Overview

This book introduces what sclerotia grains are, and where and how they exist in soils, by compiling the results obtained from the studies on fungal sclerotia formed by Cenococcum geophilum (Cg) and related species, the visible black small grains persistent for a few thousand to ten thousands of years in forest soils and sediments. The chapters contain the results and discussions on the ecological distribution and regulating factors, characteristics, and function of Cg sclerotia grains, carried out by researchers from soil geography, soil science, soil microbiology, physiology, forestry, analytical chemistry, environmental chemistry, material science, and related disciplines. The anatomy of sclerotia grains in soil was realized in terms of interdisciplinary joint researches, which resulted in deepening understanding of the ecological function of the mesoscale organic component in soils. This book covers the natural history of sclerotia in soils, pedo-sclerotiology.

Full Product Details

Author:   Makiko Watanabe
Publisher:   Springer Verlag, Singapore
Imprint:   Springer Verlag, Singapore
Edition:   1st ed. 2021
Weight:   0.355kg
ISBN:  

9789813342545

ISBN 10:   9813342544
Pages:   212
Publication Date:   13 February 2022
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Chapter 1  Introduction  10p 1-1       What are sclerotium grains? 1-2       Cenococcum geophilum and sclerotia  1-3       Sclerotium grain studies in Earth Science  PART I  Chemical and Physical Properties of Sclerotium Grains  90p Chapter 2 Major and minor elemental composition  SEM-EDS, EPMA, PIXE, C-NMR, FT-IR, Al-NMR, TEM-EDX   Watanabe and Bolormaa Chapter 3 Life age of Cg sclerotia   14C age and stable isotope ratioδ13C  Watanabe Chapter 4 Existing amount and strength properties of sclerotium grains  Sakagami Chapter 5 Carbon decomposition and Al enrichment  Watanabe, Sakagami Chapter 6 Micromorphology in sclerotium grains (Boemite, opaline silica)  Watanabe Chapter 7 Heavy metal concentration in sclerotia grains    Watanabe and Bolormaa   Part II  Biological Properties of Sclerotium Grains  80p Chapter 8 Fungal communities in sclerotia  Nonoyama & Narisawa& Amasya Chapter 9 Sclerotia and Soil Anthropods -Niche differentiation of fungivorous Acari and Collembola in Japanese beech forest soils-  Amasya  Chapter 10 Bacterial communities in sclerotia  Sphingomonas and Ralstonia picketti  Ohta Chapter 11 Sclerotium grains as Microbial carrier in soil   Nonoyama   Part III  Ecological Distribution of Sclerotium Grains  90p Chapter 12 Active aluminum status as regulating factor of sclerotium distribution  Myoko,Podzols, Braunerde  Harz mts. Germany   Watanabe Chapter 13 Altitudinal and seasonal distribution of sclerotia grains  Sakagami Chapter 14 Micro-topographical distribution of sclerotia grains in Picea abies forest, Harz Mts.   Sakagami Chapter 15 Forest stand structure and sclerotium grains, Mt. Chokai, Central Japan  Guo    Chapter 16  Conclusion  5p   A Mesoscale component in Soil >>>>> Function of Vital Soil    Watanabe

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Author Information

Makiko Watanabe is a professor of soil geography in the Department of Geography, the Graduate School of Urban Environmental Sciences, Tokyo Metropolitan University, Japan (2008–present), and she was a professor at the Department of Environmental Science and Technology, the Graduate School of Interdisciplinary Science and Engineering, Tokyo Institute of Technology (2002–2010). She served as a program officer of the Japan Society for the Promotion of Science (2009–2012), a member of the Science Council of Japan (2006–2014), and currently is a member of the National Research and Development Agency Council of the Ministry of Agriculture, Forestry and Fisheries (2015–present). She was a visiting scholar at the Godwin Laboratory, the University of Cambridge (1998), a visiting professor at the Department of Historical Ecology, Krasnoyarsk State University (2000), and a visiting professor at the Department of Geography and Environmental Studies, University of Regina (2016). Based on her abundant field experiences in the Philippines, Germany, Egypt, Canada, and Mongolia, she has a broad view of understanding the time and space of soil environment and individual land history. Her research achievements are specialized in long-term circulation of soil substances and nature–human systems in regional environments, which provide basic knowledge of potentiality and limitation of homeostasis in terrestrial earth and feasible strategies for sustainable development.

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