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Impact of green synthesized iron oxide nanoparticles on the distribution and transformation of As species in contaminated soil
2020
Su, Binglin | Lin, Jiajiang | Owens, Gary | Chen, Zuliang
Iron nanoparticles (Fe NPs) have often been used for in situ remediation of both groundwater and soil. However, the impact of Fe NPs on the distribution and transformation of As species in contaminated soil is still largely unknown. In this study, green iron oxide nanoparticles synthesized using a euphorbia cochinchinensis leaf extract (GION) were used to stabilize As in a contaminated soil. GION exhibited excellent As stabilization effects, where As in non-specifically-bound and specifically-bound fractions decreased by 27.1% and 67.3% after 120 days incubation. While both arsenate (As (V)) and arsenite (As (III)) decreased after GION application, As (V) remained the dominant species in soil. X-ray photoelectron spectroscopy (XPS) confirmed that As (V) was the dominant species in specifically-bound fractions, while As (III) was the dominant species in amorphous and poorly-crystalline hydrous oxides of Fe and Al. Correlation analysis showed that while highly available As fractions were negatively correlated to oxalate and DCB extractable Fe, they were positively correlated to Fe²⁺ content, which indicated that Fe cycling was the main process influencing changes in As availability. X-ray fluorescence (XRF) spectroscopy also showed that the Fe₂O₃ content increased by 47.9% following GION soil treatments. Overall, this work indicated that As would be transformed to more stable fractions during the cycling of Fe following GION application and that the application of GION, even in small doses, provides a low-cost and ecofriendly method for the stabilization of As in soil.
Показать больше [+] Меньше [-]Experimental calibration of Ellenberg's indicator value for nitrogen
1998
Wamelink, G.W.W. | Dobben, H.F. van | Eerden, L.J.M. van der (Institute of Forestry and Nature Research, P.O. Box 23, 6700 AA Wageningen (Netherlands))
Micro-morphological response of some native dicotyledonous species to particulate pollutants emitted from stone crushing activities
2021
(Muhammad Sajid Aqeel),
Stone crushing processes release particulates and associated noxious substances in our surroundings that are continuously destructing environmental conditions and ecosystem health. Morpho-anatomical changes in some medicinally important native species (Aerva javanica, Calotropis procera, Digera muricata, Euphorbia prostrata, Euploca strigosa, and Peganum harmala) exposed to heavy dust pollution were evaluated. These species selected on the basis of their ubiquitous distribution in the area. Two sites were selected in the Kirana Hills, Sargodha, one near stone crushers within 500-m radius (polluted) and the other 4 km away from the crushers (control) varying significantly in amount of dust particles received. A decrease in plant height of all species from dust-polluted sites was observed. Reduction in height was more prominent in species like C. procera and D. muricata. Stem sclerification increased in C. procera and E. prostrata from the polluted site that is an indication of better tolerance to dust pollution. C. procera showed increased stem and leaf epidermis, stem sclerenchyma, and stem vascular bundles, which can increase resistance to dust pollution. E. strigosa was the most sensitive species in which all morpho-anatomical factors decreased. Survival of plant species depended on specific structural modifications in dermal, mechanical, parenchymatous, and vascular tissue. Overall, dust pollution severely affected plant morphological and micro-morphological traits, but the response of selected species to dust pollution was variable. It is concluded that stem and leaf anatomical traits like size of dermal and storage tissue thickness and stomatal density are good indicators for biomonitoring of dust pollution.
Показать больше [+] Меньше [-]Heavy metals levels and associated health risk assessment of Euphorbia granulata Forssk
2022
Parvez, Mohammad
Medicinal plants are considered as the safest approach to treat various ailments. However, prolonged consumption of plants containing high levels of heavy metals (HMs) can lead to deleterious consequences. Euphorbia granulata (EG) is therapeutically used in Pakistan and many parts of the world. This study assessed EG from three districts of Khyber Pakhun Khwa, Pakistan, for the levels of seven HMs (Pb, Cd, Cr, Ni, Ag, Hg, and As) and the associated health risks. Non-carcinogenic health risk associated with HMs was assessed from hazard quotients (THQ) and hazard index (HI). THQ values of Hg for Peshawar (1.566) and Mardan (1.897) were above the safe recommended limits (< 1) of USEPA. Overall more than 80% of THQ was contributed by the Hg alone. Total cancer risk (TCR) was calculated using incremental lifetime cancer risk (ILCR). The hazard index (HI) displayed by Peshawar (1.87) and Mardan (2.7) samples indicated the potential adverse health effects due to EG. Furthermore, the TCR for Peshawar (2.2 × 10⁻⁴), Mardam (2.3 × 10⁻⁴), and Swat (1.4 × 10⁻⁴) was also more than US-EPA recommended threshold value (1 × 10⁻⁴). Our results unveiled the possibility of carcinogenic health risks with Pb, Cd, Cr, Ni, and As to EG consumers. Due to potential non-carcinogenic and carcinogenic health risk, chronic use of E. granulata is not recommended, particularly from HMs contaminated sites.
Показать больше [+] Меньше [-]Plant growth promotion by inoculation with selected bacterial strains versus mineral soil supplements
2014
Wernitznig, S. | Adlassnig, W. | Sprocati, A. R. | Turnau, K. | Neagoe, A. | Alisi, C. | Sassmann, S. | Nicoara, A. | Pinto, V. | Cremisini, C. | Lichtscheidl, I.
In the process of remediation of mine sites, the establishment of a vegetation cover is one of the most important tasks. This study tests two different approaches to manipulate soil properties in order to facilitate plant growth. Mine waste from Ingurtosu, Sardinia, Italy rich in silt, clay, and heavy metals like Cd, Cu, and Zn was used in a series of greenhouse experiments. Bacteria with putative beneficial properties for plant growth were isolated from this substrate, propagated and consortia of ten strains were used to inoculate the substrate. Alternatively, sand and volcanic clay were added. On these treated and untreated soils, seeds of Helianthus annuus, of the native Euphorbia pithyusa, and of the grasses Agrostis capillaris, Deschampsia flexuosa and Festuca rubra were germinated, and the growth of the seedlings was monitored. The added bacteria established well under all experimental conditions and reduced the extractability of most metals. In association with H. annuus, E. pithyusa and D. flexuosa bacteria improved microbial activity and functional diversity of the original soil. Their effect on plant growth, however, was ambiguous and usually negative. The addition of sand and volcanic clay, on the other hand, had a positive effect on all plant species except E. pithyusa. Especially the grasses experienced a significant benefit. The effects of a double treatment with both bacteria and sand and volcanic clay were rather negative. It is concluded that the addition of mechanical support has great potential to boost revegetation of mining sites though it is comparatively expensive. The possibilities offered by the inoculation of bacteria, on the other hand, appear rather limited.
Показать больше [+] Меньше [-]Assessment of the applicability of a “toolbox” designed for microbially assisted phytoremediation: the case study at Ingurtosu mining site (Italy)
2014
Sprocati, Anna Rosa | Alisi, Chiara | Pinto, Valentina | Montereali, Maria Rita | Marconi, Paola | Tasso, Flavia | Turnau, Katarzyna | De Giudici, Giovanni | Goralska, Katarzyna | Bevilacqua, Marta | Marini, Federico | Cremisini, Carlo
The paper describes the fieldwork at the Italian test site of the abandoned mine of sphalerite and galena in Ingurtosu (Sardinia), with the aim to assess the applicability of a “toolbox” to establish the optimized techniques for remediation of soils contaminated by mining activities. A preliminary characterization—including (hydro)geochemistry, heavy metal concentration and their mobility in soil, bioprospecting for microbiology and botany—provided a data set for the development of a toolbox to deliver a microbially assisted phytoremediation process. Euphorbia pithyusa was selected as an endemic pioneer plant to be associated with a bacterial consortium, established with ten selected native strains, including metal-tolerant bacteria and producers of plant growth factors. The toolbox was firstly assessed in a greenhouse pot experiment. A positive effect of bacterial inoculum on E. pithyusa germination and total plant survival was observed. E. pithyusa showed to be a well-performing metallophyte species, and only inoculated soil retained a microbial activity with a high functional diversity, expanding metabolic affinity also towards root exudates. These results supported the decision to proceed with a field trial, investigating different treatments used singly or in combination: bioaugmentation with bacterial consortia, mycorrhizal fungi and a commercial mineral amendment. Microbial activity in soil, plant physiological parameters and heavy metal content in plants and in soil were monitored. Five months after the beginning, an early assessment of the toolbox under field conditions was carried out. Despite the cold season (October–March), results suggested the following: (1) the field setup as well as the experimental design proved to be effective; (2) plant survival was satisfactory; (3) soil quality was increased and bioaugmentation improved microbial activity, expanding the metabolic competences towards plant interaction (root exudates); and (4) multivariate analysis supported the data provided that the proposed toolbox can be established and the field trial can be carried forward.
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