Shinya Funakawa scite author profile

Radiocesium interception potential (RIP), a quantitative index of a frayed edge site of micaceous minerals, was investigated on test clay minerals (illite, kaolinite, montmorillonite and vermiculite) and soil clays formed under different pedogenetic conditions in the Kinki district of Japan and in northern Thailand to elucidate the effect of pedogenetic weathering on the amount of frayed edge site of micaceous minerals. ) compared with illitic minerals (4.3 mol kg -1 in silt size; 11.8 mol kg -1 in clay size) suggested that the frayed edge site increased as the expanded layer formed in the micaceous minerals. In northern Thailand soil clays, the absence of a vermiculitic expanded layer was indicated. Periodic wet-dry conditions may restrict K depletion from micaceous minerals in the region. It is concluded that micaceous minerals were weathered without layer expansion and, therefore, the amount of the frayed edge site was regulated by the content of micaceous minerals in northern Thailand. In Japanese soil clays, large RIP values were found in the EB and Bs horizons of a Podzodic profile (SW1), which had large vermiculitic expanded layers like the test vermiculite. However, the RIP values drastically decreased from the Bs to E horizon, maintaining a high vermiculitic layer charge. Thus, intensive weathering in highly acidic soils in Japan might reduce the frayed edge site.

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Contribution of different proton sources to pedogenetic soil acidification in forested ecosystems in Japan

Fujii

Funakawa

Hayakawa

et al. 2008

Geoderma

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Environmental control of lignin peroxidase, manganese peroxidase, and laccase activities in forest floor layers in humid Asia

Fujii

Uemura

Hayakawa

et al. 2013

Soil Biology and Biochemistry

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Quantification of proton budgets in soils of cropland and adjacent forest in Thailand and Indonesia

et al. 2008

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Continuous cultivation has the potential to accelerate soil acidification. The influence of cultivation on soil acidification was evaluated by calculating proton budget in a soil-vegetation system including solute leaching, vegetation uptake and organic matter decomposition in cropland and adjacent forest in Thailand and Indonesia. In the forests, excess cation accumulation in wood (2.1-3.8 kmol c ha −1 year −1 ) has contributed to soil acidification at the rate of 0.004 mol c for production of 1 mol carbon. In the croplands, soil organic matter loss (2.2-3.9 Mg C ha −1 year −1 ) has contributed to both proton generation owing to nitrification (1.5-5.0 kmol c ha −1 year −1 ) and proton consumption owing to mineralization of organic anions (3.6-8.8 kmol c ha −1 year −1 ) at the rates of 0.008-0.015 and 0.019-0.026 mol c for the loss of 1 mol soil organic carbon, respectively. Although the influence of cultivation on proton budget is different depending on the budget of organic matter and soil types (soil pH and texture), cultivation results in soil organic matter loss and soil alkalinization at least during the initial stage of cultivation in tropical regions.

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Shinya Funakawa

Fluxes of dissolved organic carbon in two tropical forest ecosystems of East Kalimantan, Indonesia

Characterization of the frayed edge site of micaceous minerals in soil clays influenced by different pedogenetic conditions in Japan and northern Thailand

Contribution of different proton sources to pedogenetic soil acidification in forested ecosystems in Japan

Environmental control of lignin peroxidase, manganese peroxidase, and laccase activities in forest floor layers in humid Asia

Quantification of proton budgets in soils of cropland and adjacent forest in Thailand and Indonesia

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