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真菌细胞外磷酸酶:在不同 pH 值和磷源供应条件下 P 循环中的作用。

Fungal extracellular phosphatases: their role in P cycling under different pH and P sources availability.

机构信息

Departamento de Biodiversidad y Biología Experimental, Instituto de Micología y Botánica (INMIBO) CONICET-FCEN, UBA, Buenos Aires, Argentina.

Departamento de Biodiversidad y Biología Experimental, Instituto de Biodiversidad y Biología Experimental y Aplicada (IBBEA) CONICET-FCEN, UBA, Buenos Aires, Argentina.

出版信息

J Appl Microbiol. 2018 Jan;124(1):155-165. doi: 10.1111/jam.13620. Epub 2017 Dec 7.

DOI:10.1111/jam.13620
PMID:29072359
Abstract

AIMS

The aim of this work is to analyse the effect of pH, fungal identity and P chemical nature on microbial development and phosphatase release, discussing solubilization and mineralization processes in P cycling.

METHODS AND RESULTS

P solubilizing fungi (Talaromyces flavus, T. helicus L, T. helicus N, T. diversus and Penicillium purpurogenum) were grown under three pH conditions (6, 6·5 and 8·5) and with different inorganic (calcium, iron, aluminium and rock) and organic (lecithin and phytate) P sources. P solubilization, mineralization, growth and phosphatase production were recorded. Acid and neutral environments maximized fungal development and P recycling. P chemical nature changed the phosphatases release pattern depending on the fungal identity. Acid phosphatase activity was higher than alkaline phosphatases, regardless of pH or sample times. Alkaline phosphatases were affected by a combination of those factors.

CONCLUSIONS

P chemical nature and pH modify fungal growth, P mineralization and solubilization processes. The underlying fungal identity-dependent metabolism governs the capacity and efficiency of P solubilization and mineralization. P solubilization and mineralization processes are interrelated and simultaneously present in soil fungi.

SIGNIFICANCE AND IMPACT OF THE STUDY

This study constitutes a reference work to improve the selection of fungal bioinoculants in different environmental conditions, highlighting their role in P cycling.

摘要

目的

本研究旨在分析 pH 值、真菌种类和磷化学性质对微生物生长和磷酸酶释放的影响,探讨磷循环中的溶解和矿化过程。

方法和结果

在三种 pH 值(6、6.5 和 8.5)条件下,用不同的无机(钙、铁、铝和岩石)和有机(卵磷脂和植酸)磷源培养具有解磷能力的真菌(长枝木霉、Talaromyces flavus、T. helicus L、T. helicus N、T. diversus 和紫色青霉)。记录了磷的溶解、矿化、生长和磷酸酶的产生。酸性和中性环境最大限度地促进了真菌的生长和磷的再循环。磷的化学性质改变了根据真菌种类释放的磷酸酶模式。无论 pH 值或样品时间如何,酸性磷酸酶活性均高于碱性磷酸酶。碱性磷酸酶受这些因素的综合影响。

结论

磷的化学性质和 pH 值改变了真菌的生长、磷的矿化和溶解过程。潜在的真菌身份依赖的代谢决定了磷的溶解和矿化的能力和效率。磷的溶解和矿化过程是相互关联的,并同时存在于土壤真菌中。

研究意义和影响

本研究为在不同环境条件下选择真菌生物接种剂提供了参考,突出了它们在磷循环中的作用。

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