Jan Wolff scite author profile

Barium strontium titanate thin films with different Ba/Sr ratios deposited by radio-frequency magnetron sputtering are studied with respect to their composition using in situ X-ray photoelectron spectroscopy. The deposited samples can be described as either titanium-rich or stoichiometric, with cation B/A ratios (i.e., ratios between the Ti and (Ba þ Sr) concentrations) of 1.2-1.6 or 0.7-1.0, respectively. Volume sensitive compositional analysis using transmission electron microscopy shows a non-stoichiometry, which is less pronounced than at the surface. X-ray diffraction only shows cubic perovskite reflections. Together with photoelectron binding energy differences and full widths at half maxima of the Ti 2p and O 1s emissions, this indicates that all films consist of a single phase. The relation between oxygen concentration and B/A ratio further indicates that the deviation of stoichiometry is accommodated by removal or insertion of (Ba,Sr)O. The higher variation of (Ba,Sr)O content near the surface as compared to the bulk may be associated to an increased strain, which is proposed to contribute to surface roughening.

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Soil phosphorus status and P nutrition strategies of European beech forests on carbonate compared to silicate parent material

Prietzel¹,

Krüger

Kaiser

et al. 2022

Biogeochemistry

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Sustainable forest management requires understanding of ecosystem phosphorus (P) cycling. Lang et al. (2017) [Biogeochemistry,https://doi.org/10.1007/s10533-017-0375-0] introduced the concept of P-acquiring vs. P-recycling nutrition strategies for European beech (Fagus sylvatica L.) forests on silicate parent material, and demonstrated a change from P-acquiring to P-recycling nutrition from P-rich to P-poor sites. The present study extends this silicate rock-based assessment to forest sites with soils formed from carbonate bedrock. For all sites, it presents a large set of general soil and bedrock chemistry data. It thoroughly describes the soil P status and generates a comprehensive concept on forest ecosystem P nutrition covering the majority of Central European forest soils. For this purpose, an Ecosystem P Nutrition Index (ENIP) was developed, which enabled the comparison of forest P nutrition strategies at the carbonate sites in our study among each other and also with those of the silicate sites investigated by Lang et al. (2017). The P status of forest soils on carbonate substrates was characterized by low soil P stocks and a large fraction of organic Ca-bound P (probably largely Ca phytate) during early stages of pedogenesis. Soil P stocks, particularly those in the mineral soil and of inorganic P forms, including Al- and Fe-bound P, became more abundant with progressing pedogenesis and accumulation of carbonate rock dissolution residue. Phosphorus-rich impure, silicate-enriched carbonate bedrock promoted the accumulation of dissolution residue and supported larger soil P stocks, mainly bound to Fe and Al minerals. In carbonate-derived soils, only low P amounts were bioavailable during early stages of pedogenesis, and, similar to P-poor silicate sites, P nutrition of beech forests depended on tight (re)cycling of P bound in forest floor soil organic matter (SOM). In contrast to P-poor silicate sites, where the ecosystem P nutrition strategy is direct biotic recycling of SOM-bound organic P, recycling during early stages of pedogenesis on carbonate substrates also involves the dissolution of stable Ca-Porg precipitates formed from phosphate released during SOM decomposition. In contrast to silicate sites, progressing pedogenesis and accumulation of P-enriched carbonate bedrock dissolution residue at the carbonate sites promote again P-acquiring mechanisms for ecosystem P nutrition.

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Bioavailability and -accessibility of subsoil allocated 33P-labelled hydroxyapatite to wheat under different moisture supply

Wolff

Hofmann

Koch

et al. 2020

Sci Rep

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Information on the bioavailability and -accessibility of subsoil phosphorus (P) and how soil moisture affects its utilization by plants is scarce. The current study examined whether and to which degree wheat acquires P from subsoil allocated hydroxyapatite and how this could be affected by soil moisture. We investigated the 33P uptake by growing wheat in two rhizotron trials (soil and sand) with integrated 33P-labelled hydroxyapatite hotspots over a period of 44 days using digital autoradiography imaging and liquid scintillation counting. We applied two irrigation scenarios, mimicking either rainfall via topsoil watering or subsoil water storage. The plants showed similar biomass development when grown in soil, but a reduced growth in sand rhizotrons. Total plant P(tot) stocks were significantly larger in plants grown under improved subsoil moisture supply, further evidenced by enhanced P stocks in the ears of wheat in the sand treatment due to an earlier grain filling. This P uptake is accompanied by larger 33P signals, indicating that the plants accessed the hydroxyapatite because subsoil irrigation also promoted root proliferation within and around the hotspots. We conclude that even within a single season plants access subsoil mineral P sources, and this process is influenced by water management.

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Jan Wolff

Rapid wet chemical synthesis for 33P-labelled hydroxyapatite – An approach for environmental research

Off‐Stoichiometry of Magnetron Sputtered Ba_1−xSr_xTiO₃ Thin Films

Soil phosphorus status and P nutrition strategies of European beech forests on carbonate compared to silicate parent material

Bioavailability and -accessibility of subsoil allocated 33P-labelled hydroxyapatite to wheat under different moisture supply

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Jan Wolff

Rapid wet chemical synthesis for 33P-labelled hydroxyapatite – An approach for environmental research

Off‐Stoichiometry of Magnetron Sputtered Ba1−xSrxTiO3 Thin Films

Soil phosphorus status and P nutrition strategies of European beech forests on carbonate compared to silicate parent material

Bioavailability and -accessibility of subsoil allocated 33P-labelled hydroxyapatite to wheat under different moisture supply

Contact Info

Product

Resources

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Off‐Stoichiometry of Magnetron Sputtered Ba_1−xSr_xTiO₃ Thin Films