A theoretical approach of a hierarchical spatial framework concept for spring habitats is presented in this paper. The concept is based on existing classifications of running water and on empirical studies of spring ecosystems. Hierarchical spatial categorisation is applied to study spring areas of forest ecosystems in low mountain ranges of Germany. A spatial concept for springheads is designed to aid the illustration and understanding of functional, structural and process relationships on different scales. Here, multiple geographical dimensions and hydrological scales and their terms are compared in an integrated system. This integrated approach is needed if a water body is to be studied as an ecosystem rather than just a hydrological system. The goal of this hierarchical spatial framework is to establish a conceptual foundation for the study of fauna-microhabitat relationships and for the analysis of the substrate preference of the invertebrate fauna of spring ecotones. This paper presents a surface water typology for patchy forest springs with different habitat types. Most of these habitat types of the 152 investigated springs are dominated by organic substrate types as micro habitats (74.7 %) with subdominant mineral substrate types. Therefor the most dominant habitat type (HT) is "CPOM dominated, Psammopelal abounded" HT (19.7 %), followed by the HT "Macrophytes dominated, Psammopelal abounded" (13.2 %) and the HT "CPOM dominated, Microlithal abounded" (9.9 %). More underrepresented habitat types are pure mineral substrate types (10.5 %) like the HT "Psammopelal dominated" (5.9 %). There were also less artificial habitat types (7.2 %), because the study focused on undisturbed spring habitats inside the field survey.
Springs are autochthonous aquatic ecotones with complex functional properties and heterogeneous ecomorphological structures. Within a small spatial extent, invertebrates are highly diverse and mainly composed of species adapted to the surface-subterranean water interface, the aquatic-terrestrial interface or to the spring habitat itself. In this publication, a first synopsis of limnoecological case studies of springs from the Lowlands of Schleswig-Holstein, the low mountain ranges of Hesse and Thuringia, the pre-Alps of the Jura Mountains in Switzerland and the Alps in Germany and Switzerland is presented. The field surveys conducted in the different areas focus on an ecological assessment of spring habitats, distribution patterns of the invertebrate fauna and specific regional characteristics. A regional faunistic differentiation of spring-related invertebrate species is evident. A change in the faunistic composition in general and a loss of crenobionts owing to climatic and land-use changes are expected. In addition, it should be noted that long-term monitoring data required to make reliable statements about future developments in the distribution of spring species and to predict habitat conditions are not available.
An integrative theoretical concept-combining scientific approaches from soil science and slope hydrology-is given as a framework to study the influence of depth functions of geochemical concentrations for trace elements, dissolved organic carbon and stable isotopes in the soil pore water of stratified soils on the chemical composition of the hillslope runoff. Combining investigations at the point and hillslope scale opens the opportunity to identify sources of subsurface runoff components using geochemical depth functions as proxies.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.