Highlights of the Didymellaceae - Studies in Mycology
Highlights of the Didymellaceae - Studies in Mycology
Highlights of the Didymellaceae - Studies in Mycology
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
AveSkAMp et al.<br />
Jones JP (1976). Ultrastructure <strong>of</strong> conidium ontogeny <strong>in</strong> Phoma pomorum,<br />
Microsphaeropsis olivaceum, and Coniothyrium fuckelii. Canadian Journal <strong>of</strong><br />
Botany 54: 831–851.<br />
Kaiser WJ (1997). Inter- and <strong>in</strong>tranational spread <strong>of</strong> Ascochyta pathogens <strong>of</strong><br />
chickpea, faba beans and lentil. Canadian Journal <strong>of</strong> Plant Pathology 19:<br />
215–224.<br />
Kiss L (1997). Genetic diversity <strong>in</strong> Ampelomyces isolates, hyperparasites <strong>of</strong> powdery<br />
mildew fungi, <strong>in</strong>ferred from RFLP analysis <strong>of</strong> <strong>the</strong> rDNA ITS region. Mycological<br />
Research 101: 1073–1080.<br />
Kiss L, Nakasone KK (1998). Ribosomal DNA <strong>in</strong>ternal transcribed spacer sequences<br />
do not support <strong>the</strong> species status <strong>of</strong> Ampelomyces quisqualis, a hyperparasite<br />
<strong>of</strong> powdery mildew fungi. Current Genetics 33: 362–367.<br />
Kiss L, Russell JC, Szentiványi O, Xu X, Jeffries P (2004). Biology and biocontrol<br />
potential <strong>of</strong> Ampelomyces mycoparasites, natural antagonists <strong>of</strong> powdery<br />
mildew fungi. Biocontrol Science and Technology 14: 635–651.<br />
Kodsueb R, Dhanasekaran V, Aptroot A, Lumyong S, McKenzie EHC, Hyde KD,<br />
Jeewon R (2006). The family Pleosporaceae: <strong>in</strong>tergeneric relationships and<br />
phylogenetic perspectives based on sequence analyses <strong>of</strong> partial 28SrDNA.<br />
Mycologia 98: 571–583.<br />
Kohlmeyer J, Volkmann-Kohlmeyer B (1987). Mar<strong>in</strong>e fungi from Belize with<br />
descriptions <strong>of</strong> two new genera <strong>of</strong> Ascomycetes. Botanica Mar<strong>in</strong>a 30: 195–204.<br />
Kohlmeyer J, Volkmann-Kohlmeyer B (1991). Illustrated key to <strong>the</strong> filamentous<br />
higher mar<strong>in</strong>e fungi. Botanica Mar<strong>in</strong>a 34: 1–61.<br />
Kövics GJ, Gruyter J de, Aa HA van der (1999). Phoma sojicola comb. nov. and<br />
o<strong>the</strong>r hyal<strong>in</strong>e-spored coelomycetes pathogenic on soybean. Mycological<br />
Research 103: 1065–1070.<br />
Kruys Å, Eriksson OE, Wed<strong>in</strong> M (2006). Phylogenetic relationships <strong>of</strong> coprophilous<br />
Pleosporales (Dothideomycetes, Ascomycota), and <strong>the</strong> classification <strong>of</strong> some<br />
bitunicate taxa <strong>of</strong> unknown position. Mycological Research 110: 527–536.<br />
Li Y, Wang Q, Mei R-H, Lu G-Z. (2006). Phoma adonidicola sp. nov. on Adonis<br />
palaest<strong>in</strong>a. Mycotaxon 98: 237–240.<br />
Macdonald JE, White GP, Coté MJ (2000). Differentiation <strong>of</strong> Phoma foveata from<br />
Ph. exigua us<strong>in</strong>g a RAPD generated PCR-RFLP marker. European Journal <strong>of</strong><br />
Plant Pathology 106: 67–75.<br />
McNeill J, Barrie FR, Burdet HM, Demoul<strong>in</strong> V, Hawksworth DL, Marhold K, Nicolson<br />
DH, Prado J, Silva PC, Skog JE, Wiersema JH, Turland NJ (2006). International<br />
Code <strong>of</strong> Botanical Nomenclature (Vienna Code) adopted by <strong>the</strong> Seventeenth<br />
International Botanical Congress, Vienna, Austria, July 2005. Gantner Verlag,<br />
Ruggell, Liechtenste<strong>in</strong>.<br />
Mel’nik VA (2000). Key to <strong>the</strong> fungi <strong>of</strong> <strong>the</strong> genus Ascochyta Lib. (Coelomycetes). In:<br />
Mitteilungen aus der Biologischen Bundesanstalt für Land- und Forstwirtschaft.<br />
Heft 379. (Mel’nik VA, Braun U, Hagedorn G, eds). Perley Buchverlag, Berl<strong>in</strong><br />
Germany.<br />
Mendes-Pereira E, Faris-Mokaiesh S, Bertrandy J, Spire D (1999). Characterisation<br />
<strong>of</strong> mycelial glycoprote<strong>in</strong>s <strong>of</strong> <strong>the</strong> ‘Ascochyta pea complex’ (Ascochyta pisi<br />
Lib., Mycosphaerella p<strong>in</strong>odes (Berk. and Blox.) and Phoma medicag<strong>in</strong>is var.<br />
p<strong>in</strong>odella (Jones) Boerema. Agronomie 19: 21–29.<br />
Mendes-Pereira E, Balesdent MH, Brun H, Rouxel T (2003). Molecular phylogeny<br />
<strong>of</strong> <strong>the</strong> Leptosphaeria maculans - L. biglobosa species complex. Mycological<br />
Research 107: 1287–1304.<br />
Monte E, Bridge PD, Sutton BC (1991). An <strong>in</strong>tegrated approach to Phoma<br />
systematics. Mycopathologia 115: 89–103.<br />
Morales VM, Pelcher LE, Taylor JL (1993). Comparison <strong>of</strong> <strong>the</strong> 5.8s rDNA and<br />
<strong>in</strong>ternal transcribed spacer sequences <strong>of</strong> isolates <strong>of</strong> Leptosphaeria maculans<br />
from different pathogenicity groups. Current Genetics 23: 490–495.<br />
Morales VM, Jasalavich CA, Pelcher LE, Petrie GA, Taylor JL (1995). Phylogenetic<br />
relationship among several Leptosphaeria species based on <strong>the</strong>ir ribosomal<br />
DNA sequences. Mycological Research 99: 593–603.<br />
Morgan-Jones G (1988). <strong>Studies</strong> <strong>in</strong> <strong>the</strong> genus Phoma. XV. Concern<strong>in</strong>g Phoma<br />
multirostrata, a leaf spot-<strong>in</strong>duc<strong>in</strong>g and soil-borne species <strong>in</strong> warm climates.<br />
Mycotaxon 33: 339–351.<br />
Mugambi GK, Huhndorf SM (2009). Molecular phylogenetics <strong>of</strong> Pleosporales:<br />
Melanommataceae and Lophiostomataceae re-circumscribed<br />
(Pleosporomycetidae, Dothideomycetes, Ascomycota). <strong>Studies</strong> <strong>in</strong> <strong>Mycology</strong><br />
64: 103–121.<br />
Mukunya DM, Boothroyd CW (1973). Mycosphaerella zeae-maydis sp. n., <strong>the</strong><br />
sexual stage <strong>of</strong> Phyllosticta maydis. Phytopathology 63: 529–532.<br />
Müller E, Arx JA von (1962). Die Gattungen der didymosporen Pyrenomyceten.<br />
Beiträge zur Kryptogamenflora der Schweiz 11(2): 1–922.<br />
Munk A (1957). Danish Pyrenomycetes: a prelim<strong>in</strong>ary flora. Dansk botanisk Arkiv 17.<br />
Muthumeenakshi S, Goldste<strong>in</strong> AL, Stewart A, Wipps JM (2001). Molecular studies<br />
on <strong>in</strong>traspecific diversity and phylogenetic position <strong>of</strong> Coniothyrium m<strong>in</strong>itans.<br />
Mycological Research 105: 1065–1074.<br />
Nag Raj TR (1981). Coelomycete systematics. In: Biology <strong>of</strong> conidial fungi, vol 1.<br />
(Cole T, Kendrick WB, eds). Academic Press, New York, U.S.A.<br />
Naumann A, Navarro-González M, Sánchez-Hernández O, Hoegger PJ, Kües U<br />
(2007). Correct identification <strong>of</strong> wood-<strong>in</strong>habit<strong>in</strong>g fungi by ITS analysis. Current<br />
Trends <strong>in</strong> Biotechnology and Pharmacy 1: 41–61.<br />
58<br />
Nelsen MP, Lück<strong>in</strong>g R, Grube M, Mbatchou JS, Muggia L, et al. (2009). Unravell<strong>in</strong>g<br />
<strong>the</strong> phylogenetic relationships <strong>of</strong> lichenised fungi <strong>in</strong> Dothideomyceta. <strong>Studies</strong><br />
<strong>in</strong> <strong>Mycology</strong> 64: 135–144.<br />
Nguyen HDT, Seifert KA (2008). Description and DNA barcod<strong>in</strong>g <strong>of</strong> three new<br />
species <strong>of</strong> Leohumicola from South Africa and <strong>the</strong> United States. Persoonia<br />
21: 57–69.<br />
Nilsson RH, Ryberg M, Kristiansson E, Abarenkov K, Larsson K-H, Köljalg U (2006).<br />
Taxonomic reliability <strong>of</strong> DNA sequences <strong>in</strong> public sequence databases: a fungal<br />
perspective. PLoS One 1: e59.<br />
Nilsson RH, Kristiansson E, Ryberg M, Hallenberg N, Larsson K-H (2008).<br />
Intraspecific ITS variability <strong>in</strong> <strong>the</strong> k<strong>in</strong>gdom Fungi as expressed <strong>in</strong> <strong>the</strong><br />
<strong>in</strong>ternational sequence databases and its implications for molecular species<br />
identification. Evolutionary Bio<strong>in</strong>formatics Onl<strong>in</strong>e 4: 193–201.<br />
Noordeloos ME, Gruyter J de, Eijk GW van, Roeijmans HJ (1993). Production<br />
<strong>of</strong> dendritic crystals <strong>in</strong> pure cultures <strong>of</strong> Phoma and Ascochyta and its value<br />
as a taxonomic character relative to morphology, pathology and cultural<br />
characteristics. Mycological Research 97: 1343–1350.<br />
Nylander JAA (2004). MrModeltest v. 2.2. Program distributed by <strong>the</strong> author.<br />
Evolutionary Biology Centre, Uppsala University, Sweden.<br />
Obando-Rojas L (1989). Contribution à l’etude de l’ascochytose du haricot Phaseolus<br />
vulgaris L.: identification de souches fongiques en cause et recherché de<br />
sources de résistance au se<strong>in</strong> du genre Phaseolus. Ph.D. dissertation. Faculté<br />
universitaire des sciences agronomiques de Gembloux, Gembloux Agricultural<br />
University, Belgium.<br />
Onfroy C, Tivoli B, Corbiere R, Bouznad Z (1999). Cultural, molecular and<br />
pathogenic variability <strong>of</strong> Mycosphaerella p<strong>in</strong>odes and Phoma medicag<strong>in</strong>is var.<br />
p<strong>in</strong>odella isolates from dried pea (Pisum sativum) <strong>in</strong> France. Plant Pathology<br />
48: 218–229.<br />
Osterhage C, Schwibbe M, König GM, Wright AD (2000). Differences between<br />
mar<strong>in</strong>e and terrestrial Phoma species as determ<strong>in</strong>ed by HPLC-DAD and<br />
HPLC-MS. Phytochemical analysis 11: 288–294.<br />
Page RDM (1996). TREEVIEW: An application to display phylogenetic trees on<br />
personal computers. Computer Applications <strong>in</strong> <strong>the</strong> Biosciences 12: 357–358.<br />
Pande S, Siddique KHM, Kishore GK, Bayaa B, Gaur PM, Gowda CLL, Bretag<br />
TW, Crouch JH (2005). Ascochyta blight <strong>of</strong> chickpea (Cicer ariet<strong>in</strong>um L.): a<br />
review <strong>of</strong> biology pathogenicity, and disease management. Australian Journal<br />
<strong>of</strong> Agricultural Research 56: 317–332.<br />
Patel US, Pandey AK, Rajak RC. Chaetasbolisia <strong>in</strong>dica sp. nov. from India.<br />
Mycological Research 101: 335–336.<br />
Pawar VH, Mathur PN, Thirumalachar MJ (1967). Species <strong>of</strong> Phoma isolated from<br />
mar<strong>in</strong>e soils <strong>in</strong> India. Transactions <strong>of</strong> <strong>the</strong> British Mycological Society 50: 259–<br />
265.<br />
Pažoutová S (2009). Genetic variation <strong>of</strong> Phoma sorgh<strong>in</strong>a isolates from Sou<strong>the</strong>rn<br />
Africa and Texas. Folia Microbiologica 54: 217–229.<br />
Pedras MSC, Biesenthal CJ (2000). HPLC analyses <strong>of</strong> cultures <strong>of</strong> Phoma species:<br />
differentiation among groups and species through secondary metabolite<br />
pr<strong>of</strong>iles. Canadian Journal <strong>of</strong> Microbiology 46: 685–691.<br />
Peever TL, Barve MP, Stone LJ, Kaiser WJ (2007). Evolutionary relationships<br />
among Ascochyta species <strong>in</strong>fect<strong>in</strong>g wild and cultivated hosts <strong>in</strong> legume tribes<br />
Cicereae and Vicieae. Mycologia 99: 59–77.<br />
Pirozynski KA, Morgan-Jones G (1968). Notes on Micr<strong>of</strong>ungi. III. Transaction <strong>of</strong> <strong>the</strong><br />
British Mycological Society 51: 185–206.<br />
Pitt JI (1979). The genus Penicillium and its telemorphic states Eupenicillium and<br />
Talaromyces. Academic Press, London, U.K.<br />
Pitt JI, Samson RA (2007). Nomenclatural considerations <strong>in</strong> nam<strong>in</strong>g species <strong>of</strong><br />
Aspergillus and its teleomorphs. <strong>Studies</strong> <strong>in</strong> <strong>Mycology</strong> 59: 67–70.<br />
Pongam P, Osborn TC, Williams PH (1999). Assessment <strong>of</strong> genetic variation among<br />
Leptosphaeria maculans isolates us<strong>in</strong>g pathogenicity data and AFLP analysis.<br />
Plant Disease 83: 149–154.<br />
Punithal<strong>in</strong>gam E (1976). Phoma oculi-hom<strong>in</strong>is sp. nov. from corneal ulcer.<br />
Transactions <strong>of</strong> <strong>the</strong> British Mycological Society 67: 142–143.<br />
Punithal<strong>in</strong>gam E (1979a). Gram<strong>in</strong>icolous Ascochyta species. Mycological Papers<br />
142: 1–214.<br />
Punithal<strong>in</strong>gam E (1979b). Phoma caricae. CMI Descriptions <strong>of</strong> Pathogenic Fungi<br />
and Bacteria. No. 634.<br />
Punithal<strong>in</strong>gam E (1980). A comb<strong>in</strong>ation <strong>in</strong> Phoma for Ascochyta caricae-papayae.<br />
Transactions <strong>of</strong> <strong>the</strong> British Mycological Society 75: 340–341.<br />
Punithal<strong>in</strong>gam E, Tulloch M, Leach CM (1972). Phoma epicocc<strong>in</strong>a sp. nov. on<br />
Dactylis glomerata. Transactions <strong>of</strong> <strong>the</strong> British Mycological Society 59: 341–<br />
345.<br />
Purwantara A, Barr<strong>in</strong>s JM, Cozijnsen AJ, Ades PK, Howlett BJ (2000). Genetic<br />
diversity <strong>of</strong> isolates <strong>of</strong> <strong>the</strong> Leptosphaeria maculans species complex from<br />
Australia, Europe and North America us<strong>in</strong>g amplified fragment length<br />
polymorphism analysis. Mycological Research 104: 772–781.<br />
Rabie CJ, Rensburg SJ van, Watt JJ van der, Lubben A (1975). Onyalai - <strong>the</strong><br />
possible <strong>in</strong>volvement <strong>of</strong> a mycotox<strong>in</strong> produced by Phoma sorgh<strong>in</strong>a <strong>in</strong> <strong>the</strong><br />
aetiology. South African Medical Journal 57: 1647–1650.