Immediate effects of wheeling with agricultural machinery on topsoil gas transport properties and their anisotropy
Literatur
Martínez I, Stettler M, Lorenz M, Brunotte J, Weisskopf P, Sommer M, Keller T (2024) Immediate effects of wheeling with agricultural machinery on topsoil gas transport properties and their anisotropy. Soil Tillage Res 241:106126, DOI:10.1016/j.still.2024.106126
Literatur
Saggau P, Busche F, Brunotte J, Duttmann R, Kuhwald M (2024) Soil loss due to crop harvesting in highly mechanized agriculture: A case study of sugar beet harvest in northern Germany. Soil Tillage Res 242:106144, DOI:10.1016/j.still.2024.106144
Literatur
Krauss M, Wiesmeier M, Don A, Cuperus F, Gattinger A, Gruber S, Haagsma WK, Peigne J, Chiodelli Palazzoli M, Schulz F, van der Heijden MGK, Vincent-Caboud L, Wittwer RA, Zikeli S, Steffens M (2022) Reduced tillage in organic farming affects soil organic carbon stocks in temperate Europe. Soil Tillage Res 216:105262, DOI:10.1016/j.still.2021.105262
Quantification of soil pore dynamics during a winter wheat cropping cycle under different tillage regimes
Literatur
Kreiselmeier J, Chandrasekhar P, Weninger T, Schwen A, Julich S, Feger KH, Schwärzel K (2019) Quantification of soil pore dynamics during a winter wheat cropping cycle under different tillage regimes. Soil Tillage Res 192:222-232, DOI:10.1016/j.still.2019.05.014
Maize carbon dynamics are driven by soil erosion state and plant phenology rather than nitrogen fertilization form
Literatur
Hoffmann M, Pohl M, Jurisch N, Prescher A-K, Mendez Campa E, Hagemann U, Remus R, Verch G, Sommer M, Augustin J (2018) Maize carbon dynamics are driven by soil erosion state and plant phenology rather than nitrogen fertilization form. Soil Tillage Res 175:255-266, DOI:10.1016/j.still.2017.09.004
Approaches to model the impact of tillage implements on soil physical and nutrient properties in different agro-ecosystem models
Literatur
Maharjan GR, Prescher A-K, Nendel C, Ewert F, Mboh CM, Gaiser T, Seidel SJ (2018) Approaches to model the impact of tillage implements on soil physical and nutrient properties in different agro-ecosystem models. Soil Tillage Res 180:210-221, DOI:10.1016/j.still.2018.03.009
The effect of deep tillage on crop yield - What do we really know?
Literatur
Schneider F, Don A, Hennings I, Schmittmann O, Seidel SJ (2017) The effect of deep tillage on crop yield - What do we really know? Soil Tillage Res 174:193-204, DOI:10.1016/j.still.2017.07.005
Effect of ploughing depth and mechanical soil loading on soil physical properties, weed infestation, yield performance and grain quality in sole and intercrops of pea and oat in organic farming
Literatur
Gronle A, Lux G, Böhm H, Schmidtke K, Wild M, Demmel M, Brandhuber R, Wilbois KP, Heß J (2015) Effect of ploughing depth and mechanical soil loading on soil physical properties, weed infestation, yield performance and grain quality in sole and intercrops of pea and oat in organic farming. Soil Tillage Res 148:59-73, DOI:10.1016/j.still.2014.12.004
Estimating residual water content in air-dried soil from organic carbon and clay content
Literatur
Poeplau C, Eriksson J, Kätterer T (2015) Estimating residual water content in air-dried soil from organic carbon and clay content. Soil Tillage Res 145:181-183, DOI:10.1016/j.still.2014.09.021
Spatial analyses of field traffic intensity and modeling of changes in wheel load and ground contact pressure in individual fields during a silage maize harvest
Literatur
Duttmann R, Brunotte J, Bach M (2013) Spatial analyses of field traffic intensity and modeling of changes in wheel load and ground contact pressure in individual fields during a silage maize harvest. Soil Tillage Res 126:100-111, DOI::10.1016/j.still.2012.09.001