@ARTICLE{TreeBASE2Ref15364,
author = {Ove Erik Eriksson and David L. Hawksworth},
title = {Saccharicola, a new genus for two Leptosphaeria species on sugar cane.},
year = {2003},
keywords = {ascomycetes; Leptosphaeria bicolor; Massarinaceae; phylogeny; Pleosporales; SSU rDNA; morphology},
doi = {},
url = {http://www.mycologia.org/cgi/content/abstract/95/3/426},
pmid = {},
journal = {Mycologia},
volume = {95},
number = {3},
pages = {426--433},
abstract = {Leptosphaeria bicolor, causal agent of a leaf scorch disease of sugar cane, is referred to the new genus Saccharicola. The ascospores are 1?3 transseptate and hyaline at first but become melanized and rough after release, as is the case in some members of Massarina and Lophiostoma. SSU rDNA data indicate that it is closely related to M. eburnea but is biotrophic in leaves of sugar cane and not corticolous, the ascomata are less melanized, and it has Stagonospora- and Phoma-like synanamorphs, not a Ceratophoma-like anamorph. A second species, Leptosphaeria taiwanensis, is transferred to Saccharicola. It differs in slightly larger, normally 1-septate, hyaline spores with more attenuated ends. The family Massarinaceae is resurrected to accommodate Massarina s. str., Keissleriella, Saccharicola and Helminthosporium. These genera formed a clade with 100% bootstrap support in a parsimony analysis of SSU rDNA sequences from 38 ascomycetes, 30 of them members of Pleosporales (including Melanommatales).}
}
Citation for Study 980
Citation title:
"Saccharicola, a new genus for two Leptosphaeria species on sugar cane.".
This study was previously identified under the legacy study ID S865
(Status: Published).
Citation
Eriksson O., & Hawksworth D. 2003. Saccharicola, a new genus for two Leptosphaeria species on sugar cane. Mycologia, 95(3): 426-433.
Authors
-
Eriksson O.
-
Hawksworth D.
Abstract
Leptosphaeria bicolor, causal agent of a leaf scorch disease of sugar cane, is referred to the new genus Saccharicola. The ascospores are 1?3 transseptate and hyaline at first but become melanized and rough after release, as is the case in some members of Massarina and Lophiostoma. SSU rDNA data indicate that it is closely related to M. eburnea but is biotrophic in leaves of sugar cane and not corticolous, the ascomata are less melanized, and it has Stagonospora- and Phoma-like synanamorphs, not a Ceratophoma-like anamorph. A second species, Leptosphaeria taiwanensis, is transferred to Saccharicola. It differs in slightly larger, normally 1-septate, hyaline spores with more attenuated ends. The family Massarinaceae is resurrected to accommodate Massarina s. str., Keissleriella, Saccharicola and Helminthosporium. These genera formed a clade with 100% bootstrap support in a parsimony analysis of SSU rDNA sequences from 38 ascomycetes, 30 of them members of Pleosporales (including Melanommatales).
Keywords
ascomycetes; Leptosphaeria bicolor; Massarinaceae; phylogeny; Pleosporales; SSU rDNA; morphology
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S980
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15364,
author = {Ove Erik Eriksson and David L. Hawksworth},
title = {Saccharicola, a new genus for two Leptosphaeria species on sugar cane.},
year = {2003},
keywords = {ascomycetes; Leptosphaeria bicolor; Massarinaceae; phylogeny; Pleosporales; SSU rDNA; morphology},
doi = {},
url = {http://www.mycologia.org/cgi/content/abstract/95/3/426},
pmid = {},
journal = {Mycologia},
volume = {95},
number = {3},
pages = {426--433},
abstract = {Leptosphaeria bicolor, causal agent of a leaf scorch disease of sugar cane, is referred to the new genus Saccharicola. The ascospores are 1?3 transseptate and hyaline at first but become melanized and rough after release, as is the case in some members of Massarina and Lophiostoma. SSU rDNA data indicate that it is closely related to M. eburnea but is biotrophic in leaves of sugar cane and not corticolous, the ascomata are less melanized, and it has Stagonospora- and Phoma-like synanamorphs, not a Ceratophoma-like anamorph. A second species, Leptosphaeria taiwanensis, is transferred to Saccharicola. It differs in slightly larger, normally 1-septate, hyaline spores with more attenuated ends. The family Massarinaceae is resurrected to accommodate Massarina s. str., Keissleriella, Saccharicola and Helminthosporium. These genera formed a clade with 100% bootstrap support in a parsimony analysis of SSU rDNA sequences from 38 ascomycetes, 30 of them members of Pleosporales (including Melanommatales).}
}
- Show RIS reference
TY - JOUR
ID - 15364
AU - Eriksson,Ove Erik
AU - Hawksworth,David L.
T1 - Saccharicola, a new genus for two Leptosphaeria species on sugar cane.
PY - 2003
KW - ascomycetes; Leptosphaeria bicolor; Massarinaceae; phylogeny; Pleosporales; SSU rDNA; morphology
UR - http://www.mycologia.org/cgi/content/abstract/95/3/426
N2 - Leptosphaeria bicolor, causal agent of a leaf scorch disease of sugar cane, is referred to the new genus Saccharicola. The ascospores are 1?3 transseptate and hyaline at first but become melanized and rough after release, as is the case in some members of Massarina and Lophiostoma. SSU rDNA data indicate that it is closely related to M. eburnea but is biotrophic in leaves of sugar cane and not corticolous, the ascomata are less melanized, and it has Stagonospora- and Phoma-like synanamorphs, not a Ceratophoma-like anamorph. A second species, Leptosphaeria taiwanensis, is transferred to Saccharicola. It differs in slightly larger, normally 1-septate, hyaline spores with more attenuated ends. The family Massarinaceae is resurrected to accommodate Massarina s. str., Keissleriella, Saccharicola and Helminthosporium. These genera formed a clade with 100% bootstrap support in a parsimony analysis of SSU rDNA sequences from 38 ascomycetes, 30 of them members of Pleosporales (including Melanommatales).
L3 -
JF - Mycologia
VL - 95
IS - 3
SP - 426
EP - 433
ER -