Surface Runoff, Percolation, Total Runoff and Evaporation from Precipitation 2001

Literature

Aey, W. 1993:
Zuordnung von Bodenkenngrößen zu Bodengesellschaften und Nutzungen, (Assignment of soil characteristic quantities to soil associations and uses), expert report commissioned by the Senate Department for Urban Development and Environmental Protection, Berlin.

Bach, M. 1997:
Erfassung des Kanalisierungsgrades versiegelter Flächen für ein urbanes Niederschlags-Abfluß-Modell am Beispiel Berlin (Ascertainment of degrees of sewage-system connection of sealed areas for an urban precipitation runoff model, using the example of Berlin), thesis at the Earth Sciences Department of the Free University of Berlin.

Bamberg, H. F., Busse, W., Ginzel, G., Glugla, G., Schlinker, K., Ziegler, G. 1981:
KdT-Empfehlung zur Ermittlung der Grundwasserneubildung (KdT Recommendation for the ascertainment of new groundwater formation). Central Geological Institute. Printed as WTL special issue 5, Berlin.

Berlekamp, L.-R., Pranzas, N. 1992:
Erfassung und Bewertung von Bodenversiegelung unter hydrologisch-stadtplanerischen Aspekten am Beispiel eines Teilraums von Hamburg (Ascertainment and assessment of soil sealing, considering hydrological city-planning aspects, using the example of a part of Hamburg). Dissertation, Hamburg.

Glugla, G., Tiemer, K. 1971:
“Ein verbessertes Verfahren zur Berechnung der Grundwasserneubildung“ (An improved method for the calculation of new groundwater formation). Wasserwirtschaft-Wassertechnik, 21 (10):pp. 349 -353, Berlin.

Glugla, G., Enderlein, R., Eyrich, A. 1976:
“Das Programm RASTER – ein effektives Verfahren zur Berechnung der Grundwasserneubildung im Lockergestein” (RASTER Program – a more effective procedure for the calculation of the new groundwater formation in loose rock), Wasserwirtschaft-Wassertechnik, 26 (11): pp. 377 -382, Berlin.

Glugla, G., König, B. 1989:
“Der mikrorechnergestützte Arbeitsplatz Grundwasserdargebot” (The microcomputer-aided workplace for groundwater supply). Wasserwirtschaft-Wassertechnik, 39 (8): pp. 178 -181, Berlin.

Glugla, G., Eyrich, A. 1993:
“Ergebnisse und Erfahrungen bei der Anwendung des BAGROV-GLUGLA-Verfahrens zur Berechnung von Grundwasserhaushalt und Grundwasserneubildung im Lockergestein Norddeutschlands“ (Results and experiences in the application of the Bagrov-Glugla method to the calculation of basic water balance and new groundwater formation in the loose rock of Northern Germany). Kolloquium Hydrogeologie 10/93 Erfurt, pp. 22 -26.

Glugla, G., Krahe, P. 1995:
Abflußbildung in urbanen Gebieten (Runoff formation in urban areas). Document series, Hydrologie/Wasserwirtschaft 14, Ruhr University of Bochum, pp.140 160.

Glugla G., Fürtig, G. 1997:
Dokumentation zur Anwendung des Rechenprogramms ABIMO (ocumentation on the application of the computer program ABIMO) Federal Institute of Hydrology, Berlin office.

Glugla, G., Müller, E. 1997:
“Grundwasserneubildung als Komponente der Abflussbildung“ (New groundwater formation as a component of runoff formation). in: C. Leibundgut & S. Demuth (eds.): Grundwasserneubildung (New groundwater formation). Freiburger Schriften zur Hydrologie. Vol. 5, pp. 23-35.

Glugla, G., Goedecke, M, Wessolek, G., Fürtig, G. 1999:
“Langjährige Abflußbildung und Wasserhaushalt im urbanen Gebiet Berlin“ (Long-term runoff formation and water balance in the Berlin area). Wasserwirtschaft, Vol. 89 No.1 1999 pp. 34 -42.

Graf, H. F. 1979:
Der Einfluß von Großstädten auf das Niederschlagsregime am Beispiel von Berlin (The influence of cities on the precipitation system, using the example of Berlin). Dissertation A, Humboldt University of Berlin.

Kleeberg, H.-B., Niekamp, O. 1994:
“Klimaänderung und Wasserwirtschaft” (Climate change and water management). Lecture at the 3rd German climate conference, Conference Book pp. 136 -140, Potsdam.

Köppel, J., Deiwick, B. (TU Berlin) 2004:
Verfahren zur Bewertung und Bilanzierung von Eingriffen im Land Berlin (Procedure for the assessment and calculation of interventions in the state of Berlin). Expert report commissioned for Senate Department of Urban Affairs, unpublished.

Rachimov, C. (pro data consulting) 1996:
ABIMO 2.1, Abflußbildungsmodell, Algorithmus zum BAGROV-GLUGLA-Verfahren für die Berechnung langjähriger Mittelwerte des Wasserhaushalts (ABIMO 2.1, runoff formation model, algorithm on the Bagrov-Glugla method for the calculation of long-term mean average values of the water balance, program description); under commission for the Federal Institute of Hydrology, Berlin office, unpublished.

Richter, D. 1979:
Informationsspeicher für die einheitliche Bestimmung der Verdunstungshöhe von freien Wasserflächen. Information bank for the uniform regulation of the evaporation height of free water areas. Research Institute for Hydrometeorology of the Meteorological Service of the GDR [East German meteorological office], unpublished.

Wessolek, G. 1994:
Auswertung von Versuchen zur Ermittlung der Abflußverhältnisse unterschiedlich versiegelter und kanalisierter Flächen Berlins (Evaluation of tests for the ascertainment of the runoff conditions of variously sealed and sewage-served areas of Berlin), under commission for the Federal Institute of Hydrology, Berlin office, unpublished.

Wessolek, G., Facklam, M. 1997:
“Standorteigenschaften und Wasserhaushalt von versiegelten Flächen” (Site qualities and water balances of sealed areas). Zeitschrift für Pflanzenernährung und Bodenkunde, 160. pp. 41-46.

Maps

Dyck, S. et al. 1978:
Map of the potential evaporation, in: Angewandte Hydrologie, vol. 2, Verlag für Bauwesen, 1:1,000,000, Berlin.

SenStadtUm (Senate Department for Urban Development and Environmental Protection, Berlin) (ed.) 1994:
Berlin Environmental Atlas, 1994 version, Map 04.08.1-3 Long-Term Precipitation Distribution, Map 04.08.4 Runoff Formation from Precipitation, 1:125,000, Berlin.

SenStadtUmTech (Senate Department for Urban Development and Environmental Protection, Berlin) (ed.) 1996 B:
Berlin Environmental Atlas, digital version, Map 04.08.1-3 Long-Term Precipitation Distribution, Map 04.08.4 Runoff Formation from Precipitation, 1:125,000, Berlin.

SenStadtUmTech (Senate Department for Urban Development and Environmental Protection, Berlin) (ed.) 1998 C:
Berlin Environmental Atlas, digital version, Map 01.08 Area Heights, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2003 A:
Berlin Environmental Atlas, Map 02.07 Depths to Water Table, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2003 B:
Berlin Environmental Atlas, Map 02.17 New Groundwater Formation, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2004 A:
Berlin Environmental Atlas, Map 02.09 Disposal of Rain and Sewage, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2004 B:
Berlin Environmental Atlas, Map 01.02 Sealing, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2005 A:
Berlin Environmental Atlas, Map 06.01 Actual Use of Built-Up Areas, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2005 B:
Berlin Environmental Atlas, Map 06.02 Inventory of Green and Open Areas, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2005 C:
Berlin Environmental Atlas, Map 06.07 Urban Structure, 1:50,000, Berlin.

SenStadt (Senate Department for Urban Development, Berlin) (ed.) 2005 D:
Berlin Environmental Atlas, Map 01.01 Soil Associations, 1:50,000, Berlin.