ŠÖŸŽő@ƒe[ƒ}•Ę˜_•śˆę——

 

Še˜_•ś‚Ö‚ĚƒŠƒ“ƒN‚Í  http://researchmap.jp/sekik/ ‚É‚ ‚č‚Ü‚ˇB

 

“yëŠÂ‹Ť‚Ɛ…•ŞˆÚ“Ž‰đÍ

1.        Seki, K., T. Miyazaki, M. Mizoguchi, H. Imoto, K. Nakaya, and H. Miyazawa. A simple estimation of excess rainwater percolation from a buried container into a vadose zone. Journal of Japanese Society of Soil Physics, 97:25-30, 2004.

2.        Deb, S. K., T. Miyazaki, M. Mizoguchi, and K. Seki. Return flow generating point in layered slope with traffic pan. Transactions of Japanese Society of Irrigation, Drainage and Reclamation Engineering, 241:1-11, 2006.

3.        Khalil, M., K. Seki, T. Miyazaki, M. Mizoguchi, and M. Sakai. Analysis of zero flux plane behavior under periodical water supply. Transactions of Japanese Society of Irrigation, Drainage and Reclamation Engineering, 246:33-40, 2006.

4.        ŠÖŸŽő. ”’lŒvŽZŒžŒęOctave‚É‚ć‚é“yë…•Ş“ÁŤ‹Čü‚Ě”ńüŒ`‰ń‹AƒvƒƒOƒ‰ƒ€. “yë‚Ě•¨—Ť, 105, 2007.

5.        Seki, K. SWRC fit - a nonlinear fitting program with a water retention curve for soils having unimodal and bimodal pore structure. Hydrology and Earth System Sciences Discussion, 4: 407-437, 2007.

6.        ŠÖŸŽő. ƒR[ƒ“ƒp[ƒ~ƒAƒ[ƒ^‚É‚ć‚é“yë…•ŞˆÚ“Ž“ÁŤ‚ĚŒ´ˆĘ’uŽŽŒą–@. “Œ—m‘ĺŠw‹I—vŽŠ‘R‰ČŠw•Ń, 53: 1-8, 2009.

7.        Saito, H., K. Seki, and J. Šimůnek. An alternative deterministic method for the spatial interpolation of water retention parameters. Hydrology and Earth System Sciences, 13:453-465, 2009.

8.        Wang, L., K. Seki, T. Miyazaki and Y. Ishihama. The causes of soil alkalinization in the Songnen Plain of Northeast China. Paddy and Water Environment, 7(3): 611-2490, 2009.

9.        Seki, K. Change in hydrological properties of volcanic ash soil in response to electrolyte concentration. Journal of Toyo University, Natural Science, 54: 1-14, 2010.

10.     Seki, K. Analysis of soil salinization and alkalization in the Songnen Plain of northeast China. Journal of Toyo University, Natural Science, 55: 17-27, 2011.

11.     ź‘ş‘ń, Îŕ_‰Ă•v, ŠÖŸŽő, ˆä–{”Ž”ü, aŒűŸ, ‹{č‹B. ’†‘•—´]Čƒ\ƒ“ƒlƒ“•˝Œ´‚̐ó‘w’n‰ş…’nˆć‚É‚¨‚Ż‚鉖—ޏWĎ. ”_“y˜_W. 279:35-44, 2012.

12.     ŠÖŸŽő. “yë…•Şƒf[ƒ^‚Š‚ç‚Ě“yë…•ŞˆÚ“Žƒpƒ‰ƒ[ƒ^‚̐„’č–@. “Œ—m‘ĺŠw‹I—vŽŠ‘R‰ČŠw•Ń, 58: 27-34, 2015.

13.     Seki, K., P. Ackerer and F. Lehmann. Sequential estimation of hydraulic parameters in layered soil using limited data. Geoderma, 247–248: 117-128, 2015.

 

“yë”÷ś•¨‚Ć“y‚Ě•¨—Ť

14.     Seki, K., T. Miyazaki, and M. Nakano. Reduction of hydraulic conductivity due to microbial effects. Transactions of Japanese Society of Irrigation, Drainage and Reclamation Engineering, 181:137-144, 1996.

15.     Seki, K., T. Miyazaki and M. Nakano, Effects of microorganisms on hydraulic conductivity decrease in infiltration, European Journal of Soil Science 49, 231-236, 1998.

16.     Seki, K. and T. Miyazaki, A mathematical model for biological clogging of uniform porous media, Water Resources Research 37, 2995-2999, 2001.

17.     Seki, K., T. Suko, and T. Miyazaki. Bioclogging of glass beads by bacteria and fungi. Transactions of World Congress of Soil Science, 1244-1 - 1244-8, 2002.

18.     Seki, K., M. Thullner, and P. Baveye. Nutrient uptake kinetics of filamentous microorganisms: Comparison of cubic, exponential, and monod models. Annals of Microbiology, 54(2):181-188, 2004.

19.     ŠÖŸŽőE_’J€ˆęE‹{č‹B. ’X…Z“§đŒ‰ş‚É‚¨‚Ż‚é×‹ŰEŽ…ó‹Ű‚É‚ć‚é–O˜a“§…ŒW”‚̒ቺ‚¨‚ć‚Ń‚ť‚̉ˇ“xˆË‘śŤ‚ɂ‚˘‚Ä. ”_“y˜_W. 237:13-19, 2005.

20.     Seki, K., M. Thullner, J. Hanada, and T. Miyazaki. Moderate bioclogging leading to preferential flow paths in biobarriers. Ground Water Monitoring and Remediation, 26(3):68-76, 2006.

21.    Seki, K. Biological clogging of sand columns. Open Journal of Soil Science, 3(3): 148-152, 2013.

 

“yë‚Š‚ç‚Ě’n‹…‰ˇ’g‰ťƒKƒX‚Ě”­ś

22.     “Ąě’q‹IE‹{č‹BEŠÖŸŽőEˆä–{”Ž”ü. “c”¨—ÖŠˇ•Ţę‚É‚¨‚Ż‚é“yë”÷ś•¨•Ş•z‚ĆCO2,O2ƒKƒX”Z“x•Ş•z‚Ě‘ŠŠÖ‚ɂ‚˘‚Ä. ”_‹Ć“y–ŘŠw‰ď˜_•śW, 208:443-452, 2000.

23.     Tokida, T., T. Miyazaki, M. Mizoguchi, and K. Seki. In situ accumulation of methane bubbles in a natural wetland soil. European Journal of Soil Science, 56: 389-395, 2005.

24.     Dumale Jr., W. A., T. Miyazaki, T. Nishimura and K. Seki. Kinetics of CO2 Evolution, Soil Microbial Biomass Carbon, and Mineral-Associated Organic Carbon of a Tropical Soil Applied with Organic Matter. NVSU Research Journal 15(1-2), 45-59, 2008.

25.     Dumale Jr., W. A., T. Miyazaki, T. Nishimura, and K. Seki. CO2 evolution and short-term carbon turnover in stable soil organic carbon from soils applied with fresh organic matter. Geophysical Research Letters, 36: L01301, 2009.

26.     Hamamoto, S., K. Seki and T. Miyazaki. Effect of aggregate structure on VOC gas adsorption onto volcanic ash soil. Journal of Hazardous Materials, 166(1): 207-212, 2009.

27.     Dumale, W. A. Jr.. T. Miyazaki, T. Nishimura, and K. Seki. Short-term dynamics of the active and passive soil organic carbon pools in a volcanic soil treated with fresh organic matter. E-International Scientific Research Journal, 3(2): 128-144, 2011.

 

“yë’†‚Ě•úŽËŤ•¨Žż‚Ě‹““Ž

28.     Yamaguchi, N., K. Seki, M. Komamura, and K. Kurishima. Long-term mobility of fallout 90Sr in ploughed soil, and 90Sr uptake by wheat grain. Science of the Total Environment, 372(2-3): 595-604, 2007.

29.     Eguchi, S., N. Yamaguchi, H. Fujiwara, T. Fukuyama, Y. Mori, K. Seki K. Suzuki and K. Adachi. Cosmogenic, anthropogenic, and airborne radionuclides for tracing the mobile soil particles in a tile-drained heavy clay soil. Transactions of 19th World Congress of Soil Science, published in DVD, 2010.

30.    ŠÖŸŽő. •Ÿ“‡Œ´”­Ž–ŒĚ‚É‚ć‚é“yë‚Ě•úŽË”\‰˜ő‘΍ô. Œo‰c˜_W, 78: 13-26, 2011.

 

X—Ń‰ÎĐ‚Ě“yë‚ւ̉e‹ż

31.     Seki, K., K. Suzuki, T. Nishimura, M. Mizoguchi, H. Imoto and T. Miyazaki. Physical and chemical properties of soils in the fire-affected forest of East Kalimantan, Indonesia. Journal of Tropical Forest Science, 22(4): 414-424, 2010.

32.     ŠÖŸŽő. ƒCƒ“ƒg゙ƒlƒVƒA‚É‚¨‚Ż‚éX—Ń‰ÎĐ‚đŽó‚Ż‚˝“yë‚Ě—‰ťŠwŤ‚ɂ‚˘‚Ä. “Œ—m‘ĺŠw‹I—vŽŠ‘R‰ČŠw•Ń, 56: 31-51, 2012.

33.     Kajiura, M., T. Tokida and K. Seki. Effects of moisture conditions on potential soil water repellency in a tropical forest regenerated after fire. Geoderma, 181-182: 30-35, 2012.

34.     ŠÖŸŽő. X—Ń‰ÎĐ‚đŽó‚Ż‚˝“yë‚Ě—‰ťŠwŤ‚̎吏•Ş•ŞÍ. “Œ—m‘ĺŠw‹I—vŽŠ‘R‰ČŠw•Ń, 57: 55-61, 2013.