• Mycobiology
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• v.38 no.3
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• pp.159-165
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• 2010

We conducted a species diversity study of the hypogeous Ascomycetes of Israel. The hypogeous Ascomycetes in Israel include members of the families Pyronemataceae, Pezizaceae, and Tuberaceae, which are represented by seven species: Hydnocystis piligera, Terfezia arenaria, T. claveryi, T. oligosperma, Tirmania africana, Tuber asa, and T. nitidum; only T. asa is new to Israeli mycobiota. Synonymy, locations, collection data, general distribution, distribution in Israel, descriptions, a key to identification, illustrations, and taxonomic remarks are provided.

• The Korean Journal of Mycology
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• v.23 no.1 s.72
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• pp.10-13
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• 1995

The hypogeous ascomycete, Tuber aestivum subsp. uncinatum was isolated and identified for the first time in Korea from Quercus forest soil in Kyeryong-san National Park in August, 1992. The fungus is reported here with Korean name and English description. The specimen cited is deposited in herbarium of Department of Microbiology, Taejon University.

• The Korean Journal of Mycology
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• v.28 no.2
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• pp.118-120
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• 2000

• Journal of Practical Agriculture & Fisheries Research
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• v.8 no.1
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• pp.55-62
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• 2006

Certain European truffles including Tuber melanosporum (Perigord black truffle) and T. aestivum(Burgundy truffle), are valuable food commodities, selling for hundreds of dollars per kilogram worldwide. These underground(hypogeous) mushrooms may become profitable agroforestry crops in the south-central United States. Native to Europe, T. melanosporum and T. aestivum are being cultivated to a limited extent and with mixed results in New Zealand and the United States. Tuber species grow mutualistically as ectomycorrhizae with the roots of compatible host trees including white and evergreen oaks(Quercus spp.) and hazels(Corylus spp.). Tuber melanosporum and T. aestivum have environmental requirements compatible with conductive sites in the south central US. Climatic and edaphic conditions for cultivating T. melanosporum are more constraining, but T. melanosporum also commands a much higher price.

• Journal of Korean Society of Forest Science
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• v.87 no.4
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• pp.519-527
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• 1998

An economic study of vegetation control to increase production of Songyi (Korean name far pine mushroom, matsutake, Tracholoma matsutake (S. Ito & Imai) Sing.) in red pine (Panes densiflora) stands in Korea was undertaken. In Korea, Songyi grows only in red pine stands. Harvest of this mushroom provides a significant income source to rural people in Korea yielding exports of US$20 million to US$80 million per year. However, hypogeous Songyi colonies and the mushroom production are declining, partly because shade tolerant species are succeeding the shade intolerant red pine. Past research says that it is possible to deep Songyi production increasing by controlling under-story vegetation. But few people are wilting to invest in the necessary control. Our analysis found that the economics of vegetation control appear to be quite favorable, showing an internal rate of return (IRR) of 20.7 percent in 15 years. However, positive returns do not occur for at least eight years and even then, the returns may not appear to the landowner to be a result of vegetation control efforts only because the mushroom production has been greatly variable depending on weather conditions. In a sensitivity analysis, it was found that the number of circular mushroom colonies was critically important for the cash flow. Results of this analysis are also sensitive to assumptions about annual growth length(0.16m radial growth=1.0m/circular length growth) of Songyi colony. However, the primary goal of vegetation control should be to keep the young colonies growing. Further research in the behavior of hypogeous Songyi colonies after vegetation control would help to improve our confidence in the results.

• Journal of Korean Society of Forest Science
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• v.89 no.3
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• pp.389-396
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• 2000

To determine whether the Tricholoma matsutake (pine mushroom, Songyi) is symbiotic or parasitic to Pinus densiflora, structural change in their natural ectomycorrhizas were examined. The mycorrhizal samples were collected at three progressional points in the natural hypogeous colony(shiro) : colony front edge, near the fruiting point and 20cm back. The fine roots in the colonies were typical ectomycorrhizas with fungal mantle and Hartig net. However, the T. matsutake mycorrhizas had unique characteristics compared to other types of ectomycorrhizas. That is, spatially the fungal mantle and Hartig net of the T. matsutake mycorrhizas continued to develop along the growing tip, while temporally those structures declined to shrink changing to black brown in the older part of the roots behind the actively growing tip portion. However, there was no mark that the fungal hyphae penetrated into either the cortical cells, endodermal cell layers or stele. The apical tips of the blackened roots remained alive to form new mycorrhizas with other fungi later. Therefore, we conclude that the mycorrhiza of T. matsutake+P. densiflora is rather a dynamic symbiosis that changes its position spatiotemporally as the root grows than either a simple parasitism or symbiosis.