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In Lower Lusatia, eastern Germany, the changing impacts of lignite coal mining and potential climate change have put the naturally low water yield conditions under pressure. Water resources balances describe the hydrological situation in the region and the need for action due to changing boundary conditions. Extended transfer of flood water from neighbouring catchments is considered inevitable for sustainable regional development and the establishment of a quantitatively and qualitatively selfregulated water system. Using the river basin management system WBalMo®, potential water transfer scenarios to compensate for water deficits resulting from regional and global change are analysed.
The present study explores whether regional water resources can be used more efficiently by Brandenburg’s farming systems. A description of agriculture in Brandenburg today is followed by a systematic analysis of measures to raise the water efficiency. Brandenburg’s agricultural systems are divided into three sections: soil, plant production and livestock farming. Within these sections measures to increase water efficiency are listed and analysed with reference to five objective criteria for raising water use efficiency. In view of the complexity of farming systems in Brandenburg, general measures to raise water use efficiency could not be derived. Site-specific tillage practices and crop patterns adjusted to recent weather conditions may reflect the specific diversity of Brandenburg more efficiently.
Global climate change and aspects of regional climate change in the Berlin-Brandenburg region
(2011)
To obtain an estimate of the average temperature of the northern hemisphere during the last 1200 years, proxy data have been merged with instrumental recordings. These instrumental measurements are, with a few exceptions, only available for the recent 150 years. In the city of Berlin the temperature has been recorded since as early as 1701. However, during the first 150 years the measurements were problematic as location, measurement procedure and instruments changed frequently and without proper documentation. From 1847 onwards observations became more reliable once the Royal Prussian Meteorological Institute had been established. For the last 100 years temperature and precipitation measurements have been performed in parallel at Berlin-Dahlem and Potsdam. The datasets recorded in the city of Berlin and in Berlin-Dahlem have been merged to obtain a record of more than 300 years. It indicates that the temperature of Berlin has risen by 1.04°C during the last 100 years after correcting for the urbanisation effect. In the same period, the total number of frost days has significantly decreased by almost 17 days, and the number of summer days has significantly increased by about 12 days. Annual mean precipitation has hardly changed (decrease less than 0.2 %) during the last century. However, rainfall has decreased by about 4 % in summer and increased by 3 % in winter. All precipitation changes are below the 95 % ignificance level. Model projections indicate that warming will continue which means that Berlin-Brandenburg will experience a temperature rise of about 3-3.5°C by the end of this century for the IPCC scenario A1B. For the same scenario precipitation is expected to increase by 10-20 % in winter and to decrease by 10-30 % in summer: The seasonal precipitation changes compensate each other resulting in an almost unchanged annual mean.
This special issue of DIE ERDE presents selected key topics discussed within the BBAW working group, including work by group members and invited external researchers, containing nine articles highlighting “Regional Water Challenges” resulting from different kinds of environmental and social changes. We aim to present the complexity of interaction between changes and responses. While the first four articles focus on describing climatic and hydrological changes and their causes, the following five articles focus more on possible mitigation and adaptation measures.
Climate change is expected to increase water scarcity in northeast Germany. Land-use change is one of the options of mitigation that is intensely discussed in this region. This review aims at giving a compilation of existing data and modelling studies in order to investigate the potential and the limits of the land-use change approach.
The climate change debate has increased the need for knowledge on both long- and short-term regional environmental changes. In general, these changes may often be a product of multiple causes, which complicates the separation of single driving forces. In this review we focus on current water budget changes in Germany’s capital region, Berlin-Brandenburg, over the last 30 years. Available studies from a variety of disciplines (e.g. hydrology, water engineering, landscape ecology, nature conservation) were analysed in order to (1) identify both local and regional hydrological changes, (2) reveal their potential causes, and (3) discuss responses of ecosystems and society. These studies show that the Berlin-Brandenburg region is widely characterised by decreasing groundwater recharge, leading to decreasing groundwater and lake levels as well as decreasing fluvial discharge. These trends result both from complex, regional human impacts (e.g. long-term effects of hydro-melioration and changes in forest composition) and more general climate warming. The observed and assumed (future) changes of the regional water balance have been creating, and will continue to create, multifaceted impacts on existing ecosystems and society (e.g. wetland drying, decrease of biodiversity, decrease of productivity of grasslands and forests, increasing conflicts of interests). Several efforts to respond to the regional water deficit problem have already been undertaken, comprising for instance land-use optimisation, wetland restoration measures and the reestablishment of mixed deciduous forests. In general, however, the reviewed regional material on this topic reveals that the number and complexity of empirical studies are still poor. Thus, for both the identification and the explanation of current water balance changes and their effects, as well as for development and implementation of adaptive strategies, further multidisciplinary research efforts at different scales, including interregional comparisons, are required. Furthermore, both the observation of hydrological changes and the evaluation of adaptive and mitigative responses require at least continuous or, even better, extended monitoring efforts.
For decades, water resources have been used intensively for drinking water, industry, agriculture and energy production. This paper summarises the main anthropogenic influences on the water cycle in a Pleistocene landscape and associated geochemical reactions. The results allow the identification and description of the main hydraulic and geochemical processes that control water and solute fluxes in different hydrological compartments, in particular recharge and discharge regions. Under progressive climate change, this process-based knowledge should be used to adapt land and water management to minimise negative impacts on hydrological resources and stabilise the regional water balance in theBerlin-Brandenburg Pleistocene landscape. Based on these results, a risk assessment approach for validation of future management strategies under changing climate conditions is presented.
Since humans are preferentially settling in flood plains they often influence freshwater systems intensely. The first signs of anthropogenic impacts on surface waters in the Berlin-Brandenburg region are approximately 3000 years old. Considering the multiple and intense human uses of surface waters in this region, we analysed when, how and to which extent regional rivers and streams became impacted by dams, water mills and fish weirs resulting in changes in morphology, hydrology and ecological functioning. We hypothesise that the development and growth of cities in this region necessitated (1) efficient navigability of rivers linking them, (2) efficient use of hydropower resources for mills, and (3) significant pollution of surface waters especially with the beginning of industrial development. We analyse these hypotheses by means of three regional examples and delineate the effects of human uses on selected surface water bodies. Understanding the effects of these historic modifications of surface water supports the identification of options for a sustainable use of surface waters that are currently still subjected to multiple uses but face a significant decrease in discharge due to climate change.
Global change is posing a major challenge to existing forms of natural resource use, socio-economic development and institutional regulation. Although trends such as climate change, socio-economic transformation and institutional change are global in their scope, they have very specific regional outcomes. Regionally distinct coping strategies are required which take into account both the diversity of regional impacts of global change and the local contexts of appropriate responses. This paper explores the impacts of global change on the management of water infrastructure systems in the Berlin-Brandenburg region in terms of three concurrent and overlapping challenges: climate change, socio-economic change and institutional change. It subsequently examines how regional actors in the water sector are addressing these three dimensions of global change.
The article informs about historical developments and recent problems in the former wetlands of the Oderbruch, which has been cultivated for agricultural use for 300 years, and in the fen region of the Rhin-Havel-Luch. The periodically inundated floodplains of Oderbruch are characterised by rich-in-clay sedimentation soils, while Rhin-Havel-Luch is a year-round wet fen region with peat soils. In both areas land use necessarily requires an adequate regional water management, employing measures and system solutions for river training, dike construction, drainage and soil cultivation. Options for action and adaptation strategies for the next 20 to 40 years, based on many years of own analyses and case studies, are presented and discussed. The article also considers an aggravation of the problems to be expected from climate change.
This special issue of DIE ERDE presents selected key topics discussed within the BBAW working group, including work by group members and invited external researchers, containing nine articles highlighting “Regional Water Challenges” resulting from different kinds of environmental and social changes. We aim to present the complexity of interaction between changes and responses. While the first four articles focus on describing climatic and hydrological changes and their causes, the following five articles focus more on possible mitigation and adaptation measures.
This special issue of DIE ERDE presents selected key topics discussed within the BBAW working group, including work by group members and invited external researchers, containing nine articles highlighting “Regional Water Challenges” resulting from different kinds of environmental and social changes. We aim to present the complexity of interaction between changes and responses. While the first four articles focus on describing climatic and hydrological changes and their causes, the following five articles focus more on possible mitigation and adaptation measures.
Besondere Anforderungen bestehen an die wasserwirtschaftliche Planung und Bewirtschaftung, aber auch an die Bilanzierung sowohl in der "Problemregion" Berlin-Brandenburg als auch insgesamt in der Region Nordostdeutschland. Die sich ständig ändernden Rahmen- und Randbedingungen des globalen und regionalen Wandels werden zusamengetragen und die Herausforderungen für alle Beteiligten von den Verursachern über die Betroffenen und die Entscheidungsträger in Politik und Wirtschaft bis hin zu den verschiedensten an der Prozess- und Problemaufklärung sowie Problembewältigung arbeitenden Wissenschaftsdisziplinen benannt.
Diese Expertise ist als Beitrag zur neueren empirischen Forschung zu institutionellen Erwiderungen auf den globalen Wandel auf regionaler Ebene zu verstehen. Am Beispiel von Wasserinfrastruktursystemen in der Region Berlin-Brandenburg wird analysiert, wie diese sozio-technischen bzw. sozio-ökologischen Systeme von verschiedenen Phänomenen des globalen Wandels tangiert werden (können) und wie bisher von den verantwortlichen Stellen darauf reagiert wurde. Sowohl in fachlicher wie auch in methodischer Hinsicht betritt die Studie Neuland. Deshalb erhebt sie keinen Anspruch auf Vollständigkeit. Sie dient stattdessen der wissenschaftlichen Exploration und Perspektiverweiterung über Wasserinfrastruktursysteme im globalen Wandel, deren Funktionen und deren institutionelle Regelung.
Die hiesigen Standorte mit leichten Böden und resultierender geringer Wasserspeicherkapazität könnten bei häufigeren und lang anhaltenden Trockenperioden zukünftig an Ertragsfähigkeit verlieren, sofern kein Beregnungswasser zur Verfügung steht. In der Tierhaltung wird eine erwartete zunehmende Erwärmung zu höheren Ansprüchen an die Temperaturregulierung der Ställe und einer Erhöhung des Tränkwasserbedarfs führen. Um die Wettbewerbsfähigkeit in der brandenburgischen Landwirtschaft – auch unter dem Anspruch der Nachhaltigkeit – zu erhalten und weiter zu entwickeln, ist es nötig, sich intensiv den Teilbereichen Boden, Pflanzen, Tierhaltung und deren Interaktionen zu widmen. Da das ,System landwirtschaftlicher Betrieb' nur so gut wie sein schwächster Bestandteil ist, erscheint es sinnvoll, die Teilbereiche und Verknüpfungen unter den Aspekten Wassermanagement und Wassereffizienz kritisch auf Schwachstellen und Verbesserungsmöglichkeiten zu untersuchen. In dieser Expertise wird ein systematischer Zugang gewählt: das Wassermanagement wird dargestellt, systematisch werden Chancen und Möglichkeiten zur Steigerung der Wassereffizienz katalogartig erörtert. Die Expertise ist regional auf den Raum Brandenburg und Berlin bezogen.
Ziel dieser Expertise ist es, zunächst einen Überblick über die Situation und Einflussfaktoren des Landschaftswasserhaushalts in Berlin und Brandenburg zu geben. Dabei wird auch auf die historische Entwicklung eingegangen, ohne die ein Verständnis der heutigen Situation nur eingeschränkt möglich wäre. Das Wechselspiel zwischen klimatischen Änderungen und anthropogener Einflussnahme prägt den Landschaftswasserhaushalt der Region seit Jahrhunderten. Schließlich werden die erwarteten Änderungen für die nächsten Jahrzehnte dargestellt und Anpassungsoptionen diskutiert. Dabei wird auch der Unsicherheit der Szenarienrechnungen Rechnung getragen.
Noch vor seinem Studium in Freiberg bei A. G. Werner betrieb Alexander von Humboldt umfangreiche geognostische und salinistische Studien, die schließlich Eingang in die 1790 erschienene Abhandlung „Mineralogische Beobachtungen über einige Basalte am Rhein“ und in „Versuch über einige physikalische und chemische Grundsätze der Salzwerkskunde“ (1792) gefunden haben. Wesentlichen Einfluss auf diese frühen geognostischen Arbeiten, die bis 1795 rund 31 % der wissenschaftlichen Tätigkeit Humboldts ausfüllten, hatten seine ersten Geognosielehrer J. F. Blumenbach und H. F. Link. Auf Grund der zeitlichen Einordnung der Rheinreise von 1789 und der umfassenden Kenntniss der geognostischen Literatur durch Humboldt kann mit einiger Sicherheit davon ausgegangen werden, dass die in diesem Aufsatz zitierten geognostischen Passagen aus dem Tagebuch von Steven Jan van Geuns unter dem direkten Einfluss Humboldts während der Reise entstanden sind. Die zitierten Texte aus dem Tagebuch dürften somit als die frühesten Äußerungen Humboldts zum Vulkanismus, zur Geognosie der Basalte und zur Salinistik gelten.