TY - JOUR
T1 - Systematics of Mycosphaerella species associated with the invasive weed Fallopia japonica, including the potential biological control agent M. polygoni-cuspidati
AU - Kurose, Daisuke
AU - Evans, Harry C.
AU - Djeddour, Djamila H.
AU - Cannon, Paul F.
AU - Furuya, Naruto
AU - Tsuchiya, Kenichi
N1 - Funding Information:
Acknowledgments This work was undertaken within a project (VM03021) funded by a consortium made up of the Environment Agency, Network Rail, British Waterways, Welsh Assembly Government, South West of England Regional Development Agency and Defra (Department of Environment Food and Rural Affairs) all co-ordinated through Cornwall County Council. The quarantine studies were undertaken under Defra license no. PHL 182/4869. This study was also supported by a Grant-in-Aid for JSPS Fellows (No. 19-9902) and Scientific Research (No. 19580049) from the Japan Society for the Promotion of Science. The first author wishes to express his personal thanks to Dr. Masaru Matsumoto for his valuable suggestions during this study, and finally, the authors also thank Professor Masami Takagi and Ms. Yuko Inoue for their help in collecting samples.
PY - 2009/5
Y1 - 2009/5
N2 - Native to Japan, Fallopia japonica, most frequently referred to as Japanese knotweed, is a highly problematic invasive weed, particularly in the UK and North America. During surveys for natural enemies of this plant in Japan, two species of Mycosphaerella were collected. One of these was identified as M. polygoni-cuspidati, and is redescribed and neotypified. Causing a damaging leaf spot disease of F. japonica throughout its natural range in Japan, it is absent from the host's exotic range. The restriction of M. polygoni-cuspidati to F. japonica in its center of origin, together with its severe impact on host fitness, indicates that this is a coevolved natural enemy with high potential as a classical biological control agent for the long-term management of this ecologically and economically important weed. In the field, the fungus has a reduced life cycle, with only spermogonia and pseudothecia (ascomata) being formed. Ascospores are the primary source of infection, and studies show that the mycelium from in vitro cultures is also infective and hyphae penetrate mainly via the stomata. A further, undescribed species of Mycosphaerella co-occurs with M. polygoni-cuspidati, here proposed as the new species M. shimabarensis. Both species have been studied using cultural, morphological and molecular phylogenetic methods.
AB - Native to Japan, Fallopia japonica, most frequently referred to as Japanese knotweed, is a highly problematic invasive weed, particularly in the UK and North America. During surveys for natural enemies of this plant in Japan, two species of Mycosphaerella were collected. One of these was identified as M. polygoni-cuspidati, and is redescribed and neotypified. Causing a damaging leaf spot disease of F. japonica throughout its natural range in Japan, it is absent from the host's exotic range. The restriction of M. polygoni-cuspidati to F. japonica in its center of origin, together with its severe impact on host fitness, indicates that this is a coevolved natural enemy with high potential as a classical biological control agent for the long-term management of this ecologically and economically important weed. In the field, the fungus has a reduced life cycle, with only spermogonia and pseudothecia (ascomata) being formed. Ascospores are the primary source of infection, and studies show that the mycelium from in vitro cultures is also infective and hyphae penetrate mainly via the stomata. A further, undescribed species of Mycosphaerella co-occurs with M. polygoni-cuspidati, here proposed as the new species M. shimabarensis. Both species have been studied using cultural, morphological and molecular phylogenetic methods.
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U2 - 10.1007/s10267-008-0471-z
DO - 10.1007/s10267-008-0471-z
M3 - Article
AN - SCOPUS:67449122457
SN - 1340-3540
VL - 50
SP - 179
EP - 189
JO - Mycoscience
JF - Mycoscience
IS - 3
ER -