Geography Reference
In-Depth Information
Kwesha, D. (2000), Gathering Key Information About Indigen-
ous Forests of Zimbabwe, Forestry Commission, Harare,
Zimbabwe.
L
'
vovich, M. I. (1938), Opyt klassifikacii rek SSSR. Trudy Gosu-
dartsvennogo Gidrologicheskogo Instituta,
6
,58
-
108.
Lamb, R. (2005), Rainfall-runoff modelling for flood frequency
estimation, in M. G. Anderson (Ed.), Encyclopedia of
Hydrological Sciences, Chichester: John Wiley & Sons,
Article 125, pp. 1923
-
1953.
Lamb, R., and A. L. Kay (2004), Confidence intervals for a
spatially generalized, continuous simulation flood fre-
quency model for Great Britain, Water Resources
Research,
40
(7), 1
-
13, doi:10.1029/2003WR002428.
Lamb, R., J. Crewett, and A. Calver (2000), Relating hydro-
logical model parameters and catchment properties to esti-
mate flood frequencies from simulated river flows, in
Proceedings of BHS 7th National Hydrology Symposium,
September 2000, Newcastle, UK, pp. 3.57
-
3.64.
Lane, E. W., and K. Lei (1950), Streamflow variability, American
Society of Civil Engineers, Transactions,
20
, 1084
-
1134.
Lanen, H. A. J. van, and B. van de Weerd (1994), Groundwater
flow from a Cretaceous chalk plateau: impact of ground-
water recharge and abstraction, in P. Seuna, A. Gustard,
N. W. Arnell, and G. A. Cole (Eds.), FRIEND: Flow
Regimes from International Experimental and Network
Data, IAHS Publication 221, pp. 87
-
94.
Lanen, H. A. J. van, L. M. Tallaksen, L. Ka
š
párek, and E. P.
Querner (1997), Hydrological drought analysis in the
Hupsel basin using different physically-based models, in
A. Gustard, S. Blazkova, M. Brilly et al. (Eds.),
FRIEND
'
97, Regional Hydrology: Concepts and Models
for Sustainable Water Resource Management, Walling-
ford: IAHS Publication 246, pp. 189
-
196.
Lanen, H. A. J. van, M. Fendeková, E. Kupczyk, A. Kasprzyk,
and W. Pokojski (2004a), Flow generating processes, in
L. M. Tallaksen, and H. A. J. van Lanen (Eds.), Hydro-
logical Drought: Processes and Estimation Methods for
Streamflow and Groundwater, Developments in Water
Science, Volume 48, Amsterdam: Elsevier Science B.V.,
pp. 53
-
96.
Lanen, H. A. J. van, L. Ka
š
párek, O. Novický, E. P. Querner, M.
Fendeková, E. and Kupczyk (2004b), Human influences,
in L. M. Tallaksen, and H. A. J. van Lanen (Eds.), Hydro-
logical Drought: Processes and Estimation Methods for
Streamflow and Groundwater. Developments in Water
Science, Volume 48, Amsterdam: Elsevier Science B.V.,
pp. 347
-
410.
Lanen, H. A. J. van, N. Wanders, L. M. Tallaksen, and A. F.
van Loon (2012), Hydrological drought across the
world: impact of climate and physical catchment structure,
Hydrology and Earth System Sciences Discussions,
9
,
12145
-
12192, doi:10.5194/hessd-9-12145-2012.
Langbein, W. B. (1949), Annual Runoff in the United States.
Geological Survey Circular 5, U.S. Department of the
Interior, Government Printing Office, Washington, D.C.
Lanza, L. G., and E. Vuerich (2009), The WMO field intercom-
parison of rain intensity gauges, Atmospheric Research,
94
(4), 534
-
543, doi:10.1016/j.atmosres.2009.06.012.
Larsen, J. E., M. Sivapalan, N. A. Coles, and P. E. Linnet (1994),
Similarity analysis of runoff generation processes in
real-world catchments, Water Resources Research,
30
(6),
1641
-
1652, doi:10.1029/94WR00555.
L
'
vovich, M. I. (1979), World water resources, present and future,
GeoJournal,
3
(5), 423
433, doi:10.1007/BF00455981.
Laaha, G. (2000), Zur Beurteilung der Genauigkeit von Nieder-
wasserkennwerten (in German). Mitteilungsblatt des
Hydrographischen Dienstes in Österreich,
80
,61
-
68.
Laaha, G., and G. Blöschl (2005), Low flow estimates from
short stream flow records: a comparison of methods, Jour-
nal of Hydrology,
306
(1
-
4), 264
-
286, doi:10.1016/j.
jhydrol.2004.09.012.
Laaha, G., and G. Blöschl (2006a), A comparison of low flow
regionalisation methods: catchment grouping, Journal of
Hydrology,
323
,1
-
4, 193
-
214.
Laaha, G., and G. Blöschl (2006b), The value of seasonality
indices for regionalizing low flows, Hydrological Pro-
cesses,
20
, 3851
-
3878, doi:10.1002/hyp.6161.
Laaha, G., and G. Blöschl (2007), A national low flow estimation
procedure for Austria, Hydrological Sciences Journal,
52
(4), 625
-
644, doi:10.1623/hysj.52.4.625.
Laaha, G., R. Godina, P. Lorenz, and G. Blöschl (2005), Niederwas-
serabfluss (Low flow, in German), in Hydrologischer Atlas
Österreichs, Karte 5.5, Bundesministerium für Land- und
Forstwirtschaft, Umwelt und Wasserwirtschaft (BMLFUW),
Österreichischer Kunst- und Kulturverlag Wien, Wien.
Laaha, G., J. Skøien, and G. Blöschl (2007), A comparison
of top-kriging and regional regression for low flow
regionalisation. Geophysical Research Abstracts,
9
,
07015, 1
-
2.
Laaha, G., J. Skøien and G. Blöschl (2012), Comparing geosta-
tistical models for river networks, in P. Abrahamsen,
R. Hauge, and O. Kolbjørnsen (Eds.), Geostatistics
Oslo 2012, Quantitative Geology and Geostatistics 17,
Dordrecht: Springer, pp. 543
-
553.
Laaha, G., J. O. Skøien, and G. Blöschl (2013), Spatial prediction
on a river network: comparison of top-kriging with
regional regression, Hydrological Processes, published
online, doi:10.1002/hyp.9578.
Laio, F., A. Porporato, C. P. Fernandez-Illescas, I. Rodriguez-
Iturbe, and L. Ridolfi (2001), Plants in water-controlled
ecosystems: active role in hydrologic processes
and response to water stress
-
II. Probabilistic soil mois-
ture dynamics, Advances in Water Resources,
24
(7),
745
-
762.
Laio, F., A. Porporato, and L. Ridolfi (2002), On the seasonal
dynamics of mean soil moisture, Journal of Geophysical
Research,
107
(D15), 4272, doi:10.1029/2001JD001252.
Laio, F., D. Ganora, P. Claps, and G. Galeati (2011), Spatially
smooth regional estimation of the flood frequency curve
(with uncertainty), Journal of Hydrology,
408
(1
-
2), 67
-
77,
doi:10.1016/j.jhydrol.2011.07.022.
Laizé, C. L. R., and D. M. Hannah (2010), Modification of
climate-river flow associations by basin properties, Jour-
nal of Hydrology,
389
(1
-
2), 186
-
204.
-
Search WWH ::
Custom Search