Mario Feifel
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View article: Long‐Term Effects of No‐Till Systems on Soil Structure and Function Under Climate Change: An Exploratory Modelling Study
Long‐Term Effects of No‐Till Systems on Soil Structure and Function Under Climate Change: An Exploratory Modelling Study Open
No‐till may have the potential to improve the resilience of agricultural systems to climate change by enhancing soil structure and soil health. However, the experimental evidence for this is inconclusive because few field trials have been …
View article: Modelling the long-term impacts of conservation agriculture on soil structure , soil organic matter and the water balance under climate change.
Modelling the long-term impacts of conservation agriculture on soil structure , soil organic matter and the water balance under climate change. Open
Conservation agriculture practices, such as reduced tillage and residue retention, have gained attention for their potential to enhance agricultural system resilience to climate change and to combat soil degradation. However, conventional …
View article: Effects of improved water retention by increased soil organic matter on the water balance of arable soils: A numerical analysis
Effects of improved water retention by increased soil organic matter on the water balance of arable soils: A numerical analysis Open
Climate change will lead to prolonged droughts in various regions of the world, which may significantly affect agricultural production. This is particularly problematic for soils with low water retention capacity, which cannot store suffic…