Erweiterte Suche der Leibniz Universität Hannover

Isothermal and nonisothermal evaporation from four sandy soils of different water repellency authored by J. Bachmann, R. Horton, R. R. Van Der Ploeg Abstract Soil water evaporation is an important component of the surface energy balance.

Isothermal and nonisothermal evaporation from four sandy soils of different water repellency verfasst von J. Bachmann, R. Horton, R. R. Van Der Ploeg Abstract Soil water evaporation is an important component of the surface energy balance.

Isothermal and nonisothermal evaporation from four sandy soils of different water repellency authored by J. Bachmann, R. Horton, R. R. Van Der Ploeg Abstract Soil water evaporation is an important component of the surface energy balance.

Occurrence and spatial pattern of water repellency in a beech forest subsoil authored by Jörg Bachmann, Jiem Krueger, Marc O. Goebel, Stefanie Heinze Abstract Most recent studies on soil water repellency WR were limited to the humous topsoil or to shallow subsoil layers slightly below the main root zone to approximately 0.5 m depth.

Carbon mineralization in soil Impact of wetting drying, aggregation and water repellency authored by A. Lamparter, J. Bachmann, M. O. Goebel, S. K. Woche Abstract Carbon sequestration in soil is influenced by chemical and physical soil properties.

Reaction of soil water repellency to artificially induced changes in soil pH verfasst von D. Diehl, J. V. Bayer, S. K. Woche, R. Bryant, S. H. Doerr, G. E. Schaumann Abstract Soil water repellency SWR is widely thought to be influenced by soil pH, however, few studies have systematically investigated the relationship between these variables.

Carbon mineralization in soil Impact of wetting drying, aggregation and water repellency verfasst von A. Lamparter, J. Bachmann, M. O. Goebel, S. K. Woche Abstract Carbon sequestration in soil is influenced by chemical and physical soil properties.

Determination of small scale spatial heterogeneity of water repellency in sandy Soils verfasst von A. Lamparter, J. Bachmann, S. K. Woche Abstract The degree of water repellency in soils is commonly characterized by the contact angle CA .

Carbon mineralization in soil Impact of wetting drying, aggregation and water repellency verfasst von A. Lamparter, J. Bachmann, M. O. Goebel, S. K. Woche Abstract Carbon sequestration in soil is influenced by chemical and physical soil properties.

In this study the effect of water repellency on both imbibition and drainage SHP was studied. Inflow/outflow experiments were conducted in the laboratory for two soils and two artificially created hydrophobic mixtures.

Specific processes during in situ infiltration into a sandy soil with low level water repellency authored by Christina Ganz, Jörg Bachmann, Axel Lamparter, Susanne K. Woche, Wilhelmus H.M. Duijnisveld, Marc O. Göbel Abstract Despite growing knowledge about water repellent soils it is not well investigated how soil water repellency SWR of a lower level influences the in situ water infiltration into soils. Hence, we investigate...

Specific processes during in situ infiltration into a sandy soil with low level water repellency verfasst von Christina Ganz, Jörg Bachmann, Axel Lamparter, Susanne K. Woche, Wilhelmus H.M. Duijnisveld, Marc O. Göbel Abstract Despite growing knowledge about water repellent soils it is not well investigated how soil water repellency SWR of a lower level influences the in situ water infiltration into soils. Hence, we investigat...

Does water repellency of pyrochars and hydrochars counter their positive effects on soil hydraulic properties? verfasst von Nina Eibisch, Wolfgang Durner, Michel Bechtold, Roland Fuß, Robert Mikutta, Susanne K.

Development and application of a new sessile drop contact angle method to assess soil water repellency authored by J. Bachmann, A. Ellies, K. H. Hartge Abstract Existing methods for determining the contact angle as a measure of the water repellency of soils are either indirect, or cumbersome and time consuming.

Development and application of a new sessile drop contact angle method to assess soil water repellency verfasst von J. Bachmann, A. Ellies, K. H. Hartge Abstract Existing methods for determining the contact angle as a measure of the water repellency of soils are either indirect, or cumbersome and time consuming.