Legume crops use a phosphorus-mobilising strategy to adapt to low plant-available phosphorus in acidic soil in southwest China

Mei Chen, Xin Luo, Long Jiang, Rui Dong, K.H.M. Siddique, Jin He
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Abstract

Phosphorus (P) deficiency significantly affects crop productivity, especially legume crops. Therefore, it is important to understand the P-acquisition strategies of different leguminous crops. In this study, we undertook a pot experiment with 11 legume crops (soybean, faba bean, pea, cowpea, common bean, lentil, adzuki bean, chickpea, grass pea, red kidney bean and common vetch) to investigate P-acquisition strategies related to root morphology, organic acid and acid phosphatase exudations, and arbuscular mycorrhizal fungi (AMF) colonisation under low (4.4 mg/kg) and optimal (40 mg/kg) P conditions. The results revealed that P deficiency significantly decreased biomass and P accumulation, root length (10.5%), and root surface area (7.9%), increased organic acid exudation (80.2%) and acid phosphatase activity (16.8%), and did not affect root diameter or root AMF colonisation rate. Principal component analysis revealed a positive correlation between organic acid exudation and acid phosphatase activity, while root length and root surface area negatively correlated with organic acid exudation, acid phosphatase activity and root AMF colonisation rate. P accumulation positively correlated with root length, surface area, and diameter but negatively correlated with organic acid exudation, acid phosphatase activity, and AMF colonisation rate. These findings confirmed the following: (1) legume crops use a P-mobilisation strategy related to organic acid exudation and acid phosphatase activity to acquire P under low soil P conditions; (2) organic acid exudation coincided with acid phosphatase activity to mobilise soil inorganic and organic P, improving P accumulation; (3) a trade-off exists between the P-scavenging strategy related to root morphology traits and mobilisation strategy.
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豆科作物利用磷动员策略来适应中国西南酸性土壤中植物有效磷的低水平
磷(P)缺乏显著影响作物产量,尤其是豆科作物。因此,了解不同豆科作物对磷的获取策略具有重要意义。本研究undertookÂ对11种豆科作物(大豆、蚕豆、豌豆、豇豆、普通豆、扁豆、小豆、鹰嘴豆、Â草豆、红芸豆和豌豆)进行盆栽试验,研究在低磷(4.4 mg/kg)和优磷(40 mg/kg)条件下,与根系形态、有机酸和酸性磷酸酶分泌以及枝状菌根真菌(AMF)定植有关的磷获取策略。结果表明,缺磷显著降低了水稻生物量和磷积累量,显著降低了根系长度(10.5%)和表面积(7.9%),显著增加了有机酸分泌量(80.2%)和酸性磷酸酶活性(16.8%),但对根系直径和AMF定植率没有影响。主成分分析表明,有机酸分泌量与酸性磷酸酶活性呈正相关,根长和根表面积与有机酸分泌量、酸性磷酸酶活性和根AMF定殖率呈负相关。磷积累量与根长、根表面积和根径呈正相关,与有机酸分泌量、酸性磷酸酶活性和AMF定殖率呈负相关。这些发现证实了以下结论:(1)在低磷土壤条件下,豆科作物利用有机酸分泌和酸性磷酸酶活性相关的磷素动员策略来获取磷;(2)有机酸分泌与酸性磷酸酶活性一致,调动土壤无机磷和有机磷,促进磷的积累;(3)与根系形态性状相关的磷清除策略与动员策略之间存在权衡关系。
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