Rhizoglomus intraradices Improves Plant Growth, Root Morphology and Phytohormone Balance of Robinia pseudoacacia in Arsenic-Contaminated Soils

Miscanthus spp. are energy plants and excellent candidates for phytoremediation approaches of metal(loid)s-contaminated soils, especially when combined with plant growth-promoting bacteria. Forty-one bacterial strains were isolated from the rhizosphere soils and roots tissue of five dominant plants (Artemisia argyi Levl., Gladiolus gandavensis Vaniot Houtt, Boehmeria nivea L., Veronica didyma Tenore, and Miscanthus floridulus Lab.) colonizing a cadmium (Cd)-contaminated mining area (Huayuan, Hunan, China). We subsequently tested their plant growth-promoting (PGP) traits (e.g., production of indole-3-acetic acid, siderophore, and 1-aminocyclopropane-1-carboxylate deaminase) and Cd tolerance. Among bacteria, two strains, Klebsiella michiganensis TS8 and Lelliottia jeotgali MR2, presented higher Cd tolerance and showed the best results regarding in vitro growth-promoting traits. In the subsequent pot experiments using soil spiked with 10 mg Cd·kg−1, we investigated the effects of TS8 and MR2 strains on soil Cd phytoremediation when combined with M. floridulus (Lab.). After sixty days of planting M. floridulus (Lab.), we found that TS8 increased plant height by 39.9%, dry weight of leaves by 99.1%, and the total Cd in the rhizosphere soil was reduced by 49.2%. Although MR2 had no significant effects on the efficiency of phytoremediation, it significantly enhanced the Cd translocation from the root to the aboveground tissues (translocation factor > 1). The combination of K. michiganensis TS8 and M. floridulus (Lab.) may be an effective method to remediate Cd-contaminated soils, while the inoculation of L. jeotgali MR2 may be used to enhance the phytoextraction potential of M. floridulus.

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Rock-Solubilizing Microbial Inoculums Have Enormous Potential as Ecological Remediation Agents to Promote Plant Growth

Forests ◽

10.3390/f12030357 ◽

2021 ◽

Vol 12 (3) ◽

pp. 357

Author(s):

Zhaohui Jia ◽

Miaojing Meng ◽

Chong Li ◽

Bo Zhang ◽

Lu Zhai ◽

...

Keyword(s):

Plant Growth ◽

Leaf Area ◽

Ecological Restoration ◽

Root Nodules ◽

Robinia Pseudoacacia ◽

Growth Index ◽

Nodule Formation ◽

Bare Rock ◽

Mining Sites ◽

Robinia Pseudoacacia L

Anthropogenic overexploitation poses significant threats to the ecosystems that surround mining sites, which also have tremendous negative impacts on human health and society safety. The technological capacity of the ecological restoration of mine sites is imminent, however, it remains a challenge to sustain the green restorative effects of ecological reconstruction. As a promising and environmentally friendly method, the use of microbial technologies to improve existing ecological restoration strategies have shown to be effective. Nonetheless, research into the mechanisms and influences of rock-solubilizing microbial inoculums on plant growth is negligible and the lack of this knowledge inhibits the broader application of this technology. We compared the effects of rock-solubilizing microbial inoculums on two plant species. The results revealed that rock-solubilizing microbial inoculums significantly increased the number of nodules and the total nodule volume of Robinia pseudoacacia L. but not of Lespedeza bicolor Turcz. The reason of the opposite reactions is possibly because the growth of R. pseudoacacia was significantly correlated with nodule formation, whereas L. bicolor’s growth index was more closely related to soil characteristics and if soil nitrogen content was sufficient to support its growth. Further, we found that soil sucrase activity contributed the most to the height of R. pseudoacacia, and the total volume of root nodules contributed most to its ground diameter and leaf area. Differently, we found a high contribution of total soil carbon to seedling height and ground diameter of L. bicolor, and the soil phosphatase activity contributed the most to the L. bicolor’ s leaf area. Our work suggests that the addition of rock-solubilizing microbial inoculums can enhance the supply capacity of soil nutrients and the ability of plants to take up nutrients for the promotion of plant growth. Altogether, our study provides technical support for the practical application of rock-solubilizing microbes on bare rock in the future.

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Lead and cadmium-resistant bacterial species isolated from heavy metal-contaminated soils show plant growth-promoting traits

International Microbiology ◽

10.1007/s10123-020-00133-1 ◽

2020 ◽

Vol 23 (4) ◽

pp. 625-640 ◽

Cited By ~ 1

Author(s):

Samaneh Abdollahi ◽

Ahmad Golchin ◽

Fatemeh Shahryari

Keyword(s):

Heavy Metal ◽

Plant Growth ◽

Contaminated Soils ◽

Bacterial Species ◽

Lead And Cadmium ◽

Plant Growth Promoting ◽

Growth Promoting ◽

Plant Growth Promoting Traits

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Glyphosate and mycorrhization induce changes in plant growth and in root morphology and architecture in pepper plants (Capsicum annuumL.)

The Journal of Horticultural Science and Biotechnology ◽

10.1080/14620316.2008.11512413 ◽

2008 ◽

Vol 83 (4) ◽

pp. 497-505 ◽

Cited By ~ 20

Author(s):

M. G. Ronco ◽

M. F. Ruscitti ◽

M. C. Arango ◽

J. Beltrano

Keyword(s):

Plant Growth ◽

Root Morphology ◽

Pepper Plants

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Role of plant growth promoting bacteria in driving speciation gradients across soil-rhizosphere-plant interfaces in zinc-contaminated soils

Environmental Pollution ◽

10.1016/j.envpol.2021.116909 ◽

2021 ◽

pp. 116909

Author(s):

Nyekachi C. Adele ◽

Bryne T. Ngwenya ◽

Kate V. Heal ◽

J. Frederick W. Mosselmans

Keyword(s):

Plant Growth ◽

Contaminated Soils ◽

Plant Growth Promoting Bacteria ◽

Plant Growth Promoting ◽

Soil Rhizosphere ◽

Growth Promoting

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Revegetation in abandoned quarries with landfill stabilized waste and gravels: water dynamics and plant growth – a case study

10.5194/se-2017-72 ◽

2017 ◽

Author(s):

Cheng-liang Zhang ◽

Jing-jing Feng ◽

Li-ming Rong ◽

Ting-ning Zhao

Keyword(s):

Plant Growth ◽

Water Content ◽

Robinia Pseudoacacia ◽

Water Dynamics ◽

Leaf Water Content ◽

Rock Fragments ◽

Platycladus Orientalis ◽

Concrete Production ◽

Uppermost Layer ◽

Pavement Construction

Abstract. Large amounts of quarry wastes are produced during quarrying. Though quarry wastes are commonly used in pavement construction and concrete production, in-situ utilization during ecological restoration of abandoned quarries has its advantage of simplicity. In this paper, rock fragments of 2 ~ 3 cm in size were mixed with landfill stabilized waste (LSW) in different proportions (LSW: gravel, RL), which was called LGM. The water content, runoff and plant growth under natural precipitation were monitored for two years using a runoff plot experiment. LGM with a low fraction of LSW was compacted in different degrees to achieve an appropriate porosity; water dynamic and plant growth of compacted LGM were studied in a field experiment. The results showed that, (1) LGM can be used during restoration in abandoned quarries as growing material for plants. (2) RL had a significant effect on infiltration and water holding capacity of LGM, and thus influenced retention of precipitation, water condition and plant growth. LGM with RL ranging from 8 : 1 to 3 : 7 was suitable for plant growth, but the target species grew best when RL was intermediate. (3) Compaction significantly enhanced water content of LGM with a low RL of 2 : 8, but leaf water content of plants was lower or unchanged in the more compacted plots. Moderate compaction was beneficial to the survival and growth of Robinia pseudoacacia. Platycladus orientalis and Medicago sativa were not significantly affected by compaction, and they grew better under high degree of compaction which was disadvantageous for the uppermost layer of vegetation.

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Efficacy of Indole Acetic Acid and Exopolysaccharides-Producing Bacillus safensis Strain FN13 for Inducing Cd-Stress Tolerance and Plant Growth Promotion in Brassica juncea (L.)

Applied Sciences ◽

10.3390/app11094160 ◽

2021 ◽

Vol 11 (9) ◽

pp. 4160

Author(s):

Farheen Nazli ◽

Xiukang Wang ◽

Maqshoof Ahmad ◽

Azhar Hussain ◽

Bushra ◽

...

Keyword(s):

Heavy Metals ◽

Plant Growth ◽

Stress Tolerance ◽

Brassica Juncea ◽

Contaminated Soils ◽

Effective Strain ◽

Antioxidant Enzyme Activities ◽

Cd Stress ◽

Cd Accumulation ◽

Bacillus Safensis

Untreated wastewater used for irrigating crops is the major source of toxic heavy metals and other pollutants in soils. These heavy metals affect plant growth and deteriorate the quality of edible parts of growing plants. Phytohormone (IAA) and exopolysaccharides (EPS) producing plant growth-promoting rhizobacteria can reduce the toxicity of metals by stabilizing them in soil. The present experiment was conducted to evaluate the IAA and EPS-producing rhizobacterial strains for improving growth, physiology, and antioxidant activity of Brassica juncea (L.) under Cd-stress. Results showed that Cd-stress significantly decreased the growth and physiological parameters of mustard plants. Inoculation with Cd-tolerant, IAA and EPS-producing rhizobacterial strains, however, significantly retrieved the inhibitory effects of Cd-stress on mustard growth, and physiology by up regulating antioxidant enzyme activities. Higher Cd accumulation and proline content was observed in the roots and shoot tissues upon Cd-stress in mustard plants while reduced proline and Cd accumulation was recorded upon rhizobacterial strains inoculation. Maximum decrease in proline contents (12.4%) and Cd concentration in root (26.9%) and shoot (29%) in comparison to control plants was observed due to inoculation with Bacillus safensis strain FN13. The activity of antioxidant enzymes was increased due to Cd-stress; however, the inoculation with Cd-tolerant, IAA-producing rhizobacterial strains showed a non-significant impact in the case of the activity of superoxide dismutase (SOD), peroxidase (POX) and catalase (CAT) in Brassica juncea (L.) plants under Cd-stress. Overall, Bacillus safensis strain FN13 was the most effective strain in improving the Brassica juncea (L.) growth and physiology under Cd-stress. It can be concluded, as the strain FN13 is a potential phytostabilizing biofertilizer for heavy metal contaminated soils, that it can be recommended to induce Cd-stress tolerance in crop plants.

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