Effects of root mass and soil carbon stocks in old awn grasslands after artificial afforestation and grassland regeneration.

Kato, Taku; Haruko Saito; Mahoro Tomitaka; Hiroki Asada; Gaku Hirayama; Hiroko Kurokawa; Atsushi Ushimaru; Kenta Tanaka

doi:10.51094/jxiv.799

##article.authors##

Kato, Taku Tokyo University of Agriculture, Faculty of Applied Biosciences, Department of Agricultural Chemistry
Haruko Saito Tokyo University of Agriculture, Faculty of Applied Biosciences, Department of Agricultural Chemistry
Mahoro Tomitaka University of Tsukuba, Graduate School of Life and Environmental Sciences
Hiroki Asada Kumamoto University, Faculty of Advanced Science and Technology
Gaku Hirayama Kobe University, Graduate School of Human Development and Environment
Hiroko Kurokawa Forestry and Forest Products Research Institute, Department of Forest Vegetation
Atsushi Ushimaru Kobe University, Graduate School of Human Development and Environment
Kenta Tanaka University of Tsukuba, Graduate School of Life and Environmental Sciences

DOI:

https://doi.org/10.51094/jxiv.799

キーワード:

land use change、 Soil carbon storage、 Plant roots、 Grassland

抄録

Recent years have seen an increase in frequent, large-scale landslides causing significant damage annually. Traditionally, forests were believed better than grasslands at controlling landslides due to their deeper roots. However, recent research (Koyanagi et al., 2018) suggests that forests may actually experience deeper collapses and produce more sediment due to their greater root depth. A study conducted in Japan's Minonohara Highlands Plateau compared 'old grasslands' (maintained for over 100 years), 'forests' planted post-war, and 'new grasslands' (forests cleared less than 100 years ago). Various methods, including soil cross-sections and core samples, were used to assess root mass and soil carbon stocks. Results indicated that grasslands generally had more surface roots and potentially lower landslide susceptibility compared to forests. A novel soil carbon assessment method, accounting for roots, was proposed for improved accuracy, particularly in surface layers. Borehole and cross-sectional sampling methods showed similar efficiency in assessing root volume, suggesting practical options for future assessments.

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It does not constitute a conflict of interest.

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引用文献

Sidle, Roy C. and Ochiai, H. (2006) Landslides: processes, prediction, and land use, Vol. 18. American Geophysical Union: 312pp.