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功能真菌-除杂磷石膏复合改良剂在滨海盐碱土中的修复应用

姜明禺李真陈月坤黄韵洁李思琦王萍袁紫仪王硕江建华戴虹

生物加工过程2026，Vol.24Issue(2)：152-159,8.

生物加工过程2026，Vol.24Issue(2)：152-159,8.DOI:10.3969/j.issn.1672-3678.2026.02.005

功能真菌-除杂磷石膏复合改良剂在滨海盐碱土中的修复应用

Application of fungus-purified phosphogypsum composite conditioner in coastal saline-alkali soils

姜明禺 ¹李真 ²陈月坤 ³黄韵洁 ¹李思琦 ¹王萍 ³袁紫仪 ³王硕 ³江建华 ³戴虹³

作者信息

1. 南京农业大学资源与环境科学学院,江苏南京 210095
2. 南京农业大学资源与环境科学学院,江苏南京 210095||江苏省有机固体废弃物利用重点实验室,江苏南京 210095
3. 江苏省南通外向型农业综合开发区农村工作局,江苏南通 226409
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摘要

Abstract

High pH and salinity in coastal saline-alkali soil cause severe deficiencies in available phosphorus,hindering ecological restoration and farmland expansion.Herein,we used moderately saline coastal soils in Rudong to evaluate the combined effects of functional fungus and phosphogypsum on soil pH,soil available phosphorus,and microbial activity.Phosphorus-solubilizing fungi(CCTCC M2023240)was optimized through liquid shake flask experiments.Six treatments(CK,PG,ANG,ANG+PG,NS,NS+PG)were established and cultured at a constant temperature for 30 days indoors.As a result,the fungus exhibited continuously increasing respiratory intensity within the 0-8％NaCl range but lost activity at 16％salinity.More importantly,organic acids were constantly produced to solubilize phosphorus under saline stress.In soil culture tests,the addition of phosphogypsum(PG)and Aspergillus niger(ANG)could significantly lower the soil pH.Meanwhile,phosphogypsum addition markedly increased soil available phosphorus content.Notably,the fungal-phosphogypsum(ANG+PG)composite treatment led to the lowest soil pH of 7.29,with available phosphorus at 31.8 mg/kg,indicating no significant difference compared to the application of purified phosphogypsum alone.However,the nutrients from phosphogypsum enhanced the respiratory intensity of Aspergillus niger and prolonged its survival time.According to scanning electron microscopy(SEM),Aspergillus niger could grow in saline-alkali soil and survive under such conditions,suggesting its potential for saline-alkali soil remediation.Our research work demonstrated that the Aspergillus niger-phosphogypsum composite soil conditioner could reduce salinity and enhance phosphorus availability,and it will provide a theoretical basis and technological prototype for coastal saline-alkali land remediation and high-value utilization of solid waste phosphogypsum.

关键词

盐碱地/磷石膏/真菌/土壤改良剂

Key words

saline soil/phosphogypsum/fungi/soil conditioner

分类

资源环境

引用本文复制引用

姜明禺,李真,陈月坤,黄韵洁,李思琦,王萍,袁紫仪,王硕,江建华,戴虹..功能真菌-除杂磷石膏复合改良剂在滨海盐碱土中的修复应用[J].生物加工过程,2026,24(2):152-159,8.

基金项目

南通外向型农业综合开发区(苴镇街道)盐碱耕地改良利用项目（苴镇街道）

国家重点研发计划(2023YFC3707600) （2023YFC3707600）

生物加工过程

ISSN：1672-3678

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