Paul, C., Dönmez, C., Koeppe, P., Robinson, J. S. S., Barnickel, S. (2022). Dataset of indicators for the assessment of ecosystem services affected by agricultural soil management. Data, 7(8), Article 102.
Lang, B., Russell, D. J. (2022). Excretion of nitrogenous waste by soil fauna and assessment of the contribution to soil nitrogen pools. soil-organisms, 94(2), 69–83. doi:10.25674/so94iss2id182
The provisioning of nitrogen for plant growth is a key function of soils. Soil fauna primarily affect nitrogen mineralization through their interactions with microorganisms, but the excretion of feces and nitrogenous waste products can also supply plants with a considerable amount of their nitrogen …
Lang, B. and Russell, D.J. (2022.0). Excretion of nitrogenous waste by soil fauna and assessment of the contribution to soil nitrogen pools. Soil Organisms, 94 (2)(August 2022), 69-83. doi:https://doi.org/10.25674/so94iss2id182
Möckel S., Wolf A. (2022.0). Flurbereinigung: Privatnützigkeit und Ökosystemleistungen. Natur und Recht, 44(1), 11-20. doi:10.1007/s10357-021-3946-8
ZusammenfassungFlurbereinigung diente lange Zeit der Umgestaltung des ländlichen Raums hin zu intensiv genutzten Agrar- und Forstlandschaften. Sie ist aufgrund der rechtlichen Festsetzungsmöglichkeiten aber auch hervorragend geeignet, diese Landschaften nunmehr an den Klimawandel und die sonstigen ö…
Perković S., Paul C., Vasić F., Helming K. (2022.0). Human Health and Soil Health Risks from Heavy Metals, Micro(nano)plastics, and Antibiotic Resistant Bacteria in Agricultural Soils. Agronomy, 12(12), 2945. doi:10.3390/agronomy12122945
Humans are exposed to agricultural soils through inhalation, dermal contact, or the consumption of food. Human health may be at risk when soils are contaminated; while some soil contaminants such as heavy metals (HMs) have been extensively studied, others such as micro(nano)plastics (MNPs) or antibi…
Paul, C., Helming, K., Strauss, K., Bartkowski, B., Gattinger, A., Wiesmeier, M. (2022). Mit Humus die Welt retten?. topagrar Spezial, 08/22(), 42-47.
Ließ, M. (2022.0). Modeling the Agricultural Soil Landscape of Germany—A Data Science Approach Involving Spatially Allocated Functional Soil Process Units. Agriculture, 12(11), 1784.
Schmelmer, K., Eberhardt, E. (2022.0). Nutzung regionalisierter Bodendaten in Bodenprozessmodellen – Definition und Bewertung der Ähnlichkeit zwischen Bodenprofilen. DBG Tagung 2022 Grenzen überwinden, Skalen überschreiten, 5. - 8. September 2022, Trier(), .
https://eprints.dbges.de/1852/1/DBG_2022_Tagungsbeitrag%20Schmelmer.pdf
Donmez, C., Blanchy, G., Svoboda, N., D'Hose, T., Hoffmann, C., Hierold, W., Klumpp, K. (2022). Provision of metadata of european agricultural long-term experiments through BonaRes and EJP SOIL collaboration. Data in Brief, 42(Article 108226), .
Hamidov A., Kasymov U., Djumaboev K., Paul C. (2022). Rebound Effects in Irrigated Agriculture in Uzbekistan: A Stakeholder-Based Assessment. Sustainability, 14(14), 8375. doi:10.3390/su14148375
There is wide consensus among scholars and practitioners that improved irrigation technologies increase farm productivity and improve resource use efficiency. However, there is also growing empirical evidence that efficiency improvements in irrigation water use may create rebound effects, i.e., they…