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References (59)
-
T. Huo, Jaw‐Ching Wu, R. Lin, W. Sheng, F. Chang, Shou‐dong Lee (1997)
Decreasing hepatitis D virus infection in Taiwan: An analysis of contributory factorsJournal of Gastroenterology and Hepatology, 12
-
S. Stearns (1987)
The Evolution of Sex and its ConsequencesExperientia. Supplementum, 55
-
A. Leuchtmann, K. Clay (1997)
The Population Biology of Grass Endophytes -
H. Mühlberg (1970)
Wuchsformen der Gattung Brachypodium (Poaceae)Feddes Repertorium, 81
-
J. Bronstein (1994)
Our Current Understanding of MutualismThe Quarterly Review of Biology, 69
-
G. Latch, M. Christensen (1985)
Artificial infection of grasses with endophytesAnnals of Applied Biology, 107
-
L. Goodman (1968)
The Analysis of Cross-Classified Data: Independence, Quasi-Independence, and Interactions in Contingency Tables with or without Missing EntriesJournal of the American Statistical Association, 63
-
D. Hinton, C. Bacon (1985)
The distribution and ultrastructure of the endophyte of toxic tall fescueBotany, 63
-
Jaime Torres (1996)
Hepatitis B and hepatitis delta virus infection in South America.Gut, 38
-
H. Elbersen, C. West (1996)
Growth and water relations of field‐grown tall fescue as influenced by drought and endophyteGrass and Forage Science, 51
-
T. Bultman, James White, T. Bowdish, A. Welch, J. Johnston (1995)
Mutualistic transfer of Epichloe spermatia by Phorbia fliesMycologia, 87
-
C. Kimmons, K. Gwinn, E. Bernard (1990)
Nematode reproduction on endophyte-infected and endophyte-free tall fescue.Plant Disease, 74
-
P. Cunningham, J. Foot, K. Reed (1993)
Perennial ryegrass (Lolium perenne) endophyte (Acremonium lolii) relationships: the Australian experienceAgriculture, Ecosystems & Environment, 44
-
John Smith, N. Smith, M. O'rourke, B. Spratt (1993)
How clonal are bacteria?Proceedings of the National Academy of Sciences of the United States of America, 90
-
F. Al-Yaman, B. Genton, J. Reeder, R. Anders, T. Smith, M. Alpers (1997)
Reduced risk of clinical malaria in children infected with multiple clones of Plasmodium falciparum in a highly endemic area: a prospective community study.Transactions of the Royal Society of Tropical Medicine and Hygiene, 91 5
-
K. Chung, C. Schardl (1997)
Sexual cycle and horizontal transmission of the grass symbiont, Epichloë typhinaFungal Biology, 101
-
C. Bacon (1995)
Toxic endophyte-infected tall fescue and range grasses: historic perspectives.Journal of animal science, 73 3
-
D. Rowan (1993)
Lolitrems, peramine and paxilline: Mycotoxins of the ryegrass/endophyte interactionAgriculture, Ecosystems & Environment, 44
-
Robert May, Martin Nowak (1994)
Superinfection, metapopulation dynamics, and the evolution of diversity.Journal of theoretical biology, 170 1
-
C. Schardl, A. Leuchtmann, K. Chung, D. Penny, Siegel (1997)
Coevolution by Common Descent of Fungal Symbionts (Epichloe spp.) and Grass HostsMolecular Biology and Evolution, 14
-
J. White, A. Morrow, G. Morgan-Jones, D. Chambless (1991)
Endophyte-host associations in forage grasses. XIV : Primary stromata formation and seed transmission in Epichloe typhina : developmental and regulatory aspectsMycologia, 83
-
J. Western, J. Cavett (1959)
The choke disease of cocksfoot (Dactylis glomerata) caused by Epichloe typhina (Fr.) Tul.Transactions of The British Mycological Society, 42
-
D. Malinowski, A. Leuchtmann, D. Schmidt, J. Nösberger (1997)
Symbiosis with Neotyphodium uncinatum endophyte may increase the competitive ability of meadow fescueAgronomy Journal, 89
-
A. Leuchtmann, C. Schardl (1998)
Mating compatibility and phylogenetic relationships among two new species of Epichloë and other congeneric European species.Fungal Biology, 102
-
R. Shelby, L. Dalrymple (1987)
Incidence and distribution of the tall fescue endophyte in the United States.Plant Disease, 71
-
John Webster (1970)
Introduction to Fungi -
R. Christensen (1997)
Log-Linear Models and Logistic Regression -
C. Bacon, J. White (1994)
Biotechnology of Endophytic Fungi of Grasses -
A. Glenn, C. Bacon, R. Price, R. Hanlin (1996)
Molecular phylogeny of Acremonium and its taxonomic implications.Mycologia, 88
-
H. Tsai, J. Liu, C. Staben, M. Christensen, G. Latch, M. Siegel, C. Schardl (1994)
Evolutionary diversification of fungal endophytes of tall fescue grass by hybridization with Epichloë species.Proceedings of the National Academy of Sciences of the United States of America, 91 7
-
T. Bultman (1995)
MUTUALISTIC AND PARASITIC INTERACTIONS BETWEEN PHORBIA FLIES AND EPICHLOE : CONVERGENCE BETWEEN A FUNGUS AND ENTOMOPHILOUS ANGIOSPERMSBotany, 73
-
R. Welty, A. Craig, M. Azevedo (1994)
Variability of ergovaline in seeds and straw and endophyte infection in seeds among endophyte-infected genotypes of tall fescue.Plant Disease, 78
-
A. Brown, M. Feldman, Eviatar Nevo (1980)
Multilocus Structure of Natural Populations of HORDEUM SPONTANEUM.Genetics, 96 2
-
A. Day (1980)
Competition and Distribution Studies of Genetically Marked Strains of Ustilago violacea in the Same Host PlantBotanical Gazette, 141
-
C. Kedera, J. Leslie, L. Claflin (1994)
Genetic diversity of Fusarium section Liseola (Gibberella fujikuroi) in individual maize stalksPhytopathology, 84
-
L. Bush, H. Wilkinson, C. Schardl (1997)
Bioprotective Alkaloids of Grass-Fungal Endophyte Symbioses, 114
-
K. Clay (1990)
Fungal endophytes of grasses.Annual Review of Ecology, Evolution, and Systematics, 21
-
C. Hæggström, R. Skytén (1996)
Flowering and individual survival of a population of the grass Brachypodium sylvaticum in Nåtö, Åland Islands, SW Finland.Annales Botanici Fennici, 33
-
A. Leuchtmann (1994)
Isozyme relationships of Acremonium endophytes from twelve Festuca speciesFungal Biology, 98
-
K. Clay, S. Marks, G. Cheplick (1993)
Effects of insect herbivory and fungal endophyte infection on competitive interactions among grasses.Ecology, 74
-
J. White (1988)
Endophyte-host associations in forage grasses. XI: A proposal concerning origin and evolutionMycologia, 80
-
C. Schardl (1996)
EPICHLOE SPECIES: fungal symbionts of grasses.Annual review of phytopathology, 34
-
M. Nowak, R. May (1994)
Superinfection and the evolution of parasite virulenceProceedings of the Royal Society of London. Series B: Biological Sciences, 255
-
K. Gwinn, A. Gavin (1992)
Relationship between endophyte infestation level of tall fescue seed lots and Rhizoctonia zeae seedling diseasePlant Disease, 76
-
A. Fitter (1990)
The role of ecological significance of vesicular-arbuscular mycorrhizas in temperate ecosystemsAgriculture, Ecosystems & Environment, 29
-
J. White (1987)
Widespread Distribution of Endophytes in the PoaceaePlant Disease, 71
-
M. Nei (1972)
Genetic Distance between PopulationsThe American Naturalist, 106
-
M. Baird, E. Garber (1979)
Genetics of Ustilago violacea. V. Outcrossing and Selfing in Teliospore InoculaBotanical Gazette, 140
-
C. Ravel, Y. Michalakis, G. Charmet (1997)
The effect of imperfect transmission on the frequency of mutualistic seed-borne endophytes in natural populations of grassesOikos, 80
-
James White, T. Bultman (1987)
ENDOPHYTE‐HOST ASSOCIATIONS IN FORAGE GRASSES. VIII. HETEROTHALLISM IN EPICHLOË TYPHINAAmerican Journal of Botany, 74
-
J. Breen (1994)
ACREMONIUM ENDOPHYTE INTERACTIONS WITH ENHANCED PLANT RESISTANCE TO INSECTSAnnual Review of Entomology, 39
-
E. Bucheli, A. Leuchtmann (1996)
EVIDENCE FOR GENETIC DIFFERENTIATION BETWEEN CHOKE‐INDUCING AND ASYMPTOMATIC STRAINS OF THE EPICHLOË GRASS ENDOPHYTE FROM BRACHYPODIUM SYLVATICUMEvolution, 50
-
A. Leuchtmann, K. Clay (1988)
ATKINSONELLA HYPOXYLON AND BALANSIA CYPERI, EPIPHYTIC MEMBERS OF THE BALANSIAEMycologia, 80
-
S. Buttò, C. Argentini, Mazzella Am, Iannotti Mp, P. Leone, A. Nicolosi, G. Rezza (1997)
Dual infection with different strains of the same HIV-1 subtype.AIDS, 11 5
-
D. Soltis, C. Haufler, D. Darrow, G. Gastony (1983)
Starch Gel Electrophoresis of Ferns: A Compilation of Grinding Buffers, Gel and Electrode Buffers, and Staining SchedulesAmerican Fern Journal, 73
-
C. Ingold (1948)
The water-relations of spore discharge in EpichloeTransactions of The British Mycological Society, 31
-
R. Schuster, R. Sikora, N. Amin (1995)
Potential of endophytic fungi for the biological control of plant parasitic nematodes -
James White, T. Martin, D. Cabral (1996)
ENDOPHYTE-HOST ASSOCIATIONS IN GRASSES. XXII. CONIDIA FORMATION BY ACREMONIUM ENDOPHYTES ON THE PHYLLOPLANES OF AGROSTIS HIEMALIS AND POA RIGIDIFOLIAMycologia, 88
-
W. Diehl (1950)
Balansia and the Balansiae in America., 4
- Publisher
- Wiley
- Copyright
- Copyright © 1999 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0028-646X
- eISSN
- 1469-8137
- DOI
- 10.1046/j.1469-8137.1999.00332.x
- Publisher site
- See Article on Publisher Site
Abstract
Endophytes of the genus Epichloë (Clavicipitaceae, Ascomycota) are systemic symbionts of cool‐season grasses. Their interactions with grass hosts may vary between mutualistic and pathogenic depending on the mode of endophyte reproduction. Sexual strains prevent flowering and seed set (choke disease) of the host and can be horizontally transmitted by ascospores, while asexual strains remain asymptomatic and are vertically transmitted through seeds. In Switzerland nearly all plants of Brachypodium sylvaticum (Huds.) P.B. are infected by Epichloë sylvatica Leuchtmann & Schardl, but choke symptoms are formed very rarely, and are restricted to particular locations and to a minority of plants at those locations. Earlier research has revealed that E. sylvatica is genetically differentiated into sexual and asexual subpopulations. Given the high level of infection and assuming horizontal transmission of sexual strains, multiple host infections have been predicted. In this study, 25 plants out of 63 examined by isozyme analysis were found to be infected by two or three different endophyte genotypes. In most cases endophyte genotypes appeared to be correlated with the symptom type of a particular tiller, suggesting that the fungal genome controls choke formation and that the sexual and asexual subpopulations are separated at the ramet (tiller) level rather than at the genet (plant) level. These conclusions were further supported by analyses with log‐linear models of the population structure of E. sylvatica at four locations where choke symptoms were present. These analyses also revealed a geographic structure in the asexual subpopulation but not in the sexual subpopulation which could be caused by the different dispersal ranges of their propagules. The rare occurrence of sexually reproducing strains and the dominance of a single genotype in asymptomatic plant populations may be explained by the colonization history of B. sylvaticum and its endophyte in Switzerland.
Journal
New Phytologist – Wiley
Published: Feb 1, 1999
Keywords: ; ; ; ; ; ;