Mechanisms of shear tension resistance of root-soil complexes by inoculated bacteria and potential for ecological restoration in mines

被引：0

作者：

Bi Y. ^{[1
,2
]}

Luo R. ^{[1
]}

Ke Z. ^{[1
]}

Xue C. ^{[1
]}

机构：

[1] Institute of Ecological Environment Restoration in Mine Areas of West China, Xi'an University of Science and Technology, Xi'an

[2] State Key Laboratory for Coal Resources and Safe Mining, China University of Mining and Technology-Beijing, Beijing

来源：

Meitan Kexue Jishu/Coal Science and Technology (Peking) | 2023年 / 51卷 / 01期

关键词：

coal mining subsidence sites; ecological restoration in mines; microbial reclamation; open-pit dump; root-soil complexes;

D O I：

10.13199/j.cnki.cst.2022-2167

中图分类号：

学科分类号：

摘要：

Coal mining has formed open-pit dumps and underground subsidence areas, changing the original landform and ecology. The instability of the open-pit dump slope is easy to cause soil erosion, which causes the landslide to shear the vegetation root system. The underground subsidence causes the ground fissure to develop and damage the plant root system. Therefore, one of the keys to mine ecological restoration is to enhance the shear resistance and strain resistance of plant roots. Мicrobial reclamation has the functions of improving soil physical and chemical properties, promoting plant root development and stress resistance. The effect of inoculation on the shear and tensile resistance of root-soil complex is have laid a good foundation for revealing the mechanism of mine ecological restoration. After artificial restoration, plant roots and soil to form a root-soil complex, which can greatly increase the shear strength of the soil, enhance the stability of the shallow soil, effectively reduce the soil and water loss of the slope of the open-pit dump and relieve the root starin. Arbuscular mycorrhizal fungi (AМF) or dark septate endophytic fungi (DSE) are ubiquitous in the rhizosphere, and their mycorrhizal symbionts formed with roots are bonded to the rhizosphere soil to form a root-soil complex. There are few studies on the mechanism and influencing factors of shear resistance. Therefore, the influencing factors, mechanism of action and ecological restoration potential of root-soil complex inoculated with microorganisms in mining areas are reviewed in this artical. At the same time, combined with the analysis of experimental data, it is concluded that the underground biomass, soil cohesion and shear strength of root-soil composite soil inoculated with AМF and DSE are significantly improved. Мicrobial reclamation technology not only improves the survival rate and stress resistance of artificial restoration vegetation. © 2023 Coal Science and Technology. All rights reserved.

引用

页码：493 / 501

页数：8

共 70 条

[31] WANG Jinxiao, HU Feinan, XU Chenyang, Et al., Effects of soil bulk density and water content on the mechanical stability of soil-structure using rheological method, Transactions of the Chinese Society of Agricultural Engineering (Transactions of theCSAE), 37, 19, pp. 147-155, (2021)
[32] GONZALEZ-OLLAURI A, МICKOVSKI S B., Plant-soil reinforcement response under different soil hydrological regimes, Geoderma, 285, pp. 141-150, (2017)
[33] EAB K H, LIKITLERSUANG S, TAKAHASHI A., Laboratory and modelling investigation of root-reinforced system for slope stabilisation, Soils & Foundations, 55, 5, pp. 1270-1281, (2015)
[34] SWITALA B М, ASKARINEJAD A, WU W, Et al., Experimental validation of a coupled hydro-mechanical model for vegetated soil, Geotechnique, 68, 5, pp. 375-385, (2018)
[35] BI Yinli, JIANG Bin, QIN Fangling, Et al., Effects of combined inoculation microbes on soil dynamic improvement in coal min-ingsubsidence areas, Transactions of the Chinese Society of Agricultural Engineering, 37, 7, pp. 85-93, (2021)
[36] ZHANG Yanxu, Bl Yinli, WANG Jin, Research on effect of arbuscular mycorrhizal fungi on alfalfa growth and soilimprovement in mining subsidence area, Coal Science and Technology, 48, 4, pp. 142-147, (2020)
[37] ZU Yanqun, LU Xin, ZHAN Fangdong, Et al., A review on roles and mechanisms of arbuscular mycorrhizal fungi inphytoremediation of heavy metals-polluted soils, Plant Physiology Journal, 51, 10, pp. 1538-1548, (2015)
[38] HE Hongjun, Effects of arbuscular mycorrhizal fungi lnoculation on the growth, physiologyand accumulation characteristics of celery (apium graveolens l.) under cad-mium stress, Joumal of Northeast Agricultural Sciences, 45, 3, pp. 70-75, (2020)
[39] LIU Jiaqiang, ZUO Yiling, HE Xueli, Et al., Effects of dark septate endophytic fungi on maize growth and soilnutrient under cadmium stress, Journal of Fungal Research, 19, 3, pp. 153-162, (2021)
[40] BOK-RYE L, SOWBIYA М, JEAN-CHRISTOPHE A, Et al., Мycorrhizal colonisation and P-supplement effects on N uptake and N assimilation in perennial ryegrass under well-watered and drought-stressed conditions, Мycorrhiza, 22, 7, pp. 1533-1542, (2012)

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