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A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology

Publication ,  Journal Article
Krajewski, WF; Anderson, MC; Eichinger, WE; Entekhabi, D; Hornbuckle, BK; Houser, PR; Katul, GG; Kustas, WP; Norman, JM; Peters-Lidard, C; Wood, EF
Published in: WATER RESOURCES RESEARCH
2006

{[} 1] Uncertainties in assessing the effects of global-scale perturbations on the climate system arise primarily from an inadequate understanding of the hydrological cycle: on land, in oceans, and in the atmosphere and biosphere. Because of this uncertainty, almost all science-based initiatives have expressed the need for continued advances in global observations and modeling of the Earth system. It is in this spirit that we advocate establishing a hydrologic remote sensing observatory (RSO) to advance sensing technologies and their use in scientific inquiry into hydrologic processes. There are two fundamental reasons why establishing such a RSO is timely. The first is operational: Developing assimilation techniques to estimate unobserved fluxes and uncertainties in hydrologic forecasts has sufficiently matured to take advantage of computing facilities and detailed hydrologic observations shaped by the RSO. The second is scientific: This RSO will permit us to refine knowledge from physical and hydrologic models that can then be converted to local and global strategies for water resources management and ecosystem health evaluation. The authors outline the conceptual design, scope, and functionality of a RSO and present four examples to illustrate how the hydrologic community can take advantage of such facility.

Duke Scholars

Published In

WATER RESOURCES RESEARCH

ISSN

0043-1397

Publication Date

2006

Volume

42

Issue

7

Related Subject Headings

  • Environmental Engineering
  • 4011 Environmental engineering
  • 4005 Civil engineering
  • 3707 Hydrology
  • 0907 Environmental Engineering
  • 0905 Civil Engineering
  • 0406 Physical Geography and Environmental Geoscience
 

Citation

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Krajewski, W. F., Anderson, M. C., Eichinger, W. E., Entekhabi, D., Hornbuckle, B. K., Houser, P. R., … Wood, E. F. (2006). A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology. WATER RESOURCES RESEARCH, 42(7).
Krajewski, Witold F., Martha C. Anderson, William E. Eichinger, Dara Entekhabi, Brian K. Hornbuckle, Paul R. Houser, Gabriel G. Katul, et al. “A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology.” WATER RESOURCES RESEARCH 42, no. 7 (2006).
Krajewski WF, Anderson MC, Eichinger WE, Entekhabi D, Hornbuckle BK, Houser PR, et al. A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology. WATER RESOURCES RESEARCH. 2006;42(7).
Krajewski, Witold F., et al. “A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology.” WATER RESOURCES RESEARCH, vol. 42, no. 7, 2006.
Krajewski WF, Anderson MC, Eichinger WE, Entekhabi D, Hornbuckle BK, Houser PR, Katul GG, Kustas WP, Norman JM, Peters-Lidard C, Wood EF. A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology. WATER RESOURCES RESEARCH. 2006;42(7).
Journal cover image

Published In

WATER RESOURCES RESEARCH

ISSN

0043-1397

Publication Date

2006

Volume

42

Issue

7

Related Subject Headings

  • Environmental Engineering
  • 4011 Environmental engineering
  • 4005 Civil engineering
  • 3707 Hydrology
  • 0907 Environmental Engineering
  • 0905 Civil Engineering
  • 0406 Physical Geography and Environmental Geoscience