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>Azolla along a phosphorus gradient: biphasic growth response linked to diazotroph traits and phosphorus-induced iron chlorosis
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Azolla along a phosphorus gradient: biphasic growth response linked to diazotroph traits and phosphorus-induced iron chlorosis
Azolla spp., a water fern often used for phytoremediation, is a strong phosphorus (P) accumulator due to its high growth rate and N2 fixing symbionts (diazotrophs). It is known that plant growth is stimulated by P, but the nature of the interactive response of both symbionts along a P gradient, and related changes in growth-limiting factors, are unclear. We determined growth, and N and P sequestration rates of Azolla filiculoides in N-free water at different P concentrations. The growth response appeared to be biphasic and highest at levels ≥10 P µmol l−1. Diazotrophic N sequestration increased upon P addition, and rates were three times higher at high P than at low P. At 10 µmol P l−1, N sequestration rates reached its maximum and A. filiculoides growth became saturated. Due to luxury consumption, P sequestration rates increased until 50 µmol P l−1. At higher P concentrations (≥50 µmol l−1), however, chlorosis occurred that seems to be caused by iron- (Fe-), and not by N-deficiency. We demonstrate that traits of the complete symbiosis in relation to P and Fe availability determine plant performance, stressing the role of nutrient stoichiometry. The results are discussed regarding Azolla’s potential use in a bio-based economy.
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机译:Azolla spp。是一种常用于植物修复的水蕨,由于其高生长速率和N2固定共生体(固氮生物)而成为强磷(P)积累器。众所周知,植物的生长受到磷的刺激,但是两个共生菌沿着磷梯度的相互作用反应的性质以及生长限制因子的相关变化尚不清楚。我们确定了不同磷浓度下无氮水中Azolla filiculoides的生长以及氮和磷的固存率。生长反应似乎是双相的,在≥10P µmol l -1 时最高。重氮的氮螯合作用随着磷的添加而增加,高磷时的螯合速率比低磷时高3倍。在10μµmol P l -1 时,氮的螯合速率达到最大值,A。类纤维虫的生长达到饱和。 。由于奢侈消费,P的螯合速率一直增加到50 μµmol P l -1 。然而,在较高的P浓度(≥50μmoll -1 )下,发生绿化现象似乎是由铁(Fe-)引起的,而不是由N缺乏引起的。我们证明与P和Fe的可用性有关的完全共生的性状决定植物的表现,强调营养化学计量的作用。讨论了有关Azolla在生物经济中的潜在用途的结果。
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