi Dergisi, 18:152–163.
Akay AE, Yüksel A, Yılmaz M (2008) Baraj Havzalarında Ormancılık. In: Akay AE, Yüksel A, Yılmaz M (eds) Baraj Havzalarında Ormancılık I. Ulusal Sempozyumu. Kahramanmaraş Sütçü İmam Üniversitesi Orman Fakültesi, Orman Mühendisliği Bölümü, Kahramanmaraş.
Amaranthus M, Trappe JM, Bednar L, Arthur D (1994) Hypogeous fungal production in mature Douglas-fir forest fragments and surrounding plantations and its relation to coarse woody debris and animal mycophagy. Canadian Journal of Forest Research, 24: 2157–2165.
Anşin R (1987) Orman Fitopatolojisi. Kayı Yayıncılık, İstanbul.
Banki O, Roskov Y, Döring M, Ower G, Hernandez Robles DR, Plata Corredor CA, Stjernegaard Jeppesen T, Örn A, Pape T, Hobern D, Garnett S, Little H, DeWalt RE, Ma K, Miller J, Orrell T, Aalbu R, Abbott J, Adlard R (2025) Catalogue of Life. https://doi.org/10.48580/dgnfb., Erişim Tarihi: 05.03.2025.
Baumgartner K, Rizzo DM (2001) Ecology of Armillaria spp. in mixed-hardwood forests of California. Plant Dis., 85: 947–951.
Bencheva S, Dimitrova V, Doychev D (2023) Species diversity of wood-destroying fungi on Fagus sylvatica L. depending on the structure of dead wood in Western Bulgaria. Ecologia Balkanica, 15 (2): 58–67.
Berkel A, Bozkurt Y, Göker Y (1968) Kayın tomruklarında ardaklanma ve çatlamanın önlenmesine ait bir deneme. İstanbul Üniversitesi Orman Fakültesi Dergisi, 2: 55–74.
Beşkardeş V (2012) Lepidoptera fauna of Yuvacik dam watershed in Kocaeli, Turkey. Afr J Agric Res, 7: 1749–1754.
Bijalwan A, Dobriyal MJ, Bai RL, Thakur TK, Bahuguna K, Chandra V, Garhwali S (2008) Insights of medicinal mushroom (Ganoderma lucidum): prospects and potential in India.
Boddy L, Heilmann-Clausen J (2008) Basidiomycete Community Development in Temperate Angiosperm Wood. In: British Mycological Society Symposia Serises. Elsevier Ltd., pp 211–237.
Breitenbach J, Kranzlin F (1984) Fungi of Switzerland, Ascomycetes. Mycological Society of Lucerne, Verlag Mycologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1986) Fungi of Switzerland, Non Gilled Fungi, Heterobasidiomycetes, Aphyllophorales, Gastromyces. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1991) Fungi of Switzerland, (First Part) Boletes and Agarics, Strobilomycetaceae and Boletaceae, Paxillaceae, Gomphidiaceae, Hygrophoraceae, Tricholomataceae, Polyporaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1995) Fungi of Switzerland, (Second Part) Agarics, Entolomataceae, Pluteaceae, Agaricaceae, Coprinaceae, Bolbitaceae, Strophariaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (2000) Fungi of Switzerland (3rd part) Agaircs, Cortinariaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne.
Bunnell FL, Houde I (2010) Down wood and biodiversity - ımplications to forest practices. Environmental Reviews, 18: 397–421.
Christensen CM (1975) Decay of Wood in Trees and Buildings. In: Molds Muhrooms and Mycotoxins. University of Minnesota Press, Minnesota, pp 200–228.
Coşkun Akçay B, Doğan HH (2019) Marmara Bölgesinde üretilen Pleurotus ostreatus (Jacq.) P. Kumm. (Kayın Mantarı)’un üretimi ve yaygınlaşması. The Journal of Fungus, 10: 92–102.
Çat A, Çomak T, Çatal M (2018) İstiridye mantarının (Pleurotus ostreatus) tohumluk misel üretimi üzerine bir ön çalışma. Mediterr Agric Sci, 31: 21–25.
Dixon JR (1975) Chlorosplenium and its Segregates II. The Genera Cholrociboria and Chlorencoelia. Mycotaxon I, (3): 193–237.
Doğan HH, Öztürk Ö, Şanda MA (2021) The Mycobiota of Samanlı Mountains in Turkey. Trak Univ J Nat Sci, 22: 215–243.
Du Z, Dong CH, Wang K, Yao YJ (2019) Classification, Biological Characteristics and Cultivations of Ganoderma. In: Lin Z, Yang B (eds) Ganoderma and Health: Biology, Chemistry and Industry. Springer Singapore, Singapore, pp 15–58.
Efe A, Aksoy N, Oral D, Aslan S (2013) Yuvacık Barajı Havzası’nın (Kocaeli-Sakarya) florası. Ormancılık Dergisi, 9: 56–92.
İnan M (2004) Orman varlığının saptanmasında uzaktan algılama verileri. İstanbul Universitesi Fen Bilimleri Enstitüsü Doktora Tezi, İstanbul.
Kalitukha L, Galiano A, Harrison F (2023) Medicinal potential of the insoluble extracted fibers isolated from the Fomes fomentarius (Agaricomycetes) fruiting bodies: a review. Int J Med Mushrooms, 25.
Karadelev M, Rusevska K (1998) Ecology and distribution of genus Phellinus (Hymenochaetaceae) in the Republic of Macedonia
Karadelev M, Rusevska K, Kajevska I (2008) Distribution and ecology of genus Ganoderma (Ganodermataceae) in the Rebuplic of Macedonia. In: International Conference on Biological and Environmental Sciences. Tirana, Albania., pp 320–326.
Keča N, Solheim H (2011) Ecology and distribution of Armillaria species in Norway. For Pathol, 41: 120–132.
Kumari M, Survase SA, Singhal RS (2008) Production of schizophyllan using Schizophyllum commune NRCM. Bioresour Technol 99: 1036–1043.
Lakatos F, Mirtchev S (2014) Handbook of The Major Forest Pests in Southeast Europe. FAO; Food and Agriculture Organization of the United Nations, Pristina.
Lehtijärvi A, Doğmuş-Lehtijärvi T (2011) Dikiliden Devriğe Orman Ağaçlarında Fungal Süksesyon. In: Avcı M (ed) Türkiye I. Orman Entomolojisi ve Patolojisi Sempozyumu. Süleyman Demirel Üniversitesi, Orman Fakültesi, Antalya, p 13.
Lira Dyson B, Herpel R, Karasch P, Müller J, Thom D, Bässler C (2024) Effects of forest management on the key fungal decomposer Fomes fomentarius in European beech forests-lessons from a large-scale experiment. For Ecol Manage., 552.
Lushaj BM (2008) Distribution, Ecology and Host range of Armillaria Species in Albania. Publishing-House, Tirana,Albania.
Marcot BG (2017) A Review of the Role of Fungi in Wood Decay of Forest Ecosystems. USDA Forest Service-Research Note PNW-RN 2017: 1–32.
Maser C, Anderson RG, Cromack, KJr, Williams JT, Martin RE (1979) Dead and Down Woody Material. In: Thomas JW (ed) Wildlife habitats in managed forests: the Blue Mountains of Oregon and Washington. Agric. Handb. 553. DC: U.S. Department of Agriculture, Forest Service, Washington, pp 78–95.
Matavulj M, Lolic S, Vujcic S, Milovac S, Novakovic M, Karaman M (2013) Schizophyllum commune: The main cause of dying trees of the Banja Luka arbored walks and parks. Zb Matice Srp Prir Nauk 28: 367–377.
Mesanza N, Patten CL, Iturritxa E (2017) Distribution and characterization of Armillaria complex in Atlantic forest ecosystems of Spain. Forests, 8.
O’Dell TE, Smith JE, Castellano M, Luoma D (1994) Diversity and Conservation of Forest Fungi. In: Pilz D, Molina R (eds) Managing Forest Ecosystems to Conserve Fungus Diversity ans Sustain Wild Mushroom Harvests. US Department of Agriculture Forest Service, Pacific Northwest Research Station, Portland, pp 5–18.
Ramezan D, Alizade Jahan Abadi B, Samzade Kermani A, Pirnia M, Farrokhzad Y (2021) Cultivation of Turkey Tail Mushroom (Trametes versicolor) on Lignocellulosic Wastes and Evaluation of Substrate Bioconversion. Proceedings of the National Academy of Sciences India Section B-Biological Sciences, 91: 777–787.
Richter DL, Glaeser JA (2015) Wood decay by Chlorociboria aeruginascens (Nyl.) Kanouse (Helotiales, Leotiaceae) and associated basidiomycete fungi. Int Biodeterior Biodegradation, 105: 239–244.
Rijia A, Krishnamoorthi R, Rasmi M, Mahalingam PU, Kim KS (2024) Comprehensive analysis of bioactive compounds in wild Ganoderma applanatum mushroom from Kerala, South India: insights into dietary nutritional, mineral, antimicrobial, and antioxidant activities. Pharmaceuticals, 17.
Robert V, Stegehuis G, Stalpers J (2005) The MycoBank engine and related databases. https://www.MycoBank.org/, Erişim Tarihi: 05.03.2025.
Schmidt O (2006) Wood and Tree Fungi Biology, Damage, Protection, and Use. Springer, Germany.
Schmidt O, Liese W (1980) Variability of wood degrading enzymes of Schizophyllum commune. Holzforschung, 34: 67–72.
Schwarze FWMR, Engels J, Mattheck C (2000) Examination, Importance and Mechanical Effects of Wood-Decay Fungi in the Living Tree. In: Fungal Strategies of Wood Decay in Trees. Springer-Verlag , Berlin Heidelberg, pp 33–138.
Selik M (1962) Güneybatı Anadolu’da odun tahrip eden bazı mantarlar ve bilhassa Schizophyllum commune Fr. İÜ Orman Fakültesi Dersgisi, A (10): 120–122.
Snieškienė V, Juronis V (2001) Distribution of the fungus Schizophyllum commune Fr. in plantings of trees in the Kaunas city. Biologija, 3: 45–47.
Sułkowska-Ziaja K, Muszyńska B, Gawalska A, Sałaciak K (2018) Laetiporus sulphureus – chemical composition and medicinal value. Acta Scientiarum Polonorum, Hortorum Cultus, 17: 87–96.
Takemoto S, Nakamura H, Imamura Y, Shimane T (2010) Schizophyllum commune as a ubiquitous plant parasite. Japan Agricultural Research Quarterly: JARQ, 44: 357–364.
Tomšovský M, Kaeochulsri S, Kudláček T, Dálya LB (2023) Ecological, morphological and phylogenetic survey of Fomes fomentarius and F. inzengae (Agaricomycetes, Polyporaceae) co-occurring in the same geographic area in Central Europe. Mycol Prog, 22.
Van Der Heijden MGA, Klironomos JN, Ursic M, Moutoglis P, Streitwolf-Engel R, Boller T, Wiemken A, Sanders IR (1998) Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity. Nature, 396: 69–72.
Vulinović JN, Lolić SB, Vujčić SB, Matavulj MN (2018) Schizophyllum commune – the dominant cause of trees decay in alleys and parks in the City of Novi Sad (Serbia). Biologia Serbica, 40: 26–33.
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Yılmaz E, Acer S, İnan M, Karakaya A (2024) Yuvacık Barajı Havzası’nda (Kocaeli, Türkiye) Schizophyllum commune Fr. (Agaricales: Schizophyllaceae)’nin çevresel ilişkilerinin analizi. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, 25: 67–76.
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Wood-decaying macrofungi in the Yuvacık Dam ecosystem

Yıl 2025, Cilt: 26 Sayı: 1, 166 - 176, 15.05.2025

Ersel Yılmaz , Sabiha Acer , Ayhan Karakaya

https://doi.org/10.17474/artvinofd.1662503

Öz

The functionality of forest ecosystems is contingent on the diversity, density and vitality of fungal species. This study was aimed to identified the wood-decaying macrofungal species present in the forest of Yuvacık Dam Watershed. Field work was systematically conducted during the vegetation seasons from 2015 to 2018, with fungal sporocarps surveyed in 30 randomly selected 1 km 2 digital plots. The specimens collected from these plots were identified using published taxonomic keys, considering their macro- and micro-morpho-anatomical characteristics including size, shape, and structure as well as the substrates on which they were growing. A total of 31 taxa were identified from 136 macrofungal specimens, which were classified into 21 families and 25 genera comprising 5 species of Ascomycota and 26 of Basidiomycota. Fifteen of these are new records for the region. The hosts of the identified fungal species were predominantly oak (Quercus L. spp.), hornbeam (Carpinus betulus L.) and beech (Fagus orientalis Lipsky), respectively.

Anahtar Kelimeler

Ascomycota, Basidiomycota, sporocarp, living trees, dead wood

Proje Numarası

İZT–391(3828)/2015-2018

Kaynakça

Ahmad MF (2020) Ganoderma lucidum: A rational pharmacological approach to surmount cancer. J Ethnopharmacol, 260.
Akata I, Kabaktepe Ş, Sevindik M, Akgül H (2018) Macrofungi determined in Yuvacık Basin (Kocaeli) and its close environs. Kastamonu Üniversitesi Orman Fakültesi Dergisi, 18:152–163.
Akay AE, Yüksel A, Yılmaz M (2008) Baraj Havzalarında Ormancılık. In: Akay AE, Yüksel A, Yılmaz M (eds) Baraj Havzalarında Ormancılık I. Ulusal Sempozyumu. Kahramanmaraş Sütçü İmam Üniversitesi Orman Fakültesi, Orman Mühendisliği Bölümü, Kahramanmaraş.
Amaranthus M, Trappe JM, Bednar L, Arthur D (1994) Hypogeous fungal production in mature Douglas-fir forest fragments and surrounding plantations and its relation to coarse woody debris and animal mycophagy. Canadian Journal of Forest Research, 24: 2157–2165.
Anşin R (1987) Orman Fitopatolojisi. Kayı Yayıncılık, İstanbul.
Banki O, Roskov Y, Döring M, Ower G, Hernandez Robles DR, Plata Corredor CA, Stjernegaard Jeppesen T, Örn A, Pape T, Hobern D, Garnett S, Little H, DeWalt RE, Ma K, Miller J, Orrell T, Aalbu R, Abbott J, Adlard R (2025) Catalogue of Life. https://doi.org/10.48580/dgnfb., Erişim Tarihi: 05.03.2025.
Baumgartner K, Rizzo DM (2001) Ecology of Armillaria spp. in mixed-hardwood forests of California. Plant Dis., 85: 947–951.
Bencheva S, Dimitrova V, Doychev D (2023) Species diversity of wood-destroying fungi on Fagus sylvatica L. depending on the structure of dead wood in Western Bulgaria. Ecologia Balkanica, 15 (2): 58–67.
Berkel A, Bozkurt Y, Göker Y (1968) Kayın tomruklarında ardaklanma ve çatlamanın önlenmesine ait bir deneme. İstanbul Üniversitesi Orman Fakültesi Dergisi, 2: 55–74.
Beşkardeş V (2012) Lepidoptera fauna of Yuvacik dam watershed in Kocaeli, Turkey. Afr J Agric Res, 7: 1749–1754.
Bijalwan A, Dobriyal MJ, Bai RL, Thakur TK, Bahuguna K, Chandra V, Garhwali S (2008) Insights of medicinal mushroom (Ganoderma lucidum): prospects and potential in India.
Boddy L, Heilmann-Clausen J (2008) Basidiomycete Community Development in Temperate Angiosperm Wood. In: British Mycological Society Symposia Serises. Elsevier Ltd., pp 211–237.
Breitenbach J, Kranzlin F (1984) Fungi of Switzerland, Ascomycetes. Mycological Society of Lucerne, Verlag Mycologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1986) Fungi of Switzerland, Non Gilled Fungi, Heterobasidiomycetes, Aphyllophorales, Gastromyces. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1991) Fungi of Switzerland, (First Part) Boletes and Agarics, Strobilomycetaceae and Boletaceae, Paxillaceae, Gomphidiaceae, Hygrophoraceae, Tricholomataceae, Polyporaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (1995) Fungi of Switzerland, (Second Part) Agarics, Entolomataceae, Pluteaceae, Agaricaceae, Coprinaceae, Bolbitaceae, Strophariaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne, Switzerland.
Breitenbach J, Kranzlin F (2000) Fungi of Switzerland (3rd part) Agaircs, Cortinariaceae. Mycological Society of Lucerne, Verlag Mykologia, Lucerne.
Bunnell FL, Houde I (2010) Down wood and biodiversity - ımplications to forest practices. Environmental Reviews, 18: 397–421.
Christensen CM (1975) Decay of Wood in Trees and Buildings. In: Molds Muhrooms and Mycotoxins. University of Minnesota Press, Minnesota, pp 200–228.
Coşkun Akçay B, Doğan HH (2019) Marmara Bölgesinde üretilen Pleurotus ostreatus (Jacq.) P. Kumm. (Kayın Mantarı)’un üretimi ve yaygınlaşması. The Journal of Fungus, 10: 92–102.
Çat A, Çomak T, Çatal M (2018) İstiridye mantarının (Pleurotus ostreatus) tohumluk misel üretimi üzerine bir ön çalışma. Mediterr Agric Sci, 31: 21–25.
Dixon JR (1975) Chlorosplenium and its Segregates II. The Genera Cholrociboria and Chlorencoelia. Mycotaxon I, (3): 193–237.
Doğan HH, Öztürk Ö, Şanda MA (2021) The Mycobiota of Samanlı Mountains in Turkey. Trak Univ J Nat Sci, 22: 215–243.
Du Z, Dong CH, Wang K, Yao YJ (2019) Classification, Biological Characteristics and Cultivations of Ganoderma. In: Lin Z, Yang B (eds) Ganoderma and Health: Biology, Chemistry and Industry. Springer Singapore, Singapore, pp 15–58.
Efe A, Aksoy N, Oral D, Aslan S (2013) Yuvacık Barajı Havzası’nın (Kocaeli-Sakarya) florası. Ormancılık Dergisi, 9: 56–92.
İnan M (2004) Orman varlığının saptanmasında uzaktan algılama verileri. İstanbul Universitesi Fen Bilimleri Enstitüsü Doktora Tezi, İstanbul.
Kalitukha L, Galiano A, Harrison F (2023) Medicinal potential of the insoluble extracted fibers isolated from the Fomes fomentarius (Agaricomycetes) fruiting bodies: a review. Int J Med Mushrooms, 25.
Karadelev M, Rusevska K (1998) Ecology and distribution of genus Phellinus (Hymenochaetaceae) in the Republic of Macedonia
Karadelev M, Rusevska K, Kajevska I (2008) Distribution and ecology of genus Ganoderma (Ganodermataceae) in the Rebuplic of Macedonia. In: International Conference on Biological and Environmental Sciences. Tirana, Albania., pp 320–326.
Keča N, Solheim H (2011) Ecology and distribution of Armillaria species in Norway. For Pathol, 41: 120–132.
Kumari M, Survase SA, Singhal RS (2008) Production of schizophyllan using Schizophyllum commune NRCM. Bioresour Technol 99: 1036–1043.
Lakatos F, Mirtchev S (2014) Handbook of The Major Forest Pests in Southeast Europe. FAO; Food and Agriculture Organization of the United Nations, Pristina.
Lehtijärvi A, Doğmuş-Lehtijärvi T (2011) Dikiliden Devriğe Orman Ağaçlarında Fungal Süksesyon. In: Avcı M (ed) Türkiye I. Orman Entomolojisi ve Patolojisi Sempozyumu. Süleyman Demirel Üniversitesi, Orman Fakültesi, Antalya, p 13.
Lira Dyson B, Herpel R, Karasch P, Müller J, Thom D, Bässler C (2024) Effects of forest management on the key fungal decomposer Fomes fomentarius in European beech forests-lessons from a large-scale experiment. For Ecol Manage., 552.
Lushaj BM (2008) Distribution, Ecology and Host range of Armillaria Species in Albania. Publishing-House, Tirana,Albania.
Marcot BG (2017) A Review of the Role of Fungi in Wood Decay of Forest Ecosystems. USDA Forest Service-Research Note PNW-RN 2017: 1–32.
Maser C, Anderson RG, Cromack, KJr, Williams JT, Martin RE (1979) Dead and Down Woody Material. In: Thomas JW (ed) Wildlife habitats in managed forests: the Blue Mountains of Oregon and Washington. Agric. Handb. 553. DC: U.S. Department of Agriculture, Forest Service, Washington, pp 78–95.
Matavulj M, Lolic S, Vujcic S, Milovac S, Novakovic M, Karaman M (2013) Schizophyllum commune: The main cause of dying trees of the Banja Luka arbored walks and parks. Zb Matice Srp Prir Nauk 28: 367–377.
Mesanza N, Patten CL, Iturritxa E (2017) Distribution and characterization of Armillaria complex in Atlantic forest ecosystems of Spain. Forests, 8.
O’Dell TE, Smith JE, Castellano M, Luoma D (1994) Diversity and Conservation of Forest Fungi. In: Pilz D, Molina R (eds) Managing Forest Ecosystems to Conserve Fungus Diversity ans Sustain Wild Mushroom Harvests. US Department of Agriculture Forest Service, Pacific Northwest Research Station, Portland, pp 5–18.
Ramezan D, Alizade Jahan Abadi B, Samzade Kermani A, Pirnia M, Farrokhzad Y (2021) Cultivation of Turkey Tail Mushroom (Trametes versicolor) on Lignocellulosic Wastes and Evaluation of Substrate Bioconversion. Proceedings of the National Academy of Sciences India Section B-Biological Sciences, 91: 777–787.
Richter DL, Glaeser JA (2015) Wood decay by Chlorociboria aeruginascens (Nyl.) Kanouse (Helotiales, Leotiaceae) and associated basidiomycete fungi. Int Biodeterior Biodegradation, 105: 239–244.
Rijia A, Krishnamoorthi R, Rasmi M, Mahalingam PU, Kim KS (2024) Comprehensive analysis of bioactive compounds in wild Ganoderma applanatum mushroom from Kerala, South India: insights into dietary nutritional, mineral, antimicrobial, and antioxidant activities. Pharmaceuticals, 17.
Robert V, Stegehuis G, Stalpers J (2005) The MycoBank engine and related databases. https://www.MycoBank.org/, Erişim Tarihi: 05.03.2025.
Schmidt O (2006) Wood and Tree Fungi Biology, Damage, Protection, and Use. Springer, Germany.
Schmidt O, Liese W (1980) Variability of wood degrading enzymes of Schizophyllum commune. Holzforschung, 34: 67–72.
Schwarze FWMR, Engels J, Mattheck C (2000) Examination, Importance and Mechanical Effects of Wood-Decay Fungi in the Living Tree. In: Fungal Strategies of Wood Decay in Trees. Springer-Verlag , Berlin Heidelberg, pp 33–138.
Selik M (1962) Güneybatı Anadolu’da odun tahrip eden bazı mantarlar ve bilhassa Schizophyllum commune Fr. İÜ Orman Fakültesi Dersgisi, A (10): 120–122.
Snieškienė V, Juronis V (2001) Distribution of the fungus Schizophyllum commune Fr. in plantings of trees in the Kaunas city. Biologija, 3: 45–47.
Sułkowska-Ziaja K, Muszyńska B, Gawalska A, Sałaciak K (2018) Laetiporus sulphureus – chemical composition and medicinal value. Acta Scientiarum Polonorum, Hortorum Cultus, 17: 87–96.
Takemoto S, Nakamura H, Imamura Y, Shimane T (2010) Schizophyllum commune as a ubiquitous plant parasite. Japan Agricultural Research Quarterly: JARQ, 44: 357–364.
Tomšovský M, Kaeochulsri S, Kudláček T, Dálya LB (2023) Ecological, morphological and phylogenetic survey of Fomes fomentarius and F. inzengae (Agaricomycetes, Polyporaceae) co-occurring in the same geographic area in Central Europe. Mycol Prog, 22.
Van Der Heijden MGA, Klironomos JN, Ursic M, Moutoglis P, Streitwolf-Engel R, Boller T, Wiemken A, Sanders IR (1998) Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity. Nature, 396: 69–72.
Vulinović JN, Lolić SB, Vujčić SB, Matavulj MN (2018) Schizophyllum commune – the dominant cause of trees decay in alleys and parks in the City of Novi Sad (Serbia). Biologia Serbica, 40: 26–33.
Wasser SP, Weis AL (1999) Medicinal properties of substances occurring in higher basidiomycetes mushrooms: current perspectives. Int J Med Mushrooms, 1: 31–62.
Yılmaz E, Acer S, İnan M, Karakaya A (2024) Yuvacık Barajı Havzası’nda (Kocaeli, Türkiye) Schizophyllum commune Fr. (Agaricales: Schizophyllaceae)’nin çevresel ilişkilerinin analizi. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, 25: 67–76.
Zabel RA, Morrel JJ (2020) General Features, Recognition, and Anatomical Aspects of Wood Decay. In: Wood Microbiology: Decay and Its Prevention, 2nd edition. Academic Press, California, pp 185–214.
Zengin M, Hızal A, Karakaş A, Serengil Y, Tuğrul D, Ercan M (2005) İzmit Yuvacık Barajı Su Toplama Havzasının Yenilenebilir Doğal Kaynaklarının Su Üretimi (Kalite, Miktar ve Rejim) Amacıyla Planlanması. İzmit, Türkiye.

Toplam 58 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	Türkçe
Konular	Orman Biyoçeşitliliği, Orman Biyometrisi, Orman Entomolojisi ve Orman Koruma
Bölüm	Araştırma Makalesi
Yazarlar	Ersel Yılmaz 0000-0002-8671-7365 Sabiha Acer 0000-0003-4629-0878 Ayhan Karakaya 0000-0002-9696-647X
Proje Numarası	İZT–391(3828)/2015-2018
Yayımlanma Tarihi	15 Mayıs 2025
Gönderilme Tarihi	21 Mart 2025
Kabul Tarihi	3 Mayıs 2025
Yayımlandığı Sayı	Yıl 2025 Cilt: 26 Sayı: 1

Kaynak Göster

APA	Yılmaz, E., Acer, S., & Karakaya, A. (2025). Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, 26(1), 166-176. https://doi.org/10.17474/artvinofd.1662503
AMA	Yılmaz E, Acer S, Karakaya A. Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar. AÇÜOFD. Mayıs 2025;26(1):166-176. doi:10.17474/artvinofd.1662503
Chicago	Yılmaz, Ersel, Sabiha Acer, ve Ayhan Karakaya. “Yuvacık Barajı Ekosisteminde Odun tahripçisi Makromantarlar”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 26, sy. 1 (Mayıs 2025): 166-76. https://doi.org/10.17474/artvinofd.1662503.
EndNote	Yılmaz E, Acer S, Karakaya A (01 Mayıs 2025) Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 26 1 166–176.
IEEE	E. Yılmaz, S. Acer, ve A. Karakaya, “Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar”, AÇÜOFD, c. 26, sy. 1, ss. 166–176, 2025, doi: 10.17474/artvinofd.1662503.
ISNAD	Yılmaz, Ersel vd. “Yuvacık Barajı Ekosisteminde Odun tahripçisi Makromantarlar”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 26/1 (Mayıs 2025), 166-176. https://doi.org/10.17474/artvinofd.1662503.
JAMA	Yılmaz E, Acer S, Karakaya A. Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar. AÇÜOFD. 2025;26:166–176.
MLA	Yılmaz, Ersel vd. “Yuvacık Barajı Ekosisteminde Odun tahripçisi Makromantarlar”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, c. 26, sy. 1, 2025, ss. 166-7, doi:10.17474/artvinofd.1662503.
Vancouver	Yılmaz E, Acer S, Karakaya A. Yuvacık Barajı ekosisteminde odun tahripçisi makromantarlar. AÇÜOFD. 2025;26(1):166-7.

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