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Impact of farmland reclamation on soil distribution in Japan: the case of Andosols in Nagano Prefecture

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Abstract

Purpose

In modern times, farmlands in Japan have been reconstructed at a large-scale through the cutting and filling of soils. In principle, such reconstruction should be carried out with a minimum amount of soil transportation to decrease environmental impacts and cost, and the soil distribution and properties should be determined by the subsequent reclamation process. To assess this issue, we attempted to evaluate the impacts of farmland reclamation on soil distributions in Japan.

Materials and methods

Farmland soil in the reconstructed area was surveyed from a pedological perspective using geographic information system (GIS) data. To enable a simple comparison of topsoil thickness and soil distribution before and after farmland reclamation, we selected survey soils classified as “High-humic Cumulic Allophanic Andosols” under the Japanese soil classification system, which are more than 50 cm in thickness in the Melanic horizon. Changes in the thickness of the topsoil were evaluated by direct measurement at 30 field survey positions. The extent of farmland affected by large-scale reclamation was calculated from a GIS-based comparison of topography before and after reclamation based on a digital elevation model (DEM).

Results and discussion

The reclamation process decreased the thickness of topsoils from more than 50 cm to an average of 26.9 cm over the 30 surveyed positions. The minimum topsoil thickness of 15 cm observed in this study corresponds to the recommended topsoil conservation level under Japanese guidelines for the reclamation of paddies. There was no significant difference in the topsoil thicknesses obtained through soil filling and cutting reclamation processes. These results indicate that the original soil distributions potentially lost the “High-humic Cumulic” feature. Although the topsoils were conserved during farmland reclamation processes carried out in accordance with the Japanese guidelines, the results of this study revealed the influence of the reclamation process on soil properties and, as a result, their classification, through a decrease in topsoil thickness and mixing with subsurface horizons.

Conclusions

We confirm the importance of taking topsoil conservation into account in determining the influence of agricultural reclamation on soil distribution in Japan. In reclaimed upland fields, most managed topsoils have sufficient thickness to fill the diagnostic surface horizon. An exception is managed topsoil in reclaimed paddies, which can have insufficient to thickness to meet the corresponding diagnostic surface horizon. We suggest that some soils in modern reclaimed farmlands do not currently fulfill the criterion of diagnostic surface horizon regardless of their reclamation magnitude.

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References

  • Akeno K, Hoshino H, Ando A (2002) An experimental development of spatio-temporal dataset from old edition maps. GSI J JPN 99:89–102 (in Japanese)

    Google Scholar 

  • Chino-City Board of Education (1993) The yudachi ruins: a summary report of urgent excavation and research for buried cultural properties against prefectural project of agricultural land improvement on Tsukinoki-district, chino-city, Nagano prefecture in 1992. Chino-City Board of Education, Chino (in Japanese)

    Google Scholar 

  • Geographical Survey Institute (1997) Digitized contour maps of “Minamioshio” and “Chino” in 1 to 25000 scale published in 1988. In Digital topographic map 25000 “Nagano” (CD-ROM), GSI Japan, Tsukuba

  • Geospatial Information Authority of Japan (2018) Contour data of “digital map (basic geospatial information)”. Available via download service of Basic geospatial information of Japan https://fgdgsigojp/download/menuphp. Accessed 27 March 2018

  • Hiironen J, Riekkinen K (2016) Agricultural impacts and profitability of land consolidations. Land Use Policy 55:309–317

    Article  Google Scholar 

  • IUSS Working group WRB (2015) World Reference Base for soil resources 2014, update 2015. International soil classification system for naming soils and creating legends for soil maps. World soil resources reports no. 106. FAO, Rome

    Google Scholar 

  • Kanda T, Takata Y, Wakabayashi S, Kohyama K, Obara H (2017) Development of the 1 : 50,000 digital soil map of cultivated soil in Japan according to the comprehensive soil classification system of Japan-First approximation. Jpn J Soil Sci Platn Nutr 88(1):29–34 (in Japanese)

    Google Scholar 

  • Karásek P, Konečná J, Pochop M, Kučera J, Podhrázská J (2018) Priority areas for initiating land consolidations related to erosion and water retention in the landscape, Czech Republic. J Ecol Eng 19(4):16–28

    Article  Google Scholar 

  • Kikuchi Y, Minakawa T, Miyamori T, Tanaka H, Tanaka R, Takai K, Nonaka M (1999) History of the land improvement system. J JSIDRE 67:928–942 (in Japanese)

    Google Scholar 

  • Kitazawa K, Kawachi S (1967) On the loam formations at the northwestern foot of Yatsugatake: on the volcanism of dome-building stage of the Yatsugatake volcanic chain, Central Japan (II). J Geol Soc Jpn 73(4):199–206 (in Japanese with English abstract)

    Article  Google Scholar 

  • Land Improvement and Consolidation Division, Suwa Region Promotion Bureau of Nagano Prefecture (2016) Agricultural and rural development in Suwa region. Land Improvement and Consolidation Division, Suwa Region Promotion Bureau of Nagano Prefecture, Nagano https://www.pref.nagano.lg.jp/suwachi/suwachi-nochi/kannai/soshiki/documents/nnh28.pdf. Accessed 27 Dec 2019 (in Japanese)

  • Ministry of Land, Infrastructure, Transport and Tourism (MLIT) (2019) Standard specification for civil engineering. MLIT, Tokyo (in Japanese)

    Google Scholar 

  • Obara H, Ohkura T, Takata Y, Kohyama K, Maejima Y, Hamazaki T (2011) Comprehensive soil classification system of Japan first approximation. Bull Antl Agr-Environ Sci 29:1–73 (in Japanese with English abstract)

    CAS  Google Scholar 

  • Scheyer JM, Hipple KW (2005) Urban soil primer. United States Department of Agriculture. Natural Resources Conservation Service, National Soil Survey Center, Lincoln http://soils.usda.gov/use. Accessed 25 Oct 2020

  • Soil Survey Staff (2014) Keys to soil taxonomy, 12th edn. United States Department of Agriculture Natural Resources Conservation Service, Washington DC

    Google Scholar 

  • Takata Y, Nakai M, Obara H (2009) Digital soil map of Japanese croplands in 1992. Jpn J Soil Sci Plant Nutr 80(5):502–505 (in Japanese)

    Google Scholar 

  • Takata Y, Obara H, Nakai M, Kohyama K (2011) Process of the decline in the cultivated soil area with land use change in Japan. Jpn J Soil Sci Plant Nutr 82(1):15–24 (in Japanese with English abstract)

    Google Scholar 

  • The Japanese Geotechnical Society (1999) Handbook of geotechnical engineering. The Japanese Geotechnical Society, Tokyo (in Japanese)

    Google Scholar 

  • The Japanese Geotechnical Society (2000) First revision of explanation and procedure of soil test. The Japanese Geotechnical Society, Tokyo (in Japanese)

    Google Scholar 

  • The Japanese Society of Irrigation, Drainage and Rural Engineering (JSIRDE) (2006) Standard for planning and designing of agricultural land improvement project: planning of land consolidation for upland field. JSIRDE, Tokyo (in Japanese)

    Google Scholar 

  • The Japanese Society of Irrigation, Drainage and Rural Engineering (JSIRDE) (2013) Standard for planning and designing of agricultural land improvement project: planning of land consolidation for paddy field. JSIRDE, Tokyo (in Japanese)

    Google Scholar 

  • Trammell T, Day S, Pouyat R, Rosier C, Scharenbroch BC, Yesilonis I (2017) Drivers of urban soil carbon dynamics. In: Lal R, Stewart BA (eds) Urban soils: advances in soil science. CRC Press, Taylor & Francis Group, Boca Raton

    Google Scholar 

Download references

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Correspondence to Kimihiro Kida.

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Responsible editor: Claudio Bini

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Kida, K., Ibori, Y. & Kawahigashi, M. Impact of farmland reclamation on soil distribution in Japan: the case of Andosols in Nagano Prefecture. J Soils Sediments 21, 1938–1946 (2021). https://doi.org/10.1007/s11368-020-02816-8

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  • DOI: https://doi.org/10.1007/s11368-020-02816-8

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