Cannon et al.Hawksw<strong>or</strong>th DL (2011). A new dawn f<strong>or</strong> the naming of fungi: impacts of decisionsmade in Melbourne in July 2011 on the future publication and regulation offungal names. Mycokeys 1: 7–20.Hawksw<strong>or</strong>th DL, Kirk PM, Sutton BC, Pegler DN (1995). Ainsw<strong>or</strong>th & Bisby’sDictionary of the Fungi. 8 th edn. CABI, Kew.Hawksw<strong>or</strong>th DL, Sutton BC, Ainsw<strong>or</strong>th GC (eds) (1983). Ainsw<strong>or</strong>th & Bisby’sDictionary of the Fungi.7 th edn. CABI, Kew.Heilmann LJ, Nitzan N, Johnson DA, Pasche JS, Doetkott C, et al. (2006). Geneticvariability in the potato pathogen <strong>Colletotrichum</strong> coccodes as determined byamplified fragment length polym<strong>or</strong>phism and vegetative compatibility groupanalyses. Phytopathology 96: 1097–1107.Hemelrijk W van, Debode J, Heungens K, Maes M, Creemers P (2010). Phenotypicand genetic characterization of <strong>Colletotrichum</strong> isolates from Belgian strawberryfields. Plant Pathology 59: 853–861.Hemmi T (1920). Beiträge zur Kenntnis der M<strong>or</strong>phologie und Physiologie derJapanischen Gloeosp<strong>or</strong>ien. Journal of the College of Agriculture, HokkaidoImperial University 9: 1–159.Hennings P (1898). Die in den Gewächshäusern des Berliner Botanischen Gartensbeobachteten Pilze. Verhandlungen des Botanischen Vereins der ProvinzBrandenburg 40: 109–177.Higgins KL, Coley PD, Kursar TA, Arnold AE (2011). Culturing and direct PCRsuggest prevalent host generalism among diverse fungal endophytes oftropical f<strong>or</strong>est grasses. Mycologia 103: 247–260.Houbraken J, Frisvad JC, Samson RA (2011). Fleming’s penicillin producing strainis not P. chrysogenum but P. rubens. IMA Fungus 2: 87–95.Hsiang T, Goodwin PH (2001). Ribosomal DNA sequence comparisons of<strong>Colletotrichum</strong> graminicola from turf-grasses and other hosts. EuropeanJournal of Plant Pathology 107: 593–599.Huhnd<strong>or</strong>f SM, Miller AN, Fernández FA (2004). Molecular systematics of theS<strong>or</strong>dariales: the <strong>or</strong>der and the family Lasiosphaeriaceae redefined. Mycologia96: 368–387.Huser A, Takahara H, Schmalenbach W, O’Connell R (2009). Discovery ofpathogenicity genes in the crucifer anthracnose fungus, <strong>Colletotrichum</strong>higginsianum, using random insertional mutagenesis. Molecular Plant-MicrobeInteractions 22: 143–156.Hyde KD, Cai L, Cannon PF, Crouch JA, Crous PW, et al. (2009a). <strong>Colletotrichum</strong> –names in current use. Fungal Diversity 39: 147–182.Hyde KD, Cai L, McKenzie EHC, Yang YL, Zhang JZ, et al. (2009b). <strong>Colletotrichum</strong>:a catalogue of confusion. Fungal Diversity 39: 1–17.Illingw<strong>or</strong>th CA, Andrews JH, Bibeau C, Sogin ML (1991). Phylogenetic placementof Athelia bombacina, Aureobasidium pullulans and <strong>Colletotrichum</strong>gloeosp<strong>or</strong>ioides inferred from sequence compansons of small subunitribosomal RNAs. Experimental Mycology 15: 65–75.James TY, Kauff F, Schoch CL, Matheny PB, Hofstetter V, et al. (2006).Reconstructing the early evolution of fungi using a six-gene phylogeny. Nature443: 818–822.Jaulneau V, Cazaux M, Hoi JWS, Fournier S, Esquerre-Tugaye MT (2010). Hostand nonhost resistance in Medicago-<strong>Colletotrichum</strong> interactions. MolecularPlant-Microbe Interactions 23: 1107–1117.Jenkins SF, Winstead NN (1964). Glomerella magna, cause of a new anthracnoseof cucurbits. Phytopathology 54: 452–454.Johnston PR, Jones D (1997). Relationships among <strong>Colletotrichum</strong> isolates fromfruit-rots assessed using rDNA sequences. Mycologia 89: 420–430.Joshee S, Paulus BC, Park D, Johnston PR (2009). Diversity and distributionof fungal foliar endophytes in New Zealand Podocarpaceae. MycologicalResearch 113: 1003–1015.Kelly LJ, Hollingsw<strong>or</strong>th PM, Coppins BJ, Ellis CJ, Harrold P, et al. (2011). DNAbarccoding of lichenized fungi demonstrates high identification success in afl<strong>or</strong>istic context. New Phytologist 191: 288–300.Kim WG, Hong SK, Kim JH (2008). Occurrence of anthracnose on welsh onioncaused by <strong>Colletotrichum</strong> circinans. Mycobiology 36: 274–276.Kimura A, Takano Y, Furusawa I, Okuno T (2001) Peroxisomal metabolic functionis required f<strong>or</strong> appress<strong>or</strong>ium-mediated plant infection by <strong>Colletotrichum</strong>lagenarium. Plant Cell 13: 1945–1957.Kingh<strong>or</strong>n WO (1936). Glomerella phacidiom<strong>or</strong>pha (Ces.) Pet. on Ph<strong>or</strong>mium tenax inBritain. Annals of Applied Biology 23: 30–44.Kirk PM, Cannon PF, David JC, Stalpers JA (2001). Ainsw<strong>or</strong>th & Bisby’s Dictionaryof the Fungi. 9 th edn. CABI, Egham, UK.Kirk PM, Cannon PF, Minter DW, Stalpers JA (2008). Ainsw<strong>or</strong>th & Bisby’s Dictionaryof the Fungi. 10 th edn. CABI, Wallingf<strong>or</strong>d, UK.Kleemann J, Rincon-Rivera LJ, Takahara H, Neumann U, van Themaat EVL, et al.(2012). Sequential delivery of host-induced virulence effect<strong>or</strong>s by appress<strong>or</strong>iaand intracellular hyphae of the phytopathogen <strong>Colletotrichum</strong> higginsianum.PLoS Pathogens 8(4): e1002643. doi:10.1371/journal.ppat.1002643.Kõljalg U, Larsson KH, Abarenkov K, Nilsson RH, Alexander IJ, et al. (2005). UNITE:a database providing web-based methods f<strong>or</strong> the molecular identification ofectomyc<strong>or</strong>rhizal fungi. New Phytologist 166: 1063–1068.Krüger F (1913). Beiträge zur Kenntnis einiger Gloeosp<strong>or</strong>ien. Arbeiten aus derKaiserlichen Biologischen Anstalt für Land- und F<strong>or</strong>stwirtschaft. 9: 233–323.Kruger J, Hoffman FM, Hubbeling N (1977). The kappa race of <strong>Colletotrichum</strong>lindemuthianum and sources of resistance to anthracnose in Phaseolus beans.Euphytica 26: 23–25.Latunde-Dada AO (2001). <strong>Colletotrichum</strong>: tales of f<strong>or</strong>cible entry, stealth, transientconfinement and breakout. Molecular Plant Pathology 2: 187–198.Latunde-Dada AO, Lucas JA (2007). Localized hemibiotrophy in <strong>Colletotrichum</strong>:cytological and molecular taxonomical similarities among C. destructivum, C.linicola and C. truncatum. Plant Pathology 56: 437–447.Leahy R, Schubert T, Strandberg J, Stamps B, N<strong>or</strong>man D (1995). Anthracnose ofleatherleaf fern. Plant Pathology Circular 372: 4 pp.Lee DH, Kim DH, Jeon YA, Uhm JY, Hong SB (2007). Molecular and culturalcharacterization of <strong>Colletotrichum</strong> spp. causing bitter rot of apples in K<strong>or</strong>ea.Plant Pathology Journal 23: 37–44.Lee HB, Park JY, Jung HS (2005). Identification, growth and pathogenicity of<strong>Colletotrichum</strong> boninense causing leaf anthracnose on spindle tree. PlantPathology Journal 21: 27–32.Lehman SG, Wolf FA (1926). Soybean anthracnose. Journal of AgriculturalResearch Washington 33: 381–390.Lenné JM (2002). Some maj<strong>or</strong> plant diseases. In: Plant Pathologist’s Pocketbook(Waller JM, Lenné JM, Waller SJ, eds). 3 rd edn. CABI, Wallingf<strong>or</strong>d, UK: 4–18.Liu B, Wasilwa LA, M<strong>or</strong>elock TE, O’Neill NR, C<strong>or</strong>rell JC (2007a). Comparison of<strong>Colletotrichum</strong> <strong>or</strong>biculare and several allied <strong>Colletotrichum</strong> spp. f<strong>or</strong> mtDNARFLPs, intron RFLP and sequence variation, vegetative compatibility and hostspecificity. Phytopathology 97: 1305–1314.Liu F, Hyde KD, Cai L (2011). Neotypification of <strong>Colletotrichum</strong> coccodes, the causalagent of potato black dot disease and tomato anthracnose. Mycology 2: 248–254.Liu X, Xie X, Duan J (2007b). <strong>Colletotrichum</strong> yunnanense sp. nov., a new endophytic<strong>species</strong> from Buxus sp. Mycotaxon 100: 137–144.LoBuglio KF, Pfister DH (2008). A Glomerella <strong>species</strong> phylogenetically related to<strong>Colletotrichum</strong> acutatum on N<strong>or</strong>way maple in Massachusetts. Mycologia 100:710–715.Locquin M (1984). Mycologie Générale et Structurale. Masson, Paris.Lopez AMQ, Lucas JA (2010). <strong>Colletotrichum</strong> isolates related to anthracnose ofcashew trees in Brazil: m<strong>or</strong>phological and molecular description using LSUrDNA sequences. Brazilian Archives of Biology and Technology 53: 741–752.Lotter HC, Berger DK (2005). Anthracnose of lupins in South Africa is caused by<strong>Colletotrichum</strong> lupini var. setosum. Australasian Plant Pathology 34: 385–392.Lu G, Cannon PF, Reid A, Simmons CM (2004). Diversity and molecularrelationships of endophytic <strong>Colletotrichum</strong> isolates from the Iwokrama F<strong>or</strong>estReserve, Guyana. Mycological Research 108: 53–63.Lubbe CM, Denman S, Cannon PF, Groenewald JZ, Lamprecht SC, et al. (2004).Characterization of <strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioides and similar <strong>species</strong>associated with anthracnose and dieback of Proteaceae. Mycologia 96: 1268–1279.Lucas GB, Chilton SJP, Edgerton CW (1944). Genetics of Glomerella. I. Studieson the behavi<strong>or</strong> of certain strains. American Journal of Botany 31: 233–239.Mackenzie SJ, Seijo TE, Legard DE, Timmer LW, Peres NA (2007). Selection f<strong>or</strong>pathogenicity to strawberry in populations of <strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioidesfrom native plants. Phytopathology 97:1130–1140.Mackenzie SJ, Peres NA, Barquero MP, Arauz LF, Timmer LW (2009). Host rangeand genetic relatedness of <strong>Colletotrichum</strong> acutatum isolates from fruit cropsand leatherleaf fern in Fl<strong>or</strong>ida. Phytopathology 99: 620–631.Mahuku GS, Riascos JJ (2004). Virulence and molecular diversity within<strong>Colletotrichum</strong> lindemuthianum isolates from Andean and Mesoamerican beanvarieties and regions. European Journal of Plant Pathology 110: 253–263.Manandhar JB, Hartman GL, Sinclair JB (1986). <strong>Colletotrichum</strong> destructivum, theanam<strong>or</strong>ph of Glomerella glycines. Phytopathology 76: 282–285.Manuel L, Talhinhas P, Várzea V, Neves-Martins J (2010). Characterization of<strong>Colletotrichum</strong> kahawae isolates causing coffee berry disease in Angola.Journal of Phytopathology 158: 310–313.Manire CA, Rhinehart HL, Sutton DA, Thompson EH, Rinaldi MG, et al. (2002).Journal of Clinical Microbiology 40: 4273–4280.Marcelino J, Gi<strong>or</strong>dano R, Gouli S, Gouli V, Parker BL, et al. (2008). <strong>Colletotrichum</strong>acutatum var. fi<strong>or</strong>iniae (teleom<strong>or</strong>ph: Glomerella acutata var. fi<strong>or</strong>iniae var. nov.infection of a scale insect. Mycologia 100: 353–374.Marcelino J, Gouli S, Parker BL, Skinner M, Gi<strong>or</strong>dano R (2009). Entomopathogenicactivity of a variety of the fungus, <strong>Colletotrichum</strong> acutatum, recovered from theelongate hemlock scale, Fi<strong>or</strong>inia externa. 11 pp. Journal of Insect Science 9:article 13.Martín MP, Garcia Figueres F (1999). <strong>Colletotrichum</strong> acutatum and C.gloeosp<strong>or</strong>ioides cause anthracnose on olives. European Journal of PlantPathology 105: 733–741.Martínez-Culebras PV, Querol A, Suarez-Fernandez MB, García-Lopez MD, BarrioE (2003). Journal of Phytopathology 151: 135–143.210
<strong>Colletotrichum</strong> – current status and future directionsMasel A, Braithwaite K, Irwin J, Manners J (1990). Highly variable molecularkaryotypes in the plant pathogen <strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioides. CurrentGenetics 18: 81–86.McKay SF, Freeman S, Minz D, Maymon M, Sedgley M, et al. (2009). M<strong>or</strong>phological,genetic, and pathogenic characterization of <strong>Colletotrichum</strong> acutatum, the causeof anthracnose of almond in Australia. Phytopathology 99: 985–995.Menat J, Cabral AL, Perumal V, Wei Y, Banniza S (2012). Mating system ofGlomerella truncata: another Glomerella <strong>species</strong> with an atypical matingsystem. Mycologia 104: 641–649.Mills PR, Hodson A, Brown AE (1992). Molecular differentiation of <strong>Colletotrichum</strong>gloeosp<strong>or</strong>ioides isolates infecting tropical fruits. In: <strong>Colletotrichum</strong>: Biology,Pathology and Control (Bailey JA, Jeger MJ, eds). CABI, Wallingf<strong>or</strong>d, UK:269–288.Min XJ, Hickey DA (2007). Assessing the effect of varying sequence length on DNAbarcoding of fungi. Molecular Ecology Notes 7: 365–373.Montagne C (1849). Sixième centurie des plantes cellulaires nouvelles tantindigènes qu’exotiques. Annales des Sciences Naturelles. Botanique Série 3,12: 285–320.M<strong>or</strong>due JEM (1971). <strong>Colletotrichum</strong> lindemuthianum. CMI Descriptions ofPathogenic Fungi and Bacteria no. 316. CMI, Kew.M<strong>or</strong>iwaki J, Tsukiboshi T (2009). <strong>Colletotrichum</strong> echinochloae, a new <strong>species</strong> onJapanese barnyard millet (Echinochloa utilis). Mycoscience 50: 273–280.M<strong>or</strong>iwaki J, Sato T, Tsukiboshi T (2003). M<strong>or</strong>phological and molecular characterizationof <strong>Colletotrichum</strong> boninense sp. nov. from Japan. Mycoscience 44: 47–53.M<strong>or</strong>iwaki J, Tsukiboshi T, Sato T (2002). Grouping of <strong>Colletotrichum</strong> <strong>species</strong> in Japanbased on rDNA sequences. Journal of General Plant Pathology 68: 307–320.Munaut F, Hamaide N, Stappen J van der, Maraite H (1998). Genetic relationshipsamong isolates of <strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioides from Stylosanthes spp. inAfrica and Australia using RAPD and ribosomal DNA markers. Plant Pathology47: 641–648.Munaut F, Hamaide N, Maraite H (2002). Genomic and pathogenic diversity in<strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioides from wild native Mexican Stylosanthes spp.,and taxonomic implications. Mycological Research 106: 579–593.Münch S, Lingne U, Floss DS, Ludwig N, Sauer N, et al. (2008). The hemibiotrophiclifestyle of <strong>Colletotrichum</strong> <strong>species</strong>. Journal of Plant Physiology 165: 41–51.Nakamura M, Ohzono M, Iwai H, Arai K (2006). Anthracnose of Sansevieriatrifasciata caused by <strong>Colletotrichum</strong> sansevieriae sp. nov. Journal of GeneralPlant Pathology 72: 253–256.Nguyen PTH, Vinnere Pettersson O, Olsson P, Liljeroth E (2010). Identificationof <strong>Colletotrichum</strong> <strong>species</strong> associated with anthracnose disease of coffee inVietnam. European Journal of Plant Pathology 127: 73–87.Nicholson RL (1992). <strong>Colletotrichum</strong> graminicola and the anthracnose diseases ofmaize and s<strong>or</strong>ghum. In: <strong>Colletotrichum</strong>. Biology, Pathology and Control (BaileyJA, Jeger MJ eds). CABI, Wallingf<strong>or</strong>d, UK: 186–202.Nicholson RL, M<strong>or</strong>aes WBC (1980). Survival of <strong>Colletotrichum</strong> graminicola:imp<strong>or</strong>tance of the sp<strong>or</strong>e matrix. Phytopathology 70: 255–261.Nirenberg HI, Feiler U, Haged<strong>or</strong>n G (2002). Description of <strong>Colletotrichum</strong> lupinicomb. nov. in modern terms. Mycologia 94: 307–320.O’Connell RJ, Bailey JA, Richmond DV (1985). Cytology and physiology of infectionof Phaseolus vulgaris by <strong>Colletotrichum</strong> lindemuthianum. Physiological PlantPathology 27: 75–93.O’Connell RJ, Bailey JA, Vose IR, Lamb CJ (1986). Immunogold labelling offungal antigens in cells of Phaseolus vulgaris infected by <strong>Colletotrichum</strong>lindemuthianum. Physiological and Molecular Plant Pathology 28: 99–105.O’Connell R, Herbert C, Sreenivasaprasad S, Khatib M, Esquerré-Dugayé M-T, etal. (2004). A novel Arabidopsis-<strong>Colletotrichum</strong> pathosystem f<strong>or</strong> the moleculardissection of plant-fungal interactions. Molecular Plant-Microbe Interactions 17:272–282.O’Connell RJ, Perfect S, Hughes B, Carzaniga R, Bailey JA, et al. (2000). Dissectingthe cell biology of <strong>Colletotrichum</strong> infection processes. In: <strong>Colletotrichum</strong>. HostSpecificity, Pathology and Host-Pathogen Interaction (Prusky D, Freeman S,Dickman MB, eds). APS Press, St Paul, USA: 57–77.O’Connell RJ, Thon MR, Hacquard S, Amyotte SG, Kleemann J, et al. (2012).Life-style transitions in plant pathogenic <strong>Colletotrichum</strong> fungi deciphered bygenome and transcriptome analyses. Nature Genetics doi:10.1038/ng.2372.O’Donnell K, Gueidan C, Sink S, Johnston PR, Crous PW, et al. (2009). A twolocusDNA sequence database f<strong>or</strong> typing plant and human pathogens withinthe Fusarium oxysp<strong>or</strong>um <strong>species</strong> <strong>complex</strong>. Fungal Genetics and Biology 46:936–948.O’Donnell K, Kistler HC, Tacke BK, Casper HH (2000). Gene genealogies revealglobal phylogeographic structure and reproductive isolation among lineagesof Fusarium graminearum, the fungus causing wheat scab. Proceedings of theNational Academy of Sciences of the USA 97: 7905–7910.Olive LS (1951). Homothallism and heterothallism in Glomerella. Transactions of theNew Y<strong>or</strong>k Academy of Science 13: 238–242.Pai HS (1970). Life cycle of <strong>Colletotrichum</strong> heveae inciting spot anthracnose ofPhyllanthus acidus. Mycopathologia et Mycologia applicata 42: 65–72.Pain NA, Green JR, Gammie F, O’Connell RJ (1994). Immunomagnetic isolation ofviable intracellular hyphae of <strong>Colletotrichum</strong> lindemuthianum (Sacc. & Magn.)Briosi & Cav. from infected bean leaves using a monoclonal antibody. NewPhytologist 127: 223–232.Palarpawar MY, Ghurde VR (1988). Some new hosts of <strong>Colletotrichum</strong> curcumae.Indian Journal of Mycology and Plant Pathology 18: 220–221.Parbery DG (1964). Studies on graminicolous <strong>species</strong> of Phyllach<strong>or</strong>a Fckl. IV.Evaluation of the criteria of <strong>species</strong>. Australian Journal of Botany 12: 265–281.Past<strong>or</strong>-C<strong>or</strong>rales MA, Otoya MM, Molina A (1995). Resistance to <strong>Colletotrichum</strong>lindemuthianum isolates from Middle America and Andean South America indifferent common bean races. Plant Disease 79: 63–67.Peres NA, Timmer LW, Adaskaveg JE, C<strong>or</strong>rell JC (2005). Life styles of <strong>Colletotrichum</strong>acutatum. Plant Disease 89: 784–796.Peres NA, MacKenzie SJ, Peever TL, Timmer LW (2008). Postbloom fruit drop ofcitrus and Key lime anthracnose are caused by distinct phylogenetic lineagesof <strong>Colletotrichum</strong> acutatum. Phytopathology 98: 345–352.Perfect SE, Hughes HB, O’Connell RJ, Green JR (1999) <strong>Colletotrichum</strong>: a modelgenus f<strong>or</strong> studies on pathology and fungal–plant interactions. Fungal Geneticsand Biology 27:186–198.Petch T (1917). Additions to Ceylon fungi. Annals of the Royal Botanic Garden,Peradeniya 6: 195–256.Peterson SW (2008). Phylogenetic analysis of Aspergillus <strong>species</strong> using DNAsequences from four loci. Mycologia 100: 205–226.Petrak F (1924). Über die phylogenetischen Beziehungen der Gattung Phyllach<strong>or</strong>aund ihre Bedeutung für das System der dothidealean Pilze. Annales Mycologici22: 1–10.Photita W, Tayl<strong>or</strong> PWJ, F<strong>or</strong>d R, Lumyong P, McKenzie HC, et al. (2005).M<strong>or</strong>phological and molecular characterization of <strong>Colletotrichum</strong> <strong>species</strong> fromherbaceous plants in Thailand. Fungal Diversity 18: 117–133.Phoulivong S, Cai L, Chen H, McKenzie EHC, Abdelsalam K, et al. (2010).<strong>Colletotrichum</strong> gloeosp<strong>or</strong>ioides is not a common pathogen on tropical fruits.Fungal Diversity 44: 33–43.Phuong THN, Pettersson OV, Olsson P, Nguyen PTH (2010). Identification of<strong>Colletotrichum</strong> <strong>species</strong> associated with anthracnose disease of coffee inVietnam. European Journal of Plant Pathology 127: 73–87.Pileggi SA, Vieira de Oliveira SF, Andrade CW, Vicente VA, Dalzoto P do R, et al.(2009). Molecular and m<strong>or</strong>phological markers f<strong>or</strong> rapid distinction between two<strong>Colletotrichum</strong> <strong>species</strong>. Canadian Journal of Microbiology 55: 1076–88.Pinto JM, Pereira R, Mota SF, Ishikawa FH, Souza EA (2012). Investigatingphenotypic variability in <strong>Colletotrichum</strong> lindemuthianum populations.Phytopathology 102: 490–497.Polashock JJ, Caruso FL, Oudemans PV, McManus PS, Crouch JA (2009). The N<strong>or</strong>thAmerican cranberry fruit rot fungal community: a systematic overview usingm<strong>or</strong>phological and phylogenetic affinities. Plant Pathology 58: 1116–1127.Politis DJ (1975). The identity and perfect state of <strong>Colletotrichum</strong> graminicola.Mycologia 67: 56–62.Prihastuti H, Cai L, Chen H, McKenzie EHC, Hyde KD (2009). Characterizationof <strong>Colletotrichum</strong> <strong>species</strong> associated with coffee berries in n<strong>or</strong>thern Thailand.Fungal Diversity 39: 89–109.Prihastuti H, Cai L, Crouch JA, Phoulivong S, Moslem MA, et al. (2010).Neotypification of <strong>Colletotrichum</strong> falcatum, the causative agent of red-rotdisease in sugarcane. Sydowia 62: 283–293.Prusky D, Freeman S, Dickman MB (eds) (2000). <strong>Colletotrichum</strong>. Host Specificity,Pathology and Host-Pathogen Interaction. APS Press, St Paul, USA.Prusky D, Plumbley RA (1992). Quiescent infections of <strong>Colletotrichum</strong> in tropicaland subtropical fruit. In: <strong>Colletotrichum</strong>. Biology, Pathology and Control (BaileyJA, Jeger MJ, eds). CABI, Wallingf<strong>or</strong>d, UK: 289–307.Raja H, Schoch C, Hustad V, Shearer C, Miller A (2011). Testing the phylogeneticutility of MCM7 in the Ascomycota. MycoKeys 1: 63–94.Ramos AP, Merali Z, Talhinhas P, Sreenivasaprasad S, Oliveira H (2006). Molecularand m<strong>or</strong>phological characterisation of <strong>Colletotrichum</strong> <strong>species</strong> involved in citrusanthracnose in P<strong>or</strong>tugal. Bulletin OILB/SROP 29: 317–326.Rampersad SN (2011). Molecular and phenotypic characterization of <strong>Colletotrichum</strong><strong>species</strong> associated with anthracnose disease of papya in Trinidad. PlantDisease 95: 1244–1254.Réblová M, Gams W, Seifert KA (2011). Monilochaetes and allied genera of theGlomerellales, and a reconsideration of families in the Microascales. Studiesin Mycology 68: 163–191.Redman RS, Ranson JC, Rodriguez RJ (1999). Conversion of the pathogenicfungus <strong>Colletotrichum</strong> magna to a nonpathogenic, endophytic mutualist bygene disruption. Molecular Plant-Microbe Interactions 12: 969–975.Ritterband DC, Shah M, Seed<strong>or</strong> JA (1997). <strong>Colletotrichum</strong> graminicola: a newc<strong>or</strong>neal pathogen. C<strong>or</strong>nea 16: 362–364.Rodriguez RJ, Redman RS (2000). <strong>Colletotrichum</strong> as a model system f<strong>or</strong> definingthe genetic basis of fungal symbiotic lifestyles. In: <strong>Colletotrichum</strong>. HostSpecificity, Pathology and Host-Pathogen Interaction (Prusky D, Freeman S,Dickman MB, eds). APS Press, St Paul, USA: 114–130.www.studiesinmycology.<strong>or</strong>g211
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The Colletotrichum acutatum species
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The Colletotrichum acutatum species
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The Colletotrichum acutatum species
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The Colletotrichum acutatum species
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The Colletotrichum acutatum species
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Damm et al.µm diam. Setae not obse
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Damm et al.Table 2. Conidia measure
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Damm et al.Table 2. (Continued).Spe
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Damm et al.Table 3. Appressoria mea
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Damm et al.Fig. 25. Colletotrichum
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Damm et al.Fig. 26. Colletotrichum
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Damm et al.Fig. 27. Colletotrichum
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Damm et al.Fig. 28. Colletotrichum
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Damm et al.Fig. 29. Colletotrichum
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Damm et al.Fig. 30. Colletotrichum
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Damm et al.to olivaceous grey, filt
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Damm et al.are formed directly from
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Damm et al.Arx JA von (1957). Die A
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Damm et al.Masaba DM, Waller JM (19
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114
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Weir et al.grass-inhabiting species
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Weir et al.Table 1. A list of strai
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Weir et al.Table 1. (Continued).Spe
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Weir et al.Table 1. (Continued).Spe
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Weir et al.Table 2. Primers used in
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Weir et al.11ICMP 17789 Malus USA1I
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Weir et al.Kahawae cladeC. alataeC.
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Weir et al.A0.991ICMP 17905 Coffea
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Weir et al.Conidial width variation
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Weir et al.G. c.“f.sp. camelliae
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Weir et al.Fig. 10. Colletotrichum
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Weir et al.Fig. 12. Colletotrichum
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Weir et al.Fig. 13. Colletotrichum
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Weir et al.Fig. 15. Colletotrichum
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Weir et al.Fig. 17. Colletotrichum
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Weir et al.Fig. 18. Glomerella cing
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Weir et al.images under C. fructico
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Weir et al.Specimen examined: Thail
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Weir et al.Fig. 23. Colletotrichum
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Weir et al.Notes: First described f
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Weir et al.gossypii var. cephalospo
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Weir et al.to utilise either citrat
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- Page 178 and 179: Weir et al.Fig. 35. Colletotrichum
- Page 180 and 181: Weir et al.Fig. 36. Colletotrichum
- Page 182 and 183: Weir et al.Fig. 38. Colletotrichum
- Page 184 and 185: Weir et al.Table 4. Performance of
- Page 186 and 187: Weir et al.Crous PW, Gams W, Stalpe
- Page 188 and 189: Weir et al.Simmonds JH (1968). Type
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- Page 204 and 205: Cannon et al.Table 3. (Continued).S
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