Use of hydroxyapatite to reduce Cd pollution in agriculture soils for Chenopodium quinoa cultivation

2021 ◽  
Author(s):  
Daniel Arenas Lago ◽  
Ruben Forján Castro ◽  
Erika S Santos ◽  
Diego Arán ◽  
Manuel Arias Estévez
Keyword(s):  
Contaminated Soils ◽  
Germination Rate ◽  
Chenopodium Quinoa ◽  
Climatic Conditions ◽  
Chemical Extraction ◽  
Physiological Status ◽  
Hydroxyapatite Nanoparticles ◽  
High Concentration ◽  
Shoot Height ◽  
Sequential Chemical Extraction

<p>Cadmium is a metal distributed in low concentrations in the environment without biological function, but it can be toxic at high concentration for plants, animals, and/or humans. This element is one of the major soil pollutant, with high mobility and availability under the conditions of many agricultural soils. The use of nanoremediation techniques can be an effective solution for the in situ recovery of contaminated soils with Cd, although the existing information about the consequences of using nanoparticles in soils is still very scarce. In this context. Hydroxyapatite nanoparticles can be an effective amendment for remediation of soils. Quinoa (<em>Chenopodium quinoa</em> Will) is a seed-producing crop that has been cultivated in the Andes for several thousand years but with a good adaptation to different climatic conditions. Currently, quinoa is an emerging multipurpose crop in other parts of the world, due to its high nutritional potential for both human food and animal feedstock and a good alternative to cereals, leading to significant demand and, consequently, cultivation. In this study, we investigated the capacity of hydroxyapatite nanoparticles for recovering artificially contaminated soils with Cd where grown quinoa. For this, seeds of <em>C. quinoa</em> were sown in two different soil (Arenosol and Anthrosol) artificially contaminated with Cd<sup>2+ </sup>(0; 5, 25 and 50 mg kg<sup>-1</sup>) and amended or not with 1% (w/w) of hydroxyapatite nanoparticles. The pot assay was carried out under controlled conditions and in a greenhouse for three months. Initial soils were characterized physicochemically and at the end of the assay multielemental concentrations were determined in soil (total and available fraction and plants (shoots). Germination rate, shoot height and dry biomass were measured, as well as pigments, glutathione, ascorbate and H<sub>2</sub>O<sub>2</sub> contents were analysed in plant shoots in order to evaluate plant development and their physiological status. In parallel, a sequential chemical extraction was carried out to determine the Cd distribution in the different geochemical soil phases. Preliminary results indicated that hydroxyapatite nanoparticles have a high capacity to retain Cd. These nanoparticles seem to favour <em>C. quinoa</em> growth even with the highest concentration of Cd added. Therefore, this study will serve as a basis for further scientific research on the potential use of hydroxyapatite in agriculture soils with different characteristics and Cd problems for secure C. quinoa cultivation.</p><p><strong>Acknowledgements</strong></p><p>This research and postdoc contract from Arenas-Lago D. was supported by the project ED481D 2019/007 (Xunta de Galicia), and Portuguese funds through Fundação para a Ciência e Tecnologia within the scope of the project UID/AGR/04129/2020 (LEAF).</p>

Involvement of Phenolic Compounds in Anaerobic Flooding Germination of Rice (Oryza sativa L.)

2016 ◽  
Vol 56 ◽  
pp. 73-81 ◽  
Author(s):  
Do Tan Khang ◽  
Pham Thi Thu Ha ◽  
Nguyen Thi Lang ◽  
Phung Thi Tuyen ◽  
Luong The Minh ◽  
...  
Keyword(s):  
Phenolic Acids ◽  
Germination Rate ◽  
Syringic Acid ◽  
Seedling Vigor ◽  
High Concentration ◽  
Rice Varieties ◽  
Shoot Height ◽  
Phenolic Profiles ◽  
Total Difference ◽  
Phenolic And Flavonoid

By this study, thirty rice varieties were evaluated for anaerobic flooding tolerance using the direct sowing method. Phenolic profiles of strong and weak tolerant varieties were identified and compared based on HPLC chromatograms. The germination rates and shoot heights of rice were recorded for calculating the seedling vigor, which indicate the tolerant ability of rice in flooding condition. The results revealed a high variation of germination rate (10.01 to 100%), shoot height (0.35 to 78.17 mm) and seedling vigor (0.05 to 72.83). There was a high correlation between (r = 0.71) germination rate in 5 cm and 10 cm flood. Phenolic and flavonoid contents of the strong tolerant cultivar significantly and proportionally increased in the flooding levels (5 cm and 10 cm). There was a total difference in terms of number of phenolic acids found in the strong and weak tolerant varieties. In particular, six phenolic acids (gallic acid, catechol, caffeic acid, syringic acid, vanillin, and ellagic acid) were only identified with high concentration in the strong tolerant cultivar. The findings suggest that the phenolics presented in the strong tolerant varieties probably have a certain function in response and adaptation to anaerobic flooding condition. Further researches on exogenous application of these phenolic acids to increase the flooding tolerant level of rice should be continued at both green house and field treatments.

May the origin of Cistus monspeliensis seeds determine its behaviour as a phytoremediator species for mine soils? 

2021 ◽  
Author(s):  
Daniel Arenas Lago ◽  
Luisa C Carvalho ◽  
Erika S Santos ◽  
Maria Manuela Abreu
Keyword(s):  
Contaminated Soils ◽  
Underground Mining ◽  
Germination Rate ◽  
Organic Matter Content ◽  
Ore Deposits ◽  
Soil Conditions ◽  
Mine Soil ◽  
Shoot Height ◽  
The World ◽  
Total Concentrations

<p>Metal mining is one of the activities that causes the greatest problems of environmental pollution around the world. The main consequences derived from this activity are the degradation of soils, and alteration/destruction of vegetation, hydrology, fauna, microclimate, topography and landscape quality. In South-East of the Iberian Peninsula is located the Iberian Pyrite Belt (IPB), one of the most important volcanogenic massive sulfide ore deposits in the world. The opencast and underground mining activities in this area generated large amounts of waste materials with high total concentrations of metal(loid)s. These materials also present other chemical and physical characteristics adverse to plant development such as low pH, water holding capacity, available nutrients and organic matter content, and unfavourable texture. However, some species have developed mechanisms of response to these stress conditions and have colonised spontaneously some contaminated soils/wastes in these areas from the IPB. In this study, we have investigated physiological behaviour of <em>Cistus monspeliensis</em>, a shrub adapted to Mediterranean conditions that grows in several contaminated and non-contaminated areas from the IPB, with the aim whether what are the key drivers for the unravelling of different physiological responses: the origin of the plants or the conditions of the growth medium. For this, seeds of <em>C. monspeliensis</em> were sampled in São Domingos mine (CmSD) and in an uncontaminated area from Caldeirão (CmCald) (SE of Portugal). Seeds were germinated in Petri dishes and subsequently the seedlings from both areas were planted in a contaminated soil developed on a gossan (CS) and in an uncontaminated soil (US) under controlled conditions in a greenhouse. Multielemental concentrations were determined in soils (total and available fractions) and plants (shoots). Germination rate, shoot height and dry biomass were measured, as well as pigments, glutathione, ascorbate and H<sub>2</sub>O<sub>2</sub> contents were analysed in plant shoots. Total concentrations of As, Cr, Cu, Pb and Sb in CS exceed the intervention and maximum limits for ecosystem protection and human health. Preliminary results showed that there were not significant differences in the germination rate among assays (CmSD–CS, CmSD–US, CmCald–CS, CmCald–US). After two months growing, <em>C. monspeliensis</em> from both origins showed slightly higher height and biomass in US than CS. The leaf size did not show significant differences among the different assays. The CmCald plants were adapted to the mine soil conditions without showing toxicity symptoms and with a development similar to CmSD plants. In general, no significant differences were found for pigments among plant-soil assays, while H<sub>2</sub>O<sub>2</sub> content slightly increased in individuals planted in CS soil independently of seeds origin. In addition, the increase of oxidative stress in <em>C. monspeliensis</em> in CS caused the activation of ascorbate and glutathione production to maintain the cell’s redox state. Therefore, our study shows that <em>C. monspeliensis</em>, regardless of its origin, has the ability to tolerate contaminated environments with high total content of metal(oid)s. This statement is a very important point for mine soil recovery plans.</p><p>This research was supported by ED481D 2019/007 project (Xunta de Galicia) supporting Arenas-Lago D. through his postdoc contract.</p>

scholarly journals Rhizospheric Phosphate Solubilizing Bacillus atrophaeus GQJK17 S8 Increases Quinoa Seedling, Withstands Heavy Metals, and Mitigates Salt Stress

2021 ◽  
Vol 13 (6) ◽  
pp. 3307
Author(s):  
Ismail Mahdi ◽  
Nidal Fahsi ◽  
Mohamed Hafidi ◽  
Saad Benjelloun ◽  
Abdelmounaaim Allaoui ◽  
...  
Keyword(s):  
Contaminated Soils ◽  
Germination Rate ◽  
Chenopodium Quinoa ◽  
Hydrocyanic Acid ◽  
Phosphate Solubilizing Bacteria ◽  
Pseudomonas Sp ◽  
Bacillus Atrophaeus ◽  
Genotypic Analysis ◽  
Phosphate Solubilizing ◽  
Enterobacter Asburiae

Introduction of quinoa (Chenopodium quinoa willd.), a gluten-free nutritious pseudo-cereal, outside its traditional growing areas exposed it to seedling damping-off. Here, we isolated eleven phosphate-solubilizing bacteria from the quinoa rhizosphere and assessed their effect on germination and seedlings growth. All isolates solubilized phosphate, produced indole3-acetic acid, hydrocyanic acid, siderophores, and ammonia. Genotypic analysis revealed that our strains are related to the genus of Bacillus, Pseudomonas, and Enterobacter. Strains Enterobacter asburiae (QD14, QE4, QE6, and QE16), Enterobacter sp. QE3, and Enterobacter hormaechei QE7 withstood 1.5 mg·L−1 of cadmium sulfate, 0.5 mg·mL−1 of nickel nitrate, and 1 mg·mL−1 of copper sulfate. Moreover, all strains solubilized zinc from ZnO; P. Stutzeri QD1 and E. asburiae QD14 did not solubilize Zn3(PO4)2 and CO3Zn, whereas CO3Zn was not solubilized by E. asburiae QE16. Bacillus atrophaeus S8 tolerated 11% NaCl. P. frederiksbergensis S6 and Pseudomonas sp. S7 induced biofilm formation. Anti-fusarium activity was demonstrated for E.asburiae QE16, P. stutzeri QD1, P. frederiksbergensis S6, Pseudomonas sp. S7, and B. atrophaeus S8. Lastly, inoculation of quinoa seeds with B. atrophaeus S8 and E. asburiae QB1 induced the best germination rate and seedling growth, suggesting their potential use as inoculants for salty and heavy metal or zinc contaminated soils.

scholarly journals Influence of Seed Source and Soil Contamination on Ecophysiological Responses of Lavandula pedunculata in Rehabilitation of Mining Areas

Plants ◽  
2021 ◽  
Vol 11 (1) ◽  
pp. 105
Author(s):  
Daniel Arenas-Lago ◽  
Luisa C. Carvalho ◽  
Erika S. Santos ◽  
Maria Manuela Abreu
Keyword(s):  
Oxidative Stress ◽  
Contaminated Soils ◽  
Germination Rate ◽  
Extreme Environments ◽  
Stress Factors ◽  
Shoot Height ◽  
Controlled Conditions ◽  
Ecophysiological Responses ◽  
High Concentrations ◽  
Contaminated Area

Mining activities have turned many areas of the Iberian Pyrite Belt (IPB) into extreme environments with high concentrations of metal(loid)s. These harsh conditions can inhibit or reduce the colonization and/or development of most vegetation. However, some species or populations have developed ecophysiological responses to tolerate stress factors and contaminated soils. The main objectives of this study are: (i) to assess the differences in germination, growth, development and physiological behaviour against oxidative stress caused by metal(loid)s in Lavandula pedunculata (Mill.) Cav. from two different origins (a contaminated area in São Domingos mine, SE of Portugal and an uncontaminated area from Serra do Caldeirão, S of Portugal) under controlled conditions; and (ii) to assess whether it is possible to use this species for the rehabilitation of mine areas of the IPB. After germination, seedlings from São Domingos (LC) and Caldeirão (L) were planted in pots with a contaminated soil developed on gossan (CS) and in pots with an uncontaminated soil (US) under controlled conditions. Multielemental concentrations were determined in soils (total and available fractions) and plants (shoots and roots). Germination rate, shoot height, dry biomass and leaf area were determined, and pigments, glutathione, ascorbate and H2O2 contents were measured in plant shoots. Total concentrations of As, Cr, Cu, Pb and Sb in CS, and As in US exceed the intervention and maximum limits for ecosystem protection and human health. The main results showed that L. pedunculata, regardless of the seed origin, activated defence mechanisms against oxidative stress caused by high concentrations of metal(loid)s. Plants grown from seeds of both origins increased the production of AsA to preserve its reduction levels and kept the contents of GSH stable to maintain the cell’s redox state. Plants grown from seeds collected in non-contaminated areas showed a high capacity for adaptation to extreme conditions. This species showed a greater growth capacity when seeds from a contaminated area were sown in uncontaminated soils. Thus, L. pedunculata, mainly grown from seeds from contaminated areas, may be used in phytostabilization programmes in areas with soils with high contents of metal(loid)s.

scholarly journals Trace Element Concentration and Speciation in Selected Mining-Contaminated Soils and Water in Willow Creek Floodplain, Colorado

2011 ◽  
Vol 2011 ◽  
pp. 1-20 ◽  
Author(s):  
R. Burt ◽  
T. Weber ◽  
S. Park ◽  
S. Yochum ◽  
R. Ferguson
Keyword(s):  
Trace Elements ◽  
Contaminated Soils ◽  
Element Concentration ◽  
Trace Element Concentration ◽  
Water Soluble ◽  
Chemical Extraction ◽  
Residual Water ◽  
Sequential Chemical Extraction ◽  
Significant Contamination

Long-term mining activities in the mountains around Creede, Colorado have resulted in significant contamination in soils and water in the Willow Creek floodplain. Total major and trace were determined for soils and water and sequential chemical extraction for soils. Objectives were to determine concentrations and potential reactivity of trace elements and investigate their relationship with other soil and water properties. Water trace elements showed significant variability among sites, ranging from 347 to 12108 μg/L. Relative trend showed (Zn > Sr > Ba) > (Mn > W > Cd) > (Sn > V≈Ni≈Cu > Co) > (Ag). Soil trace elements showed significant short-range spatial variability, ranging from 2819 to 19274 mg/kg. Relative trend showed (Pb≈Zn > Mn > Ba > P) > (As > Cu > Sr > V > Cd > Sb≈Ag) > (Co≈Cr > Mo≈Sn≈Ni) > (Be≈W > Se≈Hg). Predominant fractions were oxide, specifically-sorbed/carbonate bound, and residual. Water soluble and exchangeable fractions showed (Zn≈Cd) > Pb and Cd > Zn > Pb, respectively. Mobility factors for highly contaminated soils showed Cd≈Zn > Pb > Cu > As.

scholarly journals Mercury Speciation in Various Coals Based on Sequential Chemical Extraction and Thermal Analysis Methods

Energies ◽  
2021 ◽  
Vol 14 (9) ◽  
pp. 2361
Author(s):  
Yinjiao Su ◽  
Xuan Liu ◽  
Yang Teng ◽  
Kai Zhang
Keyword(s):  
Thermal Stability ◽  
Coal Combustion ◽  
Decomposition Methods ◽  
Chemical Extraction ◽  
Anthropogenic Source ◽  
Coal Rank ◽  
Coal Pyrolysis ◽  
Mercury Emissions ◽  
Sequential Chemical Extraction ◽  
Removal Technology

Coal combustion is an anthropogenic source of mercury (Hg) emissions to the atmosphere. The strong toxicity and bioaccumulation potential have prompted attention to the control of mercury emissions. Pyrolysis has been regarded as an efficient Hg removal technology before coal combustion and other utilization processes. In this work, the Hg speciation in coal and its thermal stability were investigated by combined sequential chemical extraction and temperature programmed decomposition methods; the effect of coal rank on Hg speciation distribution and Hg release characteristics were clarified based on the weight loss of coal; the amount of Hg released; and the emission of sulfur-containing gases during coal pyrolysis. Five species of mercury were determined in this study: exchangeable Hg (F1), carbonate + sulfate + oxide bound Hg (F2), silicate + aluminosilicate bound Hg (F3), sulfide bound Hg (F4), and residual Hg (F5), which are quite distinct in different rank coals. Generally, Hg enriched in carbonates, sulfates, and oxides might migrate to sulfides with the transformation of minerals during the coalification process. The order of thermal stability of different Hg speciation in coal is F1 < F5 < F2 < F4 < F3. Meanwhile, the release of Hg is accompanied with sulfur gases during coal pyrolysis, which is heavily dependent on the coal rank.

scholarly journals Development of a Tellurium Speciation Study Using IC-ICP-MS on Soil Samples Taken from an Area Associated with the Storage, Processing, and Recovery of Electrowaste

Molecules ◽  
2021 ◽  
Vol 26 (9) ◽  
pp. 2651
Author(s):  
Magdalena Jabłońska-Czapla ◽  
Katarzyna Grygoyć
Keyword(s):  
Inductively Coupled Plasma ◽  
Total Concentration ◽  
Soil Samples ◽  
Chemical Extraction ◽  
Soil Extraction ◽  
Inductively Coupled ◽  
Sequential Chemical Extraction ◽  
Icp Ms ◽  
Speciation Study ◽  
Plasma Mass Spectrometry

The optimization and validation of a methodology for determining and extracting inorganic ionic Te(VI) and Te(IV) forms in easily-leached fractions of soil by Ion Chromatography-Inductively Coupled Plasma-Mass Spectrometry (IC-ICP-MS) were studied. In this paper, the total concentration of Te, pH, and red-ox potential were determined. Ions were successfully separated in 4 min on a Hamilton PRPX100 column with 0.002 mg/kg and 0.004 mg/kg limits of detection for Te(VI) and Te(IV), respectively. Soil samples were collected from areas subjected to the influence of an electrowaste processing and sorting plant. Sequential chemical extraction of soils showed that tellurium was bound mainly with sulphides, organic matter, and silicates. Optimization of soil extraction allowed 20% average extraction efficiency to be obtained, using 100 mM citric acid as the extractant. In the tested soil samples, both tellurium species were present. In most cases, the soils contained a reduced Te form, or the concentrations of both species were similar.

scholarly journals A Preliminary Study on Dependence of Mercury Distribution on the Degree of Coalification in Ningwu Coalfield, Shanxi, China

Energies ◽  
2021 ◽  
Vol 14 (11) ◽  
pp. 3119
Author(s):  
Yinjiao Su ◽  
Xuan Liu ◽  
Yang Teng ◽  
Kai Zhang
Keyword(s):  
Linear Correlation ◽  
Bituminous Coal ◽  
Rank Correlation ◽  
Correlation Coefficients ◽  
Chemical Extraction ◽  
Mercury Distribution ◽  
Sequential Chemical Extraction ◽  
Average Proportion ◽  
Total Proportion ◽  
The Relationship

Mercury (Hg) is a toxic trace element emitted from coal conversion and utilization. Samples with different coal ranks and gangue from Ningwu Coalfield are selected and investigated in this study. For understanding dependence of mercury distribution characteristics on coalification degree, Pearson regression analysis coupled with Spearman rank correlation is employed to explore the relationship between mercury and sulfur, mercury and ash in coal, and sequential chemical extraction method is adopted to recognize the Hg speciation in the samples of coal and gangue. The measured results show that Hg is positively related to total sulfur content in coal and the affinity of Hg to different sulfur forms varies with the coalification degree. Organic sulfur has the biggest impact on Hg in peat, which becomes weak with increasing the coalification degree from lignite to bituminous coal. Sulfate sulfur is only related to Hg in peat or lignite as little content in coal. However, the Pearson linear correlation coefficients of Hg and pyritic sulfur are relatively high with 0.479 for lignite, 0.709 for sub-bituminous coal and 0.887 for bituminous coal. Hg is also related to ash content in coal, whose Pearson linear correlation coefficients are 0.504, 0.774 and 0.827 respectively, in lignite, sub-bituminous coal and bituminous coal. Furthermore, Hg distribution is directly depended on own speciation in coal. The total proportion of F2 + F3 + F4 is increased from 41.5% in peat to 87.4% in bituminous coal, but the average proportion of F5 is decreased from 56.8% in peat to 12.4% in bituminous coal. The above findings imply that both Hg and sulfur enrich in coal largely due to the migration from organic state to inorganic state with the increase of coalification degree in Ningwu Coalfield.

scholarly journals OBSERVATIONS IMPLICATING AN EXTRACELLULAR ENZYMIC MECHANISM OF CONTROL OF BONE MORPHOGENESIS

1974 ◽  
Vol 22 (2) ◽  
pp. 88-103 ◽  
Author(s):  
MARSHALL R. URIST ◽  
HISASHI IWATA ◽  
STUART D. BOYD ◽  
PETER L. CECCOTTI ◽  
MARLYS OKADA ◽  
...  
Keyword(s):  
Chemical Reactions ◽  
Phosphate Buffer ◽  
Bone Matrix ◽  
Chemical Extraction ◽  
Ammonium Bromide ◽  
Property A ◽  
Noncollagenous Proteins ◽  
Buffer Solutions ◽  
Sequential Chemical Extraction ◽  
Chloroform Methanol

Data on physicochemical conditions leading to loss of the bone morphogenetic property of bone matrix in neutral buffer solutions support the concept of an enzymic control mechanism better than a chemical blocking reaction or denaturation. The loss is associated with release of 35S-labeled constituents and not prevented by ε-amino caproic acid, an inhibitor of cathepsins. The loss is also associated with release of 35S-cysteine-labeled protein; about 60% of the yield is sustained by the addition of only 3 mmoles/liter of iodoacetic acid. A latent period of about 12 hr, decreased by extraction of bone matrix with CaCl2, is characterized by release of protein polysaccharide and other noncollagenous proteins. Release of sialic acid from the bone matrix by neuraminidase at pH 7.4 has no effect upon bone yield. At 2°C, Tris-HCl buffer or ethylenediaminetetraacetic acid extracts noncollagenous proteins without loss of bone yield; at 37°C, pH 7.4, these solutions also activate endogenous enzymes and reduce bone yield. The component of bone matrix responsible for reduction in bone yield is separable from bone matrix by extraction with phosphate buffer, by catheptic digestion of bone matrix in acidic buffer solutions, by sequential chemical extraction of noncollagenous proteins with cold slightly acidic salt solutions or by extraction-denaturation with chloroform-methanol. Detergents neither extinguish nor denature the morphogenetic property but some solubilize or extract degradative enzymes; hexodecyl trimethyl ammonium bromide, at pH 5.0, is positively charged and extracts hydrophobic proteins, including part of the bone morphogenetic property. A special selection of sulfhydryl chemical inhibitors remarkably different from the selection inhibiting known enzymes preserves the bone morphogenetic property of bone matrix; p-chloromercuribenzoate preservation is reversible by chemical reactions with cysteine. Reduction in bone yield in phosphate buffer is not attributable to a chemical block because chloroform-methanol extraction of the agent does not restore bone yield and is not attributable to denaturation because bone yield sustained by p-chloromercuribenzoate is lost by chemical reactions with cysteine. An hypothetical insoluble bone morphogenetic protein (BMP) firmly bound to collagen is degraded by a soluble neutral proteinase (BMPase). Digestion of the hypothetical BMP occurs without loss of the 640-A electron micrographic image of bone collagen, resembles tryptic digestion and is more selective as well as physiologic in action.

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