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W3107782589 abstract "Abstract For arable soils, it is not clear whether closing a controlled drainage system leads to P mobilization due to water table rise and associated changes in redox‐induced biogeochemical processes. Therefore, we investigated P mobilization at different redox conditions using three spring barley ( Hordeum vulgare L.) cropped lysimeters filled with monoliths of arable northeastern German soil profiles. Pore water samples were collected weekly from three different depths, and dissolved (<0.45 μm) element concentrations of total C, P, Al, Fe, Mn, Ca, Mg, and K, as well as inorganic and organic C (DIC and DOC) and P (P i and P o ), SO 4 2− –S, and NO 2 − –N and NO 3 − –N were determined. The total P concentration in pore water collected from a given lysimeter at a given time was 1.8 mg P L − 1 maximum. Organic P concentrations in subsoil solutions were positively correlated with Fe concentrations. Grain yield of spring barley ranged between 5.6 and 6.5 Mg ha − 1, and total biomass P uptake was negatively correlated with the stable P stocks of the soil profiles. Results suggest that reductive conditions in subsoils led to dissolution of pedogenic Fe‐(oxy)hydroxides and release of P o compounds, the latter of which were more important for biomass P uptake than P released from stable P compounds. Overall, closing the drainage at the field site could represent a moderate P mobilization risk, which would probably be lower compared with a P mobilization risk caused by a heavy rainfall event." @default.
W3107782589 created "2020-12-07" @default.
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W3107782589 date "2020-01-01" @default.
W3107782589 modified "2023-10-12" @default.
W3107782589 title "Phosphorus cycling and spring barley crop response to varying redox potential" @default.
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W3107782589 cites W1971211649 @default.
W3107782589 cites W1972998622 @default.
W3107782589 cites W1973300080 @default.
W3107782589 cites W1975862087 @default.
W3107782589 cites W1979512669 @default.
W3107782589 cites W1989998931 @default.
W3107782589 cites W1990145540 @default.
W3107782589 cites W1992794196 @default.
W3107782589 cites W2001538347 @default.
W3107782589 cites W2003285183 @default.
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W3107782589 cites W2018733776 @default.
W3107782589 cites W2021832613 @default.
W3107782589 cites W2024065464 @default.
W3107782589 cites W2025656342 @default.
W3107782589 cites W2026307948 @default.
W3107782589 cites W2032090821 @default.
W3107782589 cites W2048348124 @default.
W3107782589 cites W2054865642 @default.
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W3107782589 cites W2115540472 @default.
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W3107782589 cites W2234129218 @default.
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W3107782589 cites W2303995206 @default.
W3107782589 cites W2327761603 @default.
W3107782589 cites W2734368657 @default.
W3107782589 cites W2769084561 @default.
W3107782589 cites W2809342245 @default.
W3107782589 cites W2901931776 @default.
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W3107782589 cites W318316966 @default.
W3107782589 cites W4241098582 @default.
W3107782589 cites W4245760120 @default.
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W3107782589 doi "https://doi.org/10.1002/vzj2.20088" @default.
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