早上好。

M. Drouillon, R. Merckx
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引用次数: 1314

摘要

在强固磷土壤中,低分子量羧酸盐的分泌是植物获取磷的重要途径。在5种有机质含量高、有效磷库低的酸性土壤中,研究了柠檬酸盐渗出对磷有效性的影响。柠檬酸10 mM萃取的钼酸盐活性磷量(0.1 ~ 2 mg kg)大于氯化钙10 M萃取的钼酸盐活性磷(MRP) (0.007 ~ 0.07 mg kg)。两种萃取剂在萃取前都调整到土壤pH值。柠檬酸提取物的总磷含量(2 ~ 44 mg kg)远高于cacl2的总磷含量(0.2 ~ 1.5 mg kg)。然而,MRP与总溶解P (TDP)的比率保持不变。当将柠檬酸加入到cacl2 -提取物中(将柠檬酸的pH调整为cacl2的pH,从而通过酸化消除P的释放)时,pH值显着增加。同时,MRP在除一种土壤外的所有土壤中均显著增加。这说明柠檬酸提高磷有效性的作用不仅与植物根际酸化有关,还与柠檬酸的Al和Fe络合能力有关。
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A. M. A.
Exudation of low molecular weight carboxylates is an important phosphorus (P) acquisition strategy for plants in strongly P-fixing soils. The effect of citrate exudation on P availability was studied in five acid soils with a large organic matter content and a low available P pool. The amount of molybdate reactive P extracted by citric acid 10 mM (0.1–2 mg kg) was larger than the molybdate reactive P (MRP) extracted by CaCl 2 10 M (0.007–0.07 mg kg). Both extractants were adjusted to soil pH prior to extraction. Also, the total P content of citric acid extracts (2–44 mg kg) far exceeded the total P content of CaCl 2 (0.2–1.5 mg kg). However, ratios of MRP to total dissolved P (TDP) remained constant. When citric acid was added to the CaCl 2 -extracts (the pH of citric acid being adjusted to the pH of CaCl 2 , and thus eliminating release of P through acidification) a significant pH increase was noted. Simultaneously, MRP increased significantly in all but one soil. This suggests that the P availability enhancing properties of citric acid are not only due to acidification of the plant rhizosphere, but also to its Al and Fe complexing capacity.
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