다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기
한국농림기상학회지 = Korean Journal of Agricultural and Forest Meteorology, v.9 no.2, 2007년, pp.109 - 120
김수진 (연세대학교 대기과학과) , 이동호 (연세대학교 대기과학과) , 김준 (연세대학교 대기과학과) , 김승 (건설기술연구원)
AI-Helper
The information on flowpath, storage, residence time, and interactions of water and carbon transport in a catchment is the prerequisite to the understanding and predicting of water and carbon cycling in the mountainous landscapes of Korea. In this paper, along with some up-to-date results, we presen...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
Anderson, M. G. and T. P. Burt, 1991: Process Studies in Hillslope Hydrology. John Wiley and Sons, 539pp
Betson, R. P., 1964: What is watershed runoff? Journal of Geophysical Research 69, 1541-1551
Christophersen, N., C. Neal, R. P. Hooper, R. D. Vogt, and S. Andersen, 1990: Modeling streamwater chemistry as a mixture of soilwater end-members - a step towards second-generation acidification models. Journal of Hydrology 116, 307-320
Dawson, H. J., F. C. Ugolini, B. F. Hrutfiord, and J. Zachara, 1975: Role of soluble organics in the soil processes of a podzol, Central Cascades, Washington. Soil Science 126, 290-296
Edwards, M., M. M. Bejamin, and J. N. Ryan, 1996: Role of organic acidity in sorption of natural organic matter (NOM) to oxide surfaces. Colloid Surfaces A 107, 297-307
Elsenbeer, H., D. Lorieri, and M. Bonell, 1995: Mixing model approaches to estimate storm flow sources in an overland flow-dominated tropical rain forest catchment. Water Resources Research 31, 2267-2278
Gu, B., J. Schimitt, Z. Chen, L. Liang, and J. F. McCarthy, 1994: Adsorption and desorption of natural organic matter on iron oxides: Mechanisms and models. Environmental Science & Technology 28, 38-46
Guggenberger, G., W. Zech, and H. -R., Schulten, 1994: Formation and mobilization pathways of dissolved organic matter: evidence from chemical structural studies of organic matter fractions in acid forest floor solutions. Organic Geochemistry 21(1), 51-66
Herbert, B. E., and P. M. Bertsch, 1995: Characterization of dissolved and colloidal organic matter in soil solution. Carbon forms and functions in forest soils, J. M. Kelly and W. W. McFee (Eds), SSSA, Madison, WI, 63-88
Hooper, R. P., N. Christophersen, and N. E. Peters, 1990: Modeling streamwater chemistry as a mixture of soilwater end-members-an application to the Panola Mountain Catchment, Georgia, U.S.A. Journal of Hydrology 116, 321-343
Horton, R. E., 1933: The role of infiltration in the hydrologic cycle. American Geophysical Union. Transaction 14, 446-460
Jardine, P. M., N. L. Weber, and J. F. McCarthy, 1989: Mechanism of dissolved organic carbon adsorption on soil. Soil Science Society of America Journal 53, 1378-1385
Kaiser, K., and W. Zech, 1998a: Soil dissolved organic matter sorption as influenced by organic and sesquioxide coatings and sorbed sulfate. Soil Science Society of America Journal 62, 129-136
Kaiser, K., and W. Zech, 1998b: Rates of dissolved organic matter release and sorption in forest soils. Soil Science 62, 129-136
Kalbitz, K., S. Solinger, J. -H. Park, B. Michalzik, and E. Matzner, 2000: Controls on the dynamics of dissolved organic matter in soils: a review. Soil Science 165, 277-304
Katsuyama, M., N. Ohte, and S. Kobashi, 2001: A threecomponent end-member analysis of streamwater hydrochemistry in a small Japanese forested headwater catchment. Hydrological Processes 15, 249-260
Kawasaki, M., N. Ohte, and M. Katsuyama, 2005: Biogeochemical and hydrological controls on carbon export from a forested catchment in central Japan. Ecological Research 20, 347-358
Kim, S. J., 2003: Hydro-Biogeochemical Study on the Sulfur Dynamics in a Temperature Forest Catchment. Ph. D. Dissertation. Kyoto University
Kim, S. J., N. Ohte., M. Kawasaki., M. Katsuyama., N. Tokuchi, and S. Hobara, 2003: Interactive responses of dissolved sulfate and nitrate to disturbance associated with pine wilt disease in a temperate forest. Soil Science and Plant Nutrition 49, 539-550
Kim, S. J., and J. Kim, 2006: How to evaluate the DOC and POC discharge from forest ecosystem during monsoon? USA PUB Workshop, CUASHI
Kim, S., H. Lee, N. C. Woo, and J. Kim, 2007: Soil moisture monitoring in a steep relief. Hydrological Processes, in press, 10.1002/hyp.6508
Kim, J., D. Lee, J. Hong, S. Kang, S. J. Kim, S. K. Moon, H. H. Lim, Y. Son, J. Lee, S. Kim, N. Woo, K. Kim, B. Lee, B. L. Lee, and S. Kim, 2006: HydroKorea and CarboKorea: cross-scale studies of ecohydrology and biogeochemistry in a heterogeneous and complex forest catchment of Korea. Ecological Research 21, 881-889
Kirkby, M.J., 1978: Hillslope Hydrology. John Wiley and Sons, 389pp
Kosugi, K., 1994: Three-parameter lognormal distribution model for soil water retain. Water Resources Research 30, 891-901
Kosugi, K., 1996: Lognormal distribution model of unsaturated soil hydraulic properties. Water Resources Research 32, 2697-2703
Lim, J. H., J. H. Shin, G. Z. Jin, J. H. Chun, and J. S. Oh, 2003: Forest stand structure, site characteristics and carbon budget of the Kwangneung natural forest in Korea. Korean Journal of Agricultural and Forestry Meteorology 5, 101-109
Ludwig, W., J. L. Probst, and S. Kempe, 1996: Predicting the oceanic input of organic carbon by continental erosion. Global Biogeochemical Cycles 10, 23-41
Matsutani, J., T. Tanaka, and M. Tsujimura, 1993: Residence times of soil, ground, and discharge waters in a mountainous headwater basin, central Japan, traced by tritium. Tracers in Hydrology, N. E. Peters, E. Hoehn, Ch. Leibundgut, N. Tase., and D. E. Walling (Eds.), IAHS Publication No. 215, 57-64
McGlynn, B. L., and J. J. McDonnell, 2003: Role of discrete landscape units in controlling catchment dissolved organic carbon dynamics. Water Resources Research 39(4), 1090, doi:10.1029/2002WR001525
Meybeck, M., 1982: Carbon, nitrogen, and phosphorus transport by the world rivers. American Journal of Science 282, 401-450
Michel, R. L., and D. L. Naftz, 1995: Use of sulfur-35 and tritium to study runoff from an alpine glacier, Wind River Range, Wyoming. Biogeochemistry of Seasonally Snow-Covered Catchments, K. A. Tonnessen, M. W. Williams, M., Tranter, (Eds.), International Association of Hydrological Sciences. Boulder, CO. Publication No. 228, 441-443
Moon, S. -K., N. C. Woo, and K. S. Lee, 2004: Statistical analysis of hydrographs and water-table fluctuation to estimate groundwater recharge. Journal of Hydrology 292, 198-209, doi:10.1016/j.jhydrol.2003.12.030
Moore, T. R., W. Desouza, and J. F. Koprivnijak, 1992: Controls on the sorption of dissolved organic carbon in soils. Soil Science 154, 120-129
Nodvin, S. C., C. T. Driscoll, and G. E. Likens, 1986: Simple partitioning of anions and dissolved organic carbon in a forest soil. Soil Science 142, 27-35
Perakis, S. S., and L. O. Hedin, 2002: Nitrogen loss from unpolluted South American forest mainly via dissolved organic compounds. Science 415, 416-419
Pinder, G. F., and J. F. Jones, 1969: Determination of the groundwater component of peak discharge from the chemistry of total runoff water. Water Resources Research 5(2), 438-445
Prentice, I. C., G. D. Farquhar, M. J. R. Fasham, M. L. Goulden, M. Heimann, V. J. Jaramillo, H. S. Kheshgi, C. Le Quere, R. J. Scholes, and D. W. R. Wallace, 2001: The carbon cycle and atmospheric carbon dioxide, in Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, J. T. Houghton, Y. Ding, D. J. Griggs, M. Noguer, P. J. van der Linden, X. Dai, K. Maskell, and C.A. Johnson (Eds), Cambridge University Press, 190pp
Sato, A., and M. Seto, 1999: Relationship between rate of carbon dioxide evolution, microbial biomass carbon, and amount of dissolved organic carbon as affected by temperature and water content of a forest and an arable soil. Communications in Soil Science and Plant Analysis 30, 2593-2605
Schlesinger, W. H., and J. M. Melack 1981: Transport of organic carbon in the world's rivers. Tellus 33, 172-181
Schulze, E.-D., 2006: Biological control of the terrestrial carbon sink. Biogeosciences 3, 147-166
Shanley, J. B., E. Pendall, C. Kendall, L. R. Stevens, R. L. Nichel, P. J. Phillips, R. M. Forester, D. L. Naftz, B. Liu, L. Stern, B. B. Wolfe, C. P. Chamerlain, S. W. Leavitt, T. H. E. Heaton, B. Mayer, L. D. Cecil, W. B. Lyons, B. G. Katz, J. L. Betancourt, D. M. McKnight, J. D. Blum, T. W. D. Edwards, H. R. House, E. Ito, R. O. Aravena, and J. F. Whelan, 1998: Isotope as indicators of environmental change. Isotope tracers in catchment hydrology, C. Kendall and J. J. McDonnell (Eds.), Elsevier, 761-816
Stull, R. B., 1988: An Introduction to Boundary Layer Meteorology. Kluwer Academic Publishers, 666 pp
Sueker, J. K., J. T. Turk, and R. L. Michel, 1999: Use of cosmogenic $^{35}S$ for comparing ages of water from three alpine-subalpine basins in the Colorado Front Range. Geomorphology 27, 61-74
Suzuki, M., 1980: Evapotranspiration from a small catchment in hilly mountain (I) Seasonal variations in evapotranspiration, rainfall interception and transpiration. Journal of Japanese Forest Society 62, 46-53
Tipping, E., and C. Woof, 1990: Humic substances in acid organic soils: Modeling their release to the soil solution in terms of humic charge. Journal of Soil Science 41, 573-585
Wagai, R., and P. Sollins, 2002: Biodegradation and regeneration of water-soluble organic carbon in a forest soil: leaching column study. Biology and Fertility of Soils 35, 18-26
Warnken, K. W., and P. H. Santschi, 2004: Giogeochemical behavior of oganic carbon in the Trinity River downstream of a large reservoir lake in Texas, USA. Science of the Total Environment 329, 131-144
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
Copyright KISTI. All Rights Reserved.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.