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磷石膏基质改良及生物修复技术探索

余小晴陈妍胡黔何喜刘章红郭承晖杨微

湖南大学学报（自然科学版）2026，Vol.53Issue(1)：173-184,12.

湖南大学学报（自然科学版）2026，Vol.53Issue(1)：173-184,12.DOI:10.16339/j.cnki.hdxbzkb.2026016

磷石膏基质改良及生物修复技术探索

Exploration of substrate improvement and bioremediation technology for phosphogypsum

余小晴 ¹陈妍 ²胡黔 ³何喜 ³刘章红 ⁴郭承晖 ⁵杨微⁶

作者信息

1. 湖南大学土木工程学院,湖南长沙 410082||江西赣粤高速公路股份有限公司,江西南昌 330025
2. 国网福建省电力有限公司莆田供电公司,福建莆田 351100
3. 贵州开磷集团股份有限公司,贵州贵阳 550081
4. 江西赣粤高速公路股份有限公司,江西南昌 330025
5. 湖南麓谷环保科技有限公司,湖南长沙 410082
6. 湖南大学土木工程学院,湖南长沙 410082||湖南大学建筑安全与节能教育部重点实验室,湖南长沙 410082||湖南大学地下空间开发先进技术研究中心,湖南长沙 410082
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摘要

Abstract

Taking phosphogypsum from a tailings reservoir in Guizhou as the research object,a comparison with planting soil standards revealed problems such as strong acidity,severe salinization,and poor fertility.Improvement experiments were conducted using quicklime,straw biochar,earthworm manure,and nutrient soil to obtain the optimal improvement scheme.Based on the improved phosphogypsum,studies on phytoremediation and microbial remediation were carried out to screen plants with strong stress resistance and the best fluoride pollution enrichment capacity,as well as to cultivate microorganisms with the best phosphorus pollution fixation and transformation effects.According to the experimental results,plant-microbial combined remediation experiments were conducted to compare the enrichment capacity of plants and microorganisms for pollutants,the adaptability of plant growth capacity,and the improvement effect on the physicochemical properties of phosphogypsum,so as to clarify the synergistic effect between plants and microorganisms.Finally,a plant-microbial combined remediation scheme for in-situ control of phosphogypsum pollution and ecological remediation is proposed.The results showed that when quicklime,straw biochar,vermicompost,and nutrient soil are added at concentrations of 1.0％,1.0％,10.0％,and 10.0％,respectively,the pH of phosphogypsum increases from 2.16 to 4.75,organic matter content increases by 5.3 times,and electrical conductivity decreases to 56.4％.Phytoremediation experimental studies found that ryegrass had the optimal stress resistance and pollutant enrichment effect;microbial remediation experiments revealed that the five strains isolated and screened from phosphogypsum all have the ability to fix and convert phosphorus.After identification,they were identified as the chitinophaga sp.,Pseudomonas sp.,Xanthomonas sp.,Variovorax paradoxus sp.,and Delftia sp..The optimal inoculation amount was 5×107 CFU/300 g,which could reduce the phosphorus concentration of phosphogypsum leachate to 23.3％.Plant-microbial combined remediation experiments found that the addition of microorganisms had a growth-promoting effect on plants.The total phosphorus and maximum fluoride adsorption increased by 39.9％and 78.1％respectively;furthermore,the phosphorus-fixation ability of microorganisms increased by 123.2％.

关键词

磷石膏/土壤改良/生物修复/解磷菌/重金属污染

Key words

phosphogypsum/soil improvement/bioremediation/phosphate-solubilizing microorganisms/heavy metal contamination

分类

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引用本文复制引用

余小晴,陈妍,胡黔,何喜,刘章红,郭承晖,杨微..磷石膏基质改良及生物修复技术探索[J].湖南大学学报（自然科学版）,2026,53(1):173-184,12.

基金项目

国家自然科学基金资助项目(52078207,U23A20665),National Natural Science Foundation of China(52078207,U23A20665) （52078207,U23A20665）

湖南大学学报（自然科学版）

ISSN：1674-2974

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