Fruška Gora forest (Serbia). Ethnomedicine and Therapeutic Validation; (J.N. Govil andGeetanjali Kaushik Eds.). 32, Chapter 17: 339-355.Karlson-Stiber, C., Persson, H. (2003): Cytotoxic fungi-an overview. Toxicon. 42 (4): 339–349. https://www.sciencedirect.com/science/article/pii/S0041010103002381?via%3DihubKatanić, M., Kovaĉević, B., Glowska, N., Paoletti, E., Vasić, S., Matavulj, M., Kraigher, H.(2013): Naseljenost korena topola ektomikoriznim, arbuskularno mikoriznim i tamnimseptiranim endofitskim gljivama. Topola/Poplar; 191/192: 17-29.http://www.ilfe.org/old/Topola/Topola%20191-192.pdf.Katanić, M., Orlović, S., Grebenc, T., Kovaĉević, K., Kebert, M., Matavulj, M., Kraigher, H.(2015): Mycorrhizal fungal community of poplars growing on pyrite tailings contaminatedsite near the river Timok. Journal South-east European forestry, 6, 1, pp. 53-63.Kavanagh, K. (2017): Fungi: Biology and Aplications. John Wiley & Sons, Inc.Keeling, P. J., Fast, N. M. (2002): Microsporidia: biology and evolution of highly reducedintracellular parasites. Annual Reviews in Microbiology, 56 (1), pp. 93-116Keizer, G.J. (1998), Gljive,enciklopedija, Veble commerce, Zagreb.Kidd, S., Halliday, C., Alexiou, H. Ellis, D. (2016): Descriptions of Medical Fungi.Newstyle Printing, Adelaide. https://mycology.adelaide.edu.au/docs/fungus3-book.pdfKirk, P. M., Cannon, P. F.; Stalpers, J. A. (2008): Dictionary of the Fungi (10th ed.). CABInternational, Wallingford, UK.Kirk, P.M. (2016): Species Fungorum (version Jan 2016). Royal Botanic Gardens, Kew,Richmond, UK.Kivlin, S., Hawkes, C., Treseder, K. (2011): Global diversity and distribution of arbuscularmycorrhizal fungi. Soil Biology and Biochemistry. 43 (11), pp. 2294-2303.https://www.sciencedirect.com/science/article/abs/pii/S0038071711002823Koella, J., Lorenz, L., Bargielowski, I. (2009). Microsporidians as Evolution-Proof Agents ofMalaria Control?. Advances in Parasitology. 68. pp. 315–327.Kuo, M. (2007, January). Key to major groups of mushrooms. Retrieved from theMushroomExpert.Com Web site: http://www.mushroomexpert.com/major_groups.htmlLolić, S., Matavuly, M. (2015): The antimicrobial activity of autochthonous species ofBasidiomycotina. Proceedings of the third Symposium of biologists and ecologists of theRepublika Srpska (SBERS 2015), Banja Luka, November 12-14, 2015. Volume 1, Pages 34-35. Faculty of Science, University of Banja Luka, Republic of Srpska, Bosnia andHerzegovina.Lorenz, L., Koella, J. (2011): The microsporidian parasite Vavraia culicis as a potential latelife–acting control agent of malaria. Evolutionary Applications 4(6), pp. 783–790.Mader, S. (1998): Biology. McGraw-Hill, USA.Marinović, R. (1991): Osnovi mikologije i lihenologije. Nauĉna knjiga, Beograd.Markham, P. (1994): Occlusions of septal pores in filamentous fungi Mycological Research.98 (10), pp 1089-1106.222
https://www.sciencedirect.com/science/article/abs/pii/S0953756209801950Matavuly, M., Karaman, M., Tešanović, K., Glumac, M., Matavulj, F., Lolić, S. (2017):Mushroom mycelia as a cohesive component of a new ecologicaly friendly packaging. Proc.Conference “The 6th International Scientific Meeting: Mycology, Mycotoxicology andMycoses”, Novi Sad, September 27-29, 2017. Volume 1, Issue CD. Publisher Matica srpska,Novi Sad.Matavulj, M., Vulikić, N., Gojković, I., Karaman, M. (2005): Conditionally pathogenic fungiin recreational waters. Proc. Nat. Sci. Matica Srpska Novi Sad. 109, pp. 149-160.Matavulj, M., ĐurĊević, S. (2005): LIŠAJEVI MOĈVARNOG REGIONA BARDAĈA.Zbornik radova 1. Simpozijuma biologa Republike Srpske, Skup 2, Banja Luka, 10-12. 11.2005. pp. 215-219.Matavulj, M., Karaman, M., ĐurĊević, S. (2006): REKREATIVNE ZONE U TRANSMISIJI(POTENCIJALNO) PATOGENIH GLJIVA. Zbornik radova Prve nauĉno-struĉnekonferencije sa meĊunarodnom uĉešćem «Zaštita vazduha i zdravlje», Institut zaštite,ekologije i informatike, Banja Luka, 20-21 april, 2006., pp. 47-54.Matavulj, M., Karaman, M., Gojković, I., ĐurĊević, S. (2005): LIGNICOLOUSMACROFUNGI OF THE BARDAĈA FLOODPLAIN REGION. Proc. Nat. Sci., MaticaSrpska Novi Sad, 109, pp. 161-167. http://www.doiserbia.nb.rs/img/doi/0352-4906/2005/0352-49060519161M.pdfMatavulj, M., Karaman, M., Matavulj, F., Lolić, S. (2016): Ecological, sustainable packagingbased on mushroom mycelia. Book of abstracts of the International Scientific Conference onEcological Crisis: Technogenesis and Climate Change, Belgrade, April 21-13 2016. Volume1, pp. 87-88.Matavulj, M., Lolić, S., Vujĉić, S., Milovac, S., Novaković, M., Karaman, M. (2013):Schizophyllum commune – THE MAIN CAUSE OF DYING TREES OF THE BANJALUKA ARBORED WALKS AND PARKS. Jour. Nat. Sci. Matica Srpska Novi Sad, 124, pp.367-377. http://www.doiserbia.nb.rs/img/doi/0352-4906/2013/0352-49061324367M.pdfMatavulj, M., Molitoris, HP. (1992): Fungal degradation of polyhydroxyalkanoates and asemiquantitative assay for screening their degradation by terrestrial fungi. FEMSmicrobiology reviews, 9, 2-4, pp. 323-331.Matavulj, M., Radnović, D., Lolić, S., Karaman, M. (2009): BIODEGRADACIJA POLI-Β-HIDROKSI-BUTIRAT-KO-VALERAT-TERMOPLASTIĈNE AMBALAŢE IN SITU.Zbornik radova Nauĉno-struĉnog skupa sa meĊunarodnim uĉešćem „Zaštita i zdravlje na radui zaštita ţivotne sredine“, (Institut zaštite, ekologije i informatike), Banja Luka, 24-26. 06.2009. pp. 775-779.McKane, L., Kandel, J. (1996): Microbiology, Essentials and Applications. McGraw-Hill,USA.Michelot, D., Melendez-Howell, L.M. (2003): Amanita muscaria: chemistry, biology,toxicology, and ethnomycology. Mycological Research. 107 (Pt 2), pp. 131–146.https://www.sciencedirect.com/science/article/abs/pii/S0953756208611582Miles, P.G.; Chang, S. (1997): Mushroom Biology: Concise Basics and CurrentDevelopments. World Scientific, USA.223
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PREDGOVORUdţbenik Biologija gljiva
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5.1.2. Gljive u medicini i farmacij
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1. UVOD U MIKOLOGIJU1.1. Kratak ist
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smatrane biljkama pa otuda i njihov
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Pored osnovne razlike u tipu ishran
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zajedniĉkih karakteristika se svrs
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Tabela 2. Sistematika gljiva prema
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2. MORFOLOGIJA GLJIVAU morfološkom
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mješak u kom se formiraju spore, t
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npr. strukture koje omogućavaju re
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svrstavaju u organele već u granul
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manjeg broja gljiva hife su nesepti
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micelije gljiva rasprostranjene u p
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Slika 20. Rizoidi i stolon(Rhisopus
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Konidiofori ili konidionoše su spe
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apendiksa takoĊe predstavlja vaţn
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predstavljaju taksonomski karakter.
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Slika 34. Koralno plodno tijeloSlik
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ABCSlika 39. GraĊa faloidnog plodn
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Slika 41. AgarikoidnibazidiokarpSli
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C - Cjevast himenofor (presjek)D -
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3. RAZMNOŽAVANJE GLJIVAGljive se m
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dijela hife se nazivaju hlamidospor
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3.2. Polno razmnožavanjePolno razm
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u bazalni dio, a dva haploidna jedr
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Slika 55. Ţivotni ciklus Basidiomy
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Slika 57. Zigogamija.3.3. Pleomorfi
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Fusarium solani koji izaziva bijelu
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A B CSlika 60. Pleomorfizam: A - Ch
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One usitnjavaju velike sloţene org
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organizma pa je rijeĉ o mutualisti
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prilikom sakupljanja i determinacij
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Postoji više morfoloških tipova t
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Slika 66. Heteromerna graĊa talusa
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vrste produkuju antibiotike kao št
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razgraĊuju. U kiselim sredinama se
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toku fermentacije, dok se kod slatk
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U današnje vrijeme je odrastanje b
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Trametes versicolor ili ćuranov re
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riţinog vina sakea. Koristi se za
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Uzgajanje gljiva u Evropi datira jo
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Gljive sadrţe i veliki broj vitami
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Agaricus campestris - livadska peĉ
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Armillaria tabescens - grmaĉaRaste
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Boletus pinophilus (B. pinicola) -
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Coprinus comatus - velika gnojišta
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Lactarius sanguifluus - krvava rujn
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Leccinum scabrum - djed, brezov dje
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Morchella conica - stoţasti smrĉa
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Russula vesca - krasnica, jestiva z
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U Bosni i Hercegovini rastu i druge
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Gljiva Cryphonectria parasitica je
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Peronospora parasitica izaziva obol
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naroĉito osjetljive osobe oboljele
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podruĉju Balkanskog poluostrva sad
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kasnije raširen, ravan, radijalno
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ruba. Listići su bijeli, meki, gus
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Cortinarius rubellus - crvenkasta k
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Lactarius torminosus - brezovkaRast
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Hypholoma fasciculare - sumporaĉaR
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Ramaria formosa - otrovna capica, o
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Scleroderma citrinum - otrovna puha
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5.3.4. MikotoksiniVeliki broj gljiv
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koristila i kao tzv. „serum istin
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6. TAKSONOMIJA GLJIVAKao što je ve
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oksidativne fosforilacije. U njima
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‣ Chytridiomycetes‣ Monoblephar
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proljeće i jesen kada je niţa tem
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Slika 95. Ţivotni ciklus Allomyces
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površini nalaze karakteristiĉni t
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heterogena grupa organizama koji ne
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sporangija ispunjena stotinama besp
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ljepljive, znatno sitnije spore na
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Zoopagomycotina obuhvata 215 vrsta
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arhikarpa i anteridija unutar kojih
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Pupljenje je holoblastiĉnog tipa,
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pseudotecije. Razvoj askostrome po
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‣ Pleosporomycetidae u svojim lok
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najkancerogenija supstanca biološk
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miceliju izgraĊenu iz jednojedarni
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kojoj podklasi pripadaju. Ovde spad
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šumarstvu i voćarstvu. Nectria ci
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Podklasa Xylariomycetidae predstavl
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Bazidije se obrazuju na vrhovima ge
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razvojnog ciklusa mijenja dva doma
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- Page 177 and 178: Vrste Tilletia caries i Tiletia foe
- Page 179 and 180: Psathyrella aquatica, koja je jedin
- Page 181 and 182: Porodica Hygrophoraceae obuhvata ok
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- Page 185 and 186: mesnatog dijela peĉurke koji nosi
- Page 187 and 188: obrazuje cjevast himenofor koji se
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- Page 191 and 192: Red Auriculariales sadrţi 32 roda
- Page 193 and 194: ĉovjeka i ţivotinja. Ĉesto uzrok
- Page 195 and 196: 7. Gljivama sliĉni organizmi - pse
- Page 197 and 198: Prave plazmodijalne sluzave gljive
- Page 199 and 200: Fuligo septica (ţuta sluznjaĉa, p
- Page 201 and 202: Dictyostelium purpureum predstavlja
- Page 203 and 204: Razdio Oomycota sadrţi klasu Oomyc
- Page 205 and 206: Prvi simptomi bolesti najĉešće s
- Page 207 and 208: PRILOGLista originalnih fotografija
- Page 209 and 210: Macrolepiota procera - sunĉanica,
- Page 211 and 212: Lista slika sa literaturnim izvorim
- Page 213 and 214: Slika 55. Ţivotni ciklus Basidiomy
- Page 215 and 216: Slika 84. Tinea unguim.https://en.w
- Page 217 and 218: Slika 94. Allomyces sp.http://www.u
- Page 219 and 220: Slika 129. Hygrocybe pratensis.http
- Page 221 and 222: LITERATURAAlexopoulos C., Mims. C.,
- Page 223: http://www.tolweb.org/Sordariomycet
- Page 227: septal pores. Fungal Genetics and B