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Engels veröffentlichte 1888 in seiner Broschüre "Ludwig Feuerbach und der Ausgang der klassischen deutschen Philosophie" im Verlag von J.H.W. Dietz in Stuttgart einen Anhang "Karl Marx über Feuerbach (niedergeschrieben in Brüssel im Frühjahr 1845)". Der Text stammte aus einem Notizbuch von Marx, das Listen von Büchern, Namen, Adressen, kurze Auszüge, Gedanken, Entwürfe und Bemerkungen verschiedener Art enthält, darunter diese elf Thesen, die Marx mit "1) ad Feuerbach" überschrieben hatte <a href="http://nbn-resolving.de/urn:nbn:de:kobv:b4-opus-17680">(siehe Karl Marx: "1) ad Feuerbach". In: MEGA IV/3)</a>. Engels hat ihn für die Veröffentlichung überarbeitet. Er wurde danach unter dem Titel "Feuerbach-Thesen" oder "Thesen über Feuerbach" bekannt. Im MEGA-Band I/30 wird der Text in der Version von Engels (S. 792-794) zusammen mit einem Verzeichnis der Änderungen von Engels am Text von Marx (S. 794-796) dargeboten. Zusätzliche Informationen über die Entstehung und Einordnung des Anhangs bieten die betreffenden Passagen aus der Einführung (S. 590-592) und dem Abschnitt "Entstehung und Überlieferung" (S. 780 und 787-788) im MEGA-Band I/30.
10. Anhang
(2011)
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.
[Titelei] Jahrbuch 2010
(2011)
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.
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.
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.