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Soil Science and Plant Nutrition Volume 53, 2007 - Issue 2
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Original article

14C ages and δ13C of sclerotium grains found in forest soils

Makiko Watanabe Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of TechnologyCorrespondence[email protected]
,
Hiroyuki Sato Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology
,
Hiroyuki Matsuzaki Research Center for Nuclear Science Technology, University of Tokyo
,
Takayuki Kobayashi Research Institute for Environmental Management Technology, National Institute of Advanced Industrial Science and Technology
,
Nobuo Sakagami Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology
,
Yuji Maejima National Institute for Agro-Environmental Sciences
,
Hiroyuki Ohta School of Agriculture, Ibaraki University
,
Nobuhide Fujitake Faculty of Agriculture, Kobe University
&
Syuntaro Hiradate National Institute for Agro-Environmental Sciences
 show all
Pages 125-131 | Received 26 Feb 2006, Accepted 11 Dec 2006, Published online: 17 Dec 2010

Citations (19)

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Khulan Nyamsanjaa, Bolormaa Oyuntsetseg, Yusuke Takashima, Nobuo Sakagami & Makiko Watanabe. (2022) Characteristics of Cenococcum geophilum sclerotia found in steppe forest soil in Mongolia. Journal of Forest Research 27:1, pages 76-82.
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Khulan Nyamsanjaa, Makiko Watanabe, Nobuo Sakagami & Bolormaa Oyuntsetseg. (2021) Metal accumulation in sclerotium grains collected from low pH forest soils. Journal of Environmental Science and Health, Part A 56:3, pages 303-309.
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Takayuki Kobayashi, Craig Rasmussen & Hiroaki Sumida. (2019) Characterization of the perylenequinone pigments in Japanese Andosols and Cambisol. Soil Science and Plant Nutrition 65:1, pages 1-10.
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Yuki Sugiura, Makiko Watanabe, Yaya Nonoyama, Nobuo Sakagami, Yong Guo & Shigetoshi Murayama. (2017) Saccharides of ectomycorrhizal fungal sclerotia as sources of forest soil polysaccharides. Soil Science and Plant Nutrition 63:5, pages 426-433.
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Articles from other publishers (15)

Benjamin Dauphin, Maíra Freitas Pereira, Annegret Kohler, Igor V. Grigoriev, Kerrie Barry, Hyunsoo Na, Mojgan Amirebrahimi, Anna Lipzen, Francis Martin, Martina Peter & Daniel Croll. (2021) Cryptic genetic structure and copy‐number variation in the ubiquitous forest symbiotic fungus Cenococcum geophilum . Environmental Microbiology 23:11, pages 6536-6556.
Crossref
Nobuo Sakagami & Sayuri Kato. 2021. Sclerotia Grains in Soils. Sclerotia Grains in Soils 153 172 .
Makiko Watanabe, Nobuo Sakagami & Kiminori Tonosaki. 2021. Sclerotia Grains in Soils. Sclerotia Grains in Soils 119 137 .
Shigetoshi Murayama & Yuki Sugiura. 2021. Sclerotia Grains in Soils. Sclerotia Grains in Soils 91 117 .
Christopher W. Fernandez, J. Adam Langley, Samantha Chapman, M. Luke McCormack & Roger T. Koide. (2016) The decomposition of ectomycorrhizal fungal necromass. Soil Biology and Biochemistry 93, pages 38-49.
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Nadejda A. Soudzilovskaia, Marcel G. A. Heijden, Johannes H. C. Cornelissen, Mikhail I. Makarov, Vladimir G. Onipchenko, Mikhail N. Maslov, Asem A. Akhmetzhanova & Peter M. Bodegom. (2015) Quantitative assessment of the differential impacts of arbuscular and ectomycorrhiza on soil carbon cycling. New Phytologist 208:1, pages 280-293.
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Laura M. Suz, Nadia Barsoum, Sue Benham, Chris Cheffings, Filipa Cox, Louise Hackett, Alan G. Jones, Gregory M. Mueller, David Orme, Walter Seidling, Sietse Van Der Linde & Martin I. Bidartondo. (2015) Monitoring ectomycorrhizal fungi at large scales for science, forest management, fungal conservation and environmental policy. Annals of Forest Science 72:7, pages 877-885.
Crossref
Roger T. Koide, Christopher Fernandez & Glenna Malcolm. (2013) Determining place and process: functional traits of ectomycorrhizal fungi that affect both community structure and ecosystem function. New Phytologist 201:2, pages 433-439.
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Kosuke Ikeya, Rachel L. Sleighter, Patrick G. Hatcher & Akira Watanabe. (2013) Fourier transform ion cyclotron resonance mass spectrometric analysis of the green fraction of soil humic acids. Rapid Communications in Mass Spectrometry 27:22, pages 2559-2568.
Crossref
John W.G. Cairney. (2012) Extramatrical mycelia of ectomycorrhizal fungi as moderators of carbon dynamics in forest soil. Soil Biology and Biochemistry 47, pages 198-208.
Crossref
Nobuo SAKAGAMI, Ayumi SATO, Nobuko KODAKA, Makiko WATANABE & Kazuhiko NARISAWA. (2012) A Trial Study of a Nature Observation Program Using Sclerotia from Forest Soils. Environmental Education 22:1, pages 1_67-72.
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H. Visscher, M. A. Sephton & C. V. Looy. (2011) Fungal virulence at the time of the end-Permian biosphere crisis?. Geology 39:9, pages 883-886.
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Nicholas Pinter, Andrew C. Scott, Tyrone L. Daulton, Andrew Podoll, Christian Koeberl, R. Scott Anderson & Scott E. Ishman. (2011) The Younger Dryas impact hypothesis: A requiem. Earth-Science Reviews 106:3-4, pages 247-264.
Crossref
Andrew C. Scott, Nicholas Pinter, Margaret E. Collinson, Mark Hardiman, R. Scott Anderson, Anthony P. R. Brain, Selena Y. Smith, Federica Marone & Marco Stampanoni. (2010) Fungus, not comet or catastrophe, accounts for carbonaceous spherules in the Younger Dryas “impact layer”. Geophysical Research Letters 37:14, pages n/a-n/a.
Crossref
SAKAGAMI Nobuo. (2010) Analysis on Formation Factor of Sclerotia of Cenococcum geophilum in Picea abies Forest, Harz Mts., Germany. Geographical review of Japan series B 82:2, pages 184-195.
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