Stream discharge database, little river experimental watershed, georgia, united states

被引:37
|
作者
Bosch, D. D. [1 ]
Sheridan, J. M. [1 ]
机构
[1] USDA, ARS, SE Watershed Res Lab, Tifton, GA 31794 USA
来源
WATER RESOURCES RESEARCH | 2007年 / 43卷 / 09期
关键词
D O I
10.1029/2006WR005833
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
[1] The U. S. Department of Agriculture Agricultural Research Service Southeast Watershed Research Laboratory (SEWRL) initiated a hydrologic research program on the Little River Experimental Watershed (LREW) in 1967. Long-term (up to 37 years) research quality streamflow data are currently available for up to eight flow measurement sites within the Gulf-Atlantic Coastal Plain physiographic region. The LREW stream discharge research program provides fundamental data for research into hydrologic processes, precipitation-runoff relationships, hydrograph characteristics, water yield, and interactive effects of climate, vegetation, soils, and land use for low-gradient Coastal Plain streams.
引用
收藏
页数:4
相关论文
共 50 条
  • [21] Long-term precipitation database, Reynolds Creek Experimental Watershed, Idaho, United States
    Hanson, CL
    WATER RESOURCES RESEARCH, 2001, 37 (11) : 2831 - 2834
  • [22] Long-term climate database, Reynolds Creek Experimental Watershed, Idaho, United States
    Hanson, CL
    Marks, D
    Van Vactor, SS
    WATER RESOURCES RESEARCH, 2001, 37 (11) : 2839 - 2841
  • [23] Long-term runoff database, Walnut Gulch Experimental Watershed, Arizona, United States
    Stone, Jeffry J.
    Nichols, Mary H.
    Goodrich, David C.
    Buono, Jared
    WATER RESOURCES RESEARCH, 2008, 44 (05)
  • [24] Long-term lysimeter database, Reynolds Creek Experimental Watershed, Idaho, United States
    Seyfried, MS
    Hanson, CL
    Murdock, AD
    Van Vactor, S
    WATER RESOURCES RESEARCH, 2001, 37 (11) : 2853 - 2856
  • [25] Long-term precipitation database, Walnut Gulch Experimental Watershed, Arizona, United States
    Goodrich, David C.
    Keefer, Timothy O.
    Unkrich, Carl L.
    Nichols, Mary H.
    Osborn, Herbert B.
    Stone, Jeff J.
    Smith, John R.
    WATER RESOURCES RESEARCH, 2008, 44 (05)
  • [26] Assessment of Riparian Buffer Impacts within the Little River Watershed in Georgia USA with the SWAT Model
    Bosch, D. D.
    Cho, J.
    Lowrance, R. R.
    Vellidis, G.
    Strickland, T. C.
    21ST CENTURY WATERSHED TECHNOLOGY: IMPROVING WATER QUALITY AND ENVIRONMENT CONFERENCE PROCEEDINGS, 2010,
  • [27] Little River Experimental Watershed, a keystone in understanding of coastal plain watersheds
    Bosch, David D.
    Coffin, Alisa W.
    Sheridan, Joseph
    Pisani, Oliva
    Endale, Dinku M.
    Strickland, Tim C.
    HYDROLOGICAL PROCESSES, 2021, 35 (08)
  • [28] Hydrologic simulation of the Little Washita River Experimental Watershed using SWAT
    Van Liew, MW
    Garbrecht, J
    JOURNAL OF THE AMERICAN WATER RESOURCES ASSOCIATION, 2003, 39 (02): : 413 - 426
  • [29] Evaluation of AMSR-E soil moisture results using the in-situ data over the Little River Experimental Watershed, Georgia
    Sahoo, Alok K.
    Houser, Paul R.
    Ferguson, Craig
    Wood, Eric F.
    Dirmeyer, Paul A.
    Kafatos, Menas
    REMOTE SENSING OF ENVIRONMENT, 2008, 112 (06) : 3142 - 3152
  • [30] Long-term remote sensing database, Walnut Gulch Experimental Watershed, Arizona, United States
    Moran, M. S.
    Collins, C. D. Holifield
    Goodrich, D. C.
    Qi, J.
    Shannon, D. T.
    Olsson, A.
    WATER RESOURCES RESEARCH, 2008, 44 (05)
12345