Xylariaceae

Known as: Sphaeriaceae

National Institutes of Health

Papers overview

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Highly Cited

2017

Highly Cited

2017

Towards a natural classification and backbone tree for Graphostromataceae, Hypoxylaceae, Lopadostomataceae and Xylariaceae

D. A. Daranagama, K. Hyde, +9 authors M. Stadler
Fungal Diversity
2017

Corpus ID: 37523442

Species and generic recognition in the order Xylariales has been uncertain due to lack of molecular data from authentic cultures… Expand

2016

Phylogenetic and chemotaxonomic resolution of the genus Annulohypoxylon (Xylariaceae) including four new species

Eric Kuhnert, E. B. Sir, +5 authors M. Stadler
Fungal Diversity
2016

Corpus ID: 34212831

This study deals with an extensive evaluation focusing on phylogenetic and chemotaxonomic infrageneric relationships of the genus… Expand

Highly Cited

2015

Highly Cited

2015

Anthostomella is polyphyletic comprising several genera in Xylariaceae

D. A. Daranagama, E. Camporesi, +4 authors K. Hyde
Fungal Diversity
2015

Corpus ID: 14458677

Anthostomella has long been regarded as a large, but polyphyletic genus in the family Xylariaceae, but species in this group… Expand

Highly Cited

2013

Highly Cited

2013

The Xylariaceae as model example for a unified nomenclature following the “One Fungus-One Name” (1F1N) concept

M. Stadler, Eric Kuhnert, D. Peršoh, J. Fournier
2013

Corpus ID: 54750131

The introduction of a One Fungus-One Name (1F1N) concept has led to intensive discussions among taxonomists. Based on the… Expand

2013

Endophytic Xylariaceae from the forests of Western Ghats, southern India: distribution and biological activities

M. B. Govinda Rajulu, N. Thirunavukkarasu, A. Babu, A. Aggarwal, T. S. Suryanarayanan, M. Reddy
2013

Corpus ID: 83573319

The distribution of Xylaria endophytes in the leaves of 22 tree species of a dry thorn forest and 27 tree species of a stunted… Expand

Highly Cited

2011

Highly Cited

2011

Importance of secondary metabolites in the Xylariaceae as parameters for assessment of their taxonomy, phylogeny, and functional biodiversity

M. Stadler
2011

Corpus ID: 56321146

This paper constitutes a synopsis of our polythetic studies of the Xylariaceae, which was originally compiled in the course of a… Expand

2009

Ruwenzoria, a new genus of the Xylariaceae from Central Africa

M. Stadler, J. Fournier, T. Læssøe, C. Decock, D. Peršoh, G. Rambold
Mycological Progress
2009

Corpus ID: 20628492

During a foray to the mountain rainforests of the Democratic Republic of the Congo, a peculiar species of Xylariaceae was found… Expand

Highly Cited

2008

Highly Cited

2008

Affinities of Phylacia and the daldinoid Xylariaceae, inferred from chemotypes of cultures and ribosomal DNA sequences.

J. Bitzer, T. Laessøe, +6 authors M. Stadler
Mycological research
2008

Corpus ID: 207057988

A chemotaxonomic evaluation using hplc profiling was undertaken to resolve the infrageneric and intergeneric affinities of over… Expand

2004

Cyclic azaphilones daldinins E and F from the ascomycete fungus Hypoxylon fuscum (Xylariaceae).

D. N. Quang, T. Hashimoto, Masami Tanaka, M. Stadler, Y. Asakawa
Phytochemistry
2004

Corpus ID: 12746142

Phytochemical examination of the methanolic extract of fruit bodies of the Xylariaceous ascomycete fungus Hypoxylon fuscum led to… Expand

1997

Notes on and additions to the Niessliaceae (Hypocreales)

G. Samuels, M. E. Barr
1997

Corpus ID: 86171560

The ascomycete family Niessliaceae presently includes the genera Cryptoniesslia, Melanopsamma, Niesslia, Taiwanascus… Expand