Geography Reference
In-Depth Information
Koren, V. I., M. Smith, D. Wang, and Z. Zhang (2000), Use of
soil property data in the derivation of conceptual rainfall-
runoff model parameters, in 15th Conference on Hydrol-
ogy, Long Beach, CA, American Meteorological Society,
Paper 216.
Korytny, L. M., and E. A. Ilyichyova (2005), Surface water
resources and water abundance of the rivers in Irkutsk
region (map),
Kroll, C. N. (2012), An assessment of methods for short stream
flow data in western USA, unpublished study, SUNY
College of Environmental Science and Forestry, Syracuse,
NY, USA.
Kroll, C., J. Luz, B. Allen, and R. M. Vogel (2004), Developing a
watershed characteristics database to improve low stream-
flow prediction, Journal of Hydrologic Engineering, 9 (2),
116 - 125, doi:10.1061/(ASCE)1084 - 0699(2004)9:2(116).
Kuchment, L. S., and A. N. Gelfan (2009), Assessing parameters of
physically-based models for poorly gauged basins, in
K.Yilmaz,I.Yucel,V.H.Gupta,et al.(Eds.),New Approaches
to Hydrological Prediction in Data Sparse Regions, Proceedings
of Symposium HS2, Hyderabad, India, September 2009, Wall-
ingford: IAHS Publication 333, pp. 3 - 10.
Kuczera, G. (1982), Combining site-specific and regional informa-
tion: an empirical Bayes approach, Water Resources
Research, 18 (2), 306 - 314, doi:10.1029/WR018i002p00306.
Kuczera, G. (1987), Prediction of water yield reductions
following a bushfire in ash-mixed species eucalypt forest,
Journal of Hydrology, 94 (3 - 4), 215 - 236.
Kuczera, G. (1999), Comprehensive at-site flood frequency
analysis using Monte Carlo Bayesian inference, Water
Resources Research, 35 (5), 1551 - 1557.
Kuczera, G., and M. Mroczkowski (1998), Assessment of hydro-
logic parameter uncertainty and the worth of multiresponse
data, Water Resources Research, 34 (6), 1481 - 1489,
doi:10.1029/98WR00496.
Kuczera, G., and E. Parent (1998), Monte Carlo assessment of
parameter uncertainty in conceptual catchment models: the
Metropolis algorithm, Journal of Hydrology, 211 (1
in Ecological Atlas of
Irkutsk Region,
V. B. Sochava Institute of Geography.
Korzun, V. I. (1978), World Water Balance and Water Resources
of the Earth, edited by UNESCO, Hydrometeoizdat.
Koster, R. D., and M. J. Suarez (1999), A simple framework
for examining the interannual variability of land surface
moisture fluxes, Journal of Climate, 12 (7), 1911 - 1917,
doi:10.1175/1520 - 0442(1999)012 < 1911:ASFFET > 2.0.
CO;2.
Koutsoyiannis, D., Y. Markonis, A. Koukouvinos, and N.
Mamassis, (2010), Hydrological Study of Arachthos
Floods: Delineation of the Arachthos Riverbed in the
Town of Arta (in Greek), Internal Report, National Tech-
nical University of Athens.
Kovacs, A., M. Honti, A. Eder, et al. (2012), Identification of
phosphorus emission hotspots in agricultural catchments,
Science of the Total Environment, 433 (4), 74 - 88,
doi:10.1016/j.scitotenv.2012.06.024.
Kowalczyk, E. A., Y. P. Wang, R. M. Law, et al. (2006), The
CSIRO Atmosphere Biosphere Land Exchange (CABLE)
model for use in climate models and as an offline model,
CSIRO Marine and Atmospheric Research paper 013,
Aspendale, Victoria: CSIRO.
Krasovskaia, I. (1982), Hypothesis on runoff formation in small
watersheds in Sweden, FoU-notiser, 19 , SMHI, Norrköp-
ing, Sweden.
Krasovskaia, I. (1988), A study of mesoscale runoff variability,
Geografiska Annaler, 70 A(3), 191 - 201.
Krasovskaia, I. (1995), Quantification of the stability of river flow
regimes, Hydrological Sciences Journal, 40 (5), 587 - 598.
Krasovskaia, I. (1997), Entropy-based grouping of river flow
regimes, Journal of Hydrology, 202 (1 - 4), 173 - 191.
Krasovskaia, I., and L. Gottschalk (1992), Stability of river flow
regimes, Nordic Hydrology, 23 (3), 137 - 154.
Krasovskaia, I., N. W. Arnell, and L. Gottschalk (1994), Flow regimes
in northern and western Europe: development and application
of procedures for classifying flow regimes, in P. Seuna, A.
Gustard, N. W. Arnell, and G. A. Cole (Eds.), FRIEND: Flow
Regimes from International Experimental and Network Data,
Wallingford: IAHS Publication 221, pp. 185 - 193.
Krasovskaia, I., L. Gottschalk, E. Leblois, and E. Sauquet (2003),
Dynamics of river flow regimes viewed through attrac-
tors, Nordic Hydrology, 34 (5), 461 - 476, doi:10.2166/
nh.2003.027.
Kresser, W. (1961), Hydrographische Betrachtung der österrei-
chischen Gewässer, Verhandlungen des Internationalen
Verein Limnologie, 14 , 417 - 421.
Kritski, S. N., and M. F. Menkel (1950), The Hydrological Basis
of River Hydro-technique, Moscow: Academy of Sciences
Publishing.
- 4),
85.
Kumar, P. (2007), Variability, feedback, and cooperative process
dynamics: elements of a unifying hydrologic theory, Geog-
raphy Compass, 1 (6), 1338 - 1360, doi:10.1111/j.1749 -
8198.2007.00068.x.
Kumar, P. (2011), Typology of hydrologic predictability, Water
Resources Research, 47 ,1 - 9, doi:10.1029/2010WR009769.
Kumar, R., C. Chatterjee, S. Kumar, A. K. Lohani, and R. D.
Singh (2003), Development of regional flood frequency
relationships using L-moments for Middle Ganga Plains
Subzone 1 (f) of India, Water Resources Management, 17
(1962), 243 - 257, doi:10.1023/A:1024770124523.
Kundzewicz, Z. (2007), Prediction in ungauged basins: a sys-
temic perspective, in D. Schertzer, P. Hubert, S. Koide,
and K. Takeuchi (Eds.), Predictions in Ungauged Basins:
PUB Kick-off, Proceedings of the PUB Kick-off meeting
held in Brasilia, 20 - 22 November 2002, Wallingford:
IAHS Publication 309, pp. 38 - 44.
Kundzewicz, Z. W. (Ed.) (2012), Changes in Flood Risk in
Europe, Wallingford: IAHS Press.
Kupfersberger, H., and G. Blöschl (1995), Estimating aquifer
transmissivities: on the value of auxiliary data, Journal of
Hydrology, 165 ,85 - 99.
Kustas, W., and M. Anderson (2009), Advances in thermal
infrared remote sensing for land surface modeling, Agri-
cultural and Forest Meteorology, 149 (12), 2071 - 2081,
doi:10.1016/j.agrformet.2009.05.016.
69
-
Search WWH ::




Custom Search