Remediation of crude oil contaminated soils by means of bitumen emulsions

Effective remediation of contaminated sites with oils, heavy metals and other chemical agents is one of the most important environmental problems all over the world. Contaminated soils by petroleum from different sites and origins, might contaminate groundwater aquifers and then be spread by rain. Many years and the requirement of remedial techniques may be needed to remediate them. However, previous experiences show the uselessness of these methods for the solution of all problems. As any case of soil contamination is different, specific studies with relevant factors at financial aspects, legal limits and waste and soil characteristics are needed. In this work, a study of the use of bitumen asphalt emulsion to remediate contaminated soils by crude oils is exposed. By means of the soil stabilization technology, using the contaminated soils as aggregates and the tailor made emulsion as binder, the feasibility of the mix application to produce stable and resistant pavements is demonstrated

Effects of soluble humic acids on the uptake of heavy metals by Vetiveria zizanioides (L.) Nash in contaminated mining soils

In the past, mining wastes were left wherever they might lie in the surroundings of the mine area. Unfortunately, inactive and abandoned mines continue to pollute our environment, reason why these sites should be restored with minimum impact. Phytoextraction is an environmental-friendly and cost-effective technology less harmful than traditional methods that uses metal hyperaccumulator or at least tolerant plants to extract heavy metals from polluted soils. One disadvantage of hyperaccumulator species is their slow growth rate and low biomass production. Vetiveria zizanioides (L.) Nash, perennial species adapted to Mediterranean climate has a strong root system which can reach up to 3 m deep, is fast growing, and can survive in sites with high metal levels (Chen et al., 2004). Due to the fact that metals in abandoned mine tailings become strongly bonded to soil solids, humic acids used as chelating agents could increase metal bioavailability (Evangelou et al., 2004; Wilde et al., 2005) and thereby promote higher accumulation in the harvestable parts of the plant. The objective of this study was to examine the performance of humic acid assisted phytoextraction using Vetiveria zizanioides (L.) Nash in heavy metals contaminated soils.

Geotechnical Analysis of Contaminated Sand by Light Non-Aquous Phase Liquids

Contaminated soil reuse was investigated, with higher profusion, throughout the early 90’s, coinciding with the 1991 Gulf War, when efforts to amend large crude oil releases began in geotechnical assessment of contaminated soils. Isolated works referring to geotechnical testing with hydrocarbon ground contaminants are described in the state-of-the-art, which have been extended to other type of contaminated soil references. Contaminated soils by light non-aquous phase liquids (LNAPL) bearing capacity reduction has been previously investigated from a forensic point of view. To date, all the research works have been published based on the assumption of constant contaminant saturation for the entire soil mass. In contrast, the actual LNAPLs distribution plumes exhibit complex flow patterns which are subject to physical and chemical changes with time and distance travelled from the release source. This aspect has been considered along the present text. A typical Madrid arkosic soil formation is commonly known as Miga sand. Geotechnical tests have been carried out, with Miga sand specimens, in incremental series of LNAPL concentrations in order to observe the soil engineering properties variation due to a contamination increase. Results are discussed in relation with previous studies and as a matter of fact, soil mechanics parameters change in the presence of LNAPL, showing different tendencies according to each test and depending on the LNAPL content, as well as to the specimen’s initially planned relative density, dense or loose. Geotechnical practical implications are also commented on and analyzed. Variation on geotechnical properties may occur only within the external contour of contamination distribution plume. This scope has motivated the author to develop a physical model based on transparent soil technology. The model aims to reproduce the distribution of LNAPL into the ground due to an accidental release from a storage facility. Preliminary results indicate that the model is a potentially complementary tool for hydrogeological applications, site-characterization and remediation treatment testing within the framework of soil pollution events. A description of the test setup of an innovative three dimensional physical model for the flow of two or more phases, in porous media, is presented herein, along with a summary of the advantages, limitations and future applications for modeling with transparent material. En los primeros años de la década de los años 90, del siglo pasado, coincidiendo con la Guerra del Golfo en 1991, se investigó intensamente sobre la reutilización de suelos afectados por grandes volúmenes de vertidos de crudo, fomentándose la evaluación geotécnica de los suelos contaminados. Se describen, en el estado del arte de esta tésis, una serie de trabajos aislados en relación con la caracterización geotécnica de suelos contaminados con hidrocarburos, descripción ampliada mediante referencias relacionadas con otros tipos de contaminación de suelos. Existen estudios previos de patología de cimentaciones que analizan la reducción de la capacidad portante de suelos contaminados por hidrocarburos líquidos ligeros en fase no acuosa (acrónimo en inglés: LNAPL de “Liquid Non-Aquous Phase Liquid”). A fecha de redacción de la tesis, todas las publicaciones anteriores estaban basadas en la consideración de una saturación del contaminante constante en toda la extensión del terreno de cimentación. La distribución real de las plumas de contaminante muestra, por el contrario, complejas trayectorias de flujo que están sujetas a cambios físico-químicos en función del tiempo y la distancia recorrida desde su origen de vertido. Éste aspecto ha sido considerado y tratado en el presente texto. La arena de Miga es una formación geológica típica de Madrid. En el ámbito de esta tesis se han desarrollado ensayos geotécnicos con series de muestras de arena de Miga contaminadas con distintas concentraciones de LNAPL con el objeto de estimar la variación de sus propiedades geotécnicas debido a un incremento de contaminación. Se ha realizado una evaluación de resultados de los ensayos en comparación con otros estudios previamente analizados, resultando que las propiedades mecánicas del suelo, efectivamente, varían en función del contenido de LNAPL y de la densidad relativa con la que se prepare la muestra, densa o floja. Se analizan y comentan las implicaciones de carácter práctico que supone la mencionada variación de propiedades geotécnicas. El autor ha desarrollado un modelo físico basado en la tecnología de suelos transparentes, considerando que las variaciones de propiedades geotécnicas únicamente deben producirse en el ámbito interior del contorno de la pluma contaminante. El objeto del modelo es el de reproducir la distribución de un LNAPL en un terreno dado, causada por el vertido accidental de una instalación de almecenamiento de combustible. Los resultados preliminares indican que el modelo podría emplearse como una herramienta complementaria para el estudio de eventos contaminantes, permitiendo el desarrollo de aplicaciones de carácter hidrogeológico, caracterización de suelos contaminados y experimentación de tratamientos de remediación. Como aportación de carácter innovadora, se presenta y describe un modelo físico tridimensional de flujo de dos o más fases a través de un medio poroso transparente, analizándose sus ventajas e inconvenientes así como sus limitaciones y futuras aplicaciones.

Phytoextraction of heavy metals from mine soils using hyperaccumulator plants.

Phytoextraction is an environmental-friendly and cost-effective technology that uses metal hyperaccumulator plants to remove heavy metals from soils. The metals are absorbed by the roots, transported and accumulated in the aerial parts of the plants, which can be harvested and eliminated. The aim of this work was to study some hyperaccumulator species that could be useful to decontaminate mine soils and also to investigate the bioavailability and uptake of these metals by plants with the addition of organic amendments. Pot experiments were performed with soil samples collected from two mining areas in the north of Madrid, where there was an intense mining activity more than 50 years ago. Three species (Thlaspi arvense, Brassica juncea and Atriplex halimus) were grown under controlled conditions in pots filled with contaminated soils mixed with 0 Mg, 30 Mg and 60 Mg per hectare of two different organic amendments: a commercial compost made of pine bark, peat and wood fiber and other made of horse and sheep manure and wood fiber. Plants were harvested at the end of their crop cycle and were digested in order to measure metal concentration (Zn, Cu and Cd) in roots and shoots. Highest plant metal concentration was observed in pots treated with pine bark amendment and with pure soil due to an increase in metal bioavailability with decreasing pH. Also in those treatments the total plant biomass was lower, even some plants could not germinate. On the contrary, there was a lower metal concentration in plant tissues of pots with manure because its higher pH whereas plant growth was significantly larger so there was an incresing amount of metals removed from soil by plants. Comparing the three species results indicate a higher total metal uptake in A. halimus than B. juncea and T. arvense. In conclusion, results show that pH affects metal bioavailability and uptake by hyperaccumulator plants. Addition of organic amendments could be a successful technique for stabilization of metals in contaminated soils.

Bioavailability and extraction of heavy metals from contaminated soil by Atriplex halimus

Pot experiments were performed to evaluate the phytoremediation capacity of plants of Atriplex halimus grown in contaminated mine soils and to investigate the effects of organic amendments on the metal bioavailability and uptake of these metals by plants. Soil samples collected from abandoned mine sites north of Madrid (Spain) were mixed with 0, 30 and 60 Mg ha?1 of two organic amendments, with different pH and nutrients content: pine-bark compost and horse- and sheep-manure compost. The increasing soil organic matter content and pH by the application of manure amendment reduced metal bioavailability in soil stabilising them. The proportion of Cu in the most bioavailable fractions (sum of the water-soluble, exchangeable, acid-soluble and Fe?Mn oxides fractions) decreased with the addition of 60 Mg ha?1 of manure from 62% to 52% in one of the soils studied and from 50% to 30% in the other. This amendment also reduced Zn proportion in water-soluble and exchangeable fractions from 17% to 13% in one of the soils. Manure decreased metal concentrations in shoots of A. halimus, from 97 to 35 mg kg?1 of Cu, from 211 to 98 mg kg?1 of Zn and from 1.4 to 0.6 mg kg?1 of Cd. In these treatments there was a higher plant growth due to the lower metal toxicity and the improvement of nutrients content in soil. This higher growth resulted in a higher total metal accumulation in plant biomass and therefore in a greater amount of metals removed from soil, so manure could be useful for phytoextraction purposes. This amendment increased metal accumulation in shoots from 37 to 138 mg pot?1 of Cu, from 299 to 445 mg pot?1 of Zn and from 1.8 to 3.7 mg pot?1 of Cd. Pine bark amendment did not significantly alter metal availability and its uptake by plants. Plants of A. halimus managed to reduce total Zn concentration in one of the soils from 146 to 130 mg kg?1, but its phytoextraction capacity was insufficient to remediate contaminated soils in the short-to-medium term. However, A. halimus could be, in combination with manure amendment, appropriate for the phytostabilization of metals in mine soils.

Phytoextraction of heavy metals from mine soils using hyperaccumulator plants

The aim of this work was to study some hyperaccumulator species that could be useful to decontaminate mine soils and also to investigate the bioavailability and uptake of these metals by plants with the addition of organic amendments. Pot experiments were performed with soil samples collected from two mining areas in the north of Madrid, where there was an intense mining activity more than 50 years ago. Three species (Thlaspi arvense, Brassica juncea and Atriplex halimus) were grown under controlled conditions in pots filled with contaminated soils mixed with 0 Mg, 30 Mg and 60 Mg per hectare of two different organic amendments: a commercial compost made of pine bark, peat and wood fiber and other made of horse and sheep manure and wood fiber. Plants were harvested at the end of their crop cycle and were digested in order to measure metal concentration (Zn, Cu and Cd) in roots and shoots. Highest plant metal concentration was observed in pots treated with pine bark amendment and with pure soil due to an increase in metal bioavailability with decreasing pH. Also in those treatments the total plant biomass was lower, even some plants could not germinate. On the contrary, there was a lower metal concentration in plant tissues of pots with manure because its higher pH whereas plant growth was significantly larger so there was an incresing amount of metals removed from soil by plants. Comparing the three species results indicate a higher total metal uptake in A. halimus than B. juncea and T. arvense. In conclusion, results show that pH affects metal bioavailability and uptake by hyperaccumulator plants. Addition of organic amendments could be a successful technique for stabilization of metals in contaminated soils.

Identification and functional characterization of Rhizobium leguminosarum bv. viciae genetic systems involved in nickel homeostasis.

A collection of Rhizobium leguminosarum bv. viciae strains isolated from ultramafic and contaminated soils in Italy and Germany, respectively, was analyzed for resistance to nickel and cobalt ions. These assays led to the identification of strain UPM1137, which is able to grow at high concentrations of nickel and cobalt. In order to identify genetic systems involved in the homeostasis to these metals, a random mutagenesis was carried out in UPM1137 by inserting a Tn5-derivative minitransposon. As a result 4313 transconjugants were obtained, being 39 of them (0.90%) unable to grow at 1.5 mM NiCl2. The identification of the transposon insertion site in these mutants showed that the disrupted genes encode proteins belonging to different functional categories, where the secreted and membrane proteins were the most numerous. The analysis of heavy metal resistance and phenotypes in symbiotic and free –living cells will define the contribution of these genes to metal homeostasis.

Respuesta transcripcional de Populus a bifenilos policlorados: Aspectos aplicados a la fitorremediación

La degradación del suelo ha adquirido una magnitud preocupante. Los métodos tradicionales de descontaminación, son costosos e insuficientes. La fitorremediación representa una alternativa eficaz, de bajo coste, respetuosa con el medio ambiente, que además mejora las propiedades del suelo, si bien ha habido desarrollos relevantes en la última década. Desde el punto de vida científico, el reto principal es descifrar las rutas metabólicas implicadas en respuesta a contaminantes y comprender su regulación. Esta información es imprescindible si aspiramos a mejorar las capacidades naturales de algunas especies vegetales para remediar los suelos contaminados. Los estudios de esta Tesis se han centrado en Populus, el mejor modelo forestal disponible a raíz de la secuenciación de su genoma completo. Por otra parte, Populus tiene una gran capacidad natural para la degradación de contaminantes orgánicos, lo que explica su predominio en los programas forestales de fitorremediación que se desarrollan actualmente. Hemos elegido en concreto al híbrido Populus tremula x P. alba, por la facilidad con que se cultiva y su particular interés biotecnológico. La presente Tesis plantea un estudio comprehensivo de la respuesta molecular a bifenilos policlorados (PCBs), una familia de contaminantes orgánicos persistentes de particular relevancia a escala mundial. Se ha utilizado para ello una aproximación transcriptómica, basada en tecnología RNA-seq, para identificar los genes implicados en el metabolismo de los compuestos in planta y cuantificar sus niveles de activación en distintas situaciones controladas. La tesis pretende asimismo definir el control transcripcional subyacente a la respuesta bioquímica frente a este tipo de contaminantes. Resulta sorprendente que dicha respuesta sea prácticamente desconocida a nivel molecular, a pesar de su gran potencial aplicado en el contexto de la tecnología fitorremediadora. Para desarrollar este proyecto aplicamos a nuestros cultivos de chopo híbridos concentraciones diferentes de Aroclor 1221, una mezcla de PCBs muy utilizada a nivel comercial durante décadas, su uso está prohibido hoy internacionalmente. Y tomamos muestras de RNA a dos concentraciones y dos momentos distintos de exposición al contaminante, generando así una matriz de cuatro elementos con sus controles correspondientes. Con el fin de incrementar la especificidad de nuestro análisis, consideramos sobre todo los genes diferencialmente expresados más significativos según cuatro algoritmos estadísticos distintos. Por otra parte, realizamos análisis funcionales con herramientas bioinformáticas basadas en comparaciones de secuencias y en redes de co-expresión génica. La respuesta de los genes de particular interés fue validada mediante tecnología qRT-PCR (reacción de la polimerasa en cadena cuantitativa en tiempo real). Se trata del primer estudio comprehensivo de la respuesta de un organismo vegetal ante la presencia de PCBs. Este estudio nos ha permitido identificar una cantidad considerable de genes estructurales y reguladores, definiendo nuevos factores de transcripción cuya expresión es proporcional a la concentración de contaminante en el medio o al tiempo de exposición al mismo. Los análisis de correlación nos permiten afirmar en que la respuesta metabólica a PCBs, incluyendo posibles rutas degradadoras, participan en al menos quince factores de transcripción y unas cuarenta proteínas o enzimas que resultan particularmente inducidas. Entre las familias implicadas destacan los citocromos P450, la glutatión transferasas, las deshidrogenasas reductasas (short-chain dehydrogenase reductase) y las proteínas MDR (multi-drug resistance). Mientras que los factores de transcripción encontrados pertenecen a la familia de ZF-TF, MYBs, WRKYs entre otros. También identificamos proteínas de función desconocida que no se habían vinculado previamente a este tipo de respuestas en plantas, como la CSP (cold-shock domain proteins). Para estudiar su posible relación con la presencia de PCBs, se caracterizó un gen de esta familia detectado mediante espectrometría de masas en tándem (MS/MS) a partir de mapas IEF x SDS-PAGE (isoelectro focusing x sodium dodecyl sulphate- polyacrylamide gel electrophoresis) de alta resolución. Mediante qRT-PCR pudimos confirmar la inducción del gen correspondiente, ortólogo a PtCSP4 de P. trichocarpa (Potri.004g172600), en respuesta a Aroclor 1221. El análisis fenotípico de las líneas transgénicas de Arabidopsis thaliana que sobre-expresaba la proteína CSP de chopo híbrido confirmó un papel para la misma tolerancia a PCBs, posiblemente a través de mecanismos reguladores que activan proteínas MDR. Este trabajo, además de aportar datos novedosos sobre los mecanismos moleculares desencadenados por la presencia de un PCB en Populus, utilizado aquí como sistema modelo. Con ello se demuestra el potencial de las especies arbóreas no solo como agentes descontaminantes, ya explotado comercialmente, sino también como fuente potencial de genes interesantes. Entre los genes identificados en esta Tesis hay candidatos evidentes a participar en mecanismos de tolerancia al estrés inducido por la contaminación y también rutas metabólicas degradadores de PCBs. Precisamente la posibilidad de degradar al contaminante confiere particular interés a este tipo de estudios frente a la fitorremediación de metales pesados y otros contaminantes elementales. La comparación de los datos generados en este estudio con estudios análogos que se realicen en el futuro con otras especies y xenobióticos, contribuirán a definir mejor la respuesta de las plantas ante la contaminación orgánica y mejorar su potencial descontaminante. ABSTRACT Soil degradation has acquired a disturbing magnitude. Traditional methods of decontamination are expensive and insufficient. Phytoremediation represent an effective alternative, low cost, respectful of the environment, that also improves soil properties, although there have been relevant developments in the last decade. From a life scientist, the challenge is to decipher the major metabolic pathways involved in response to pollutants and understand their regulation. This information is essential if we desire to enhance the natural abilities of some plant species to remediate contaminated soils. This thesis studies have focused on Populus, the best available forestry model following the sequencing of the entire genome. Moreover, Populus has a natural ability to degrade organic pollutants, which explains its predominance in phytoremediation forestry programs currently being developed. We have chosen specifically to hybrid Populus tremula x P. alba, the ease with which it is grown and its particular biotechnological interest. This thesis presents a comprehensive study of the molecular response to polychlorinated biphenyls (PCBs), a family of persistent organic pollutants of particular relevance worldwide. It has been used for a transcriptomic approach using RNA-seq technology, to identify genes involved in the metabolism of compounds in plant and quantify their levels of activation in different controlled situations. The thesis also aims to define the underlying transcriptional control the biochemical response to these pollutants. It is surprising that the response is virtually unknown at the molecular level, despite its great potential applied in the context of phytoremediation technology. To develop this project we applied our hybrid poplar crops different concentrations of Aroclor 1221, a mixture of PCBs widely used commercially for decades, its use is now banned internationally. And we RNA samples at two different concentrations and times of exposure to the pollutant, generating an array of four elements with their corresponding controls. In order to increase the specificity of our analysis, we consider mainly the most significant differentially expressed genes in four different statistical algorithms. Moreover, functional analyzes conducted with bioinformatics tools based on sequence comparisons and networks gene co-expression. The response of genes of particular interest was validated by qRT-PCR (polymerase reaction chain in real-time quantitative. This is the first comprehensive study of the response of a plant organism in the presence of PCBs. This study allowed us to identify a considerable amount of structural and regulatory genes, defining new transcription factors whose expression is proportional to the concentration of contaminant in the middle or at the time of exposure. Correlation analyzes allow us to affirm that the metabolic response to PCBs, including possible degradative pathways, at least fifteen involved in transcription factors and forty proteins or enzymes which are particularly induced. Among the families involved include cytochromes P450, the glutathione transferases, dehydrogenases reductases (short -chain dehydrogenase reductase) and MDR proteins (multi - drug resistance). While transcription factors belong to the family found ZF-TF, MYBs, WRKYs among others. We also identify proteins of unknown function that had not been previously linked to such responses in plants such as CSP (cold- shock domain proteins). To study their possible relationship with the presence of PCBs, a gene in this family was characterized and was detected by tandem mass spectrometry (MS/MS) from maps IEF x SDS -PAGE (sodium dodecyl isoelectro x sulphate- polyacrylamide gel electrophoresis) of high resolution. By qRT -PCR could confirm the induction of the corresponding gene, ortholog to PtCSP4 of P. trichocarpa (Potri.004g172600), in response to Aroclor 1221. Phenotypic analysis of transgenic Arabidopsis thaliana lines over- expressing the protein CSP poplar hybrid confirmed a role for PCBs same tolerance, possibly through regulatory mechanisms activated MDR proteins. This work, in addition to providing new data on the molecular mechanisms triggered by the presence of PCBs in Populus, used here as a model system. Thus the potential of tree species not only as decontamination agents, and commercially exploited, but also as a potential source of interesting genes is shown. Among the genes identified in this thesis there are evident candidates to participate in tolerance mechanisms to stress induced by pollution and degrading metabolic pathways of PCBs. Precisely the possibility of degrading the pollutant attaches particular interest to this type of study off the phytoremediation of heavy metals and other elemental pollutants. The comparison of the data generated in this study with similar studies carried out in the future with other species and xenobiotics contribute to better define the response of plants to organic pollution and improve their decontamination potential.

Chemical speciation and mobilization of copper and zinc in naturally contaminated mine soils with citric and tartaric acids

A one-step extraction procedure and a leaching column experiment were performed to assess the effects of citric and tartaric acids on Cu and Zn mobilization in naturally contaminated mine soils to facilitate assisted phytoextraction. A speciation modeling of the soil solution and the metal fractionation of soils were performed to elucidate the chemical processes that affected metal desorption by organic acids. Different extracting solutions were prepared, all of which contained 0.01 M KNO3 and different concentrations of organic acids: control without organic acids, 0.5 mM citric, 0.5 mM tartaric, 10 mM citric, 10 mM tartaric, and 5 mM citric +5 mM tartaric. The results of the extraction procedure showed that higher concentrations of organic acids increased metal desorption, and citric acid was more effective at facilitating metal desorption than tartaric acid. Metal desorption was mainly influenced by the decreasing pH and the dissolution of Fe and Mn oxides, not by the formation of soluble metal–organic complexes as was predicted by the speciation modeling. The results of the column study reported that low concentrations of organic acids did not significantly increase metal mobilization and that higher doses were also not able to mobilize Zn. However, 5–10 mM citric acid significantly promoted Cu mobilization (from 1 mg kg−1 in the control to 42 mg kg−1 with 10 mM citric acid) and reduced the exchangeable (from 21 to 3 mg kg−1) and the Fe and Mn oxides (from 443 to 277 mg kg−1) fractions. Citric acid could efficiently facilitate assisted phytoextraction techniques.

Effects of sheep and horse manure and pine bark amendments on metal distribution and chemical properties of contaminated mine soils.

Mine soils usually contain large levels of heavy metals and poor fertility conditions which limit their reclamation and the application of phyto-remediation technologies. Two organic waste materials (pine bark compost and sheep and horse manure compost), with different pHs and varying degrees of humification and nutrient contents, were applied as amendments to assess their effects on copper (Cu) and zinc (Zn) bioavailability and on fertility conditions of mine soils. Soil samples collected from two abandoned mining areas near Madrid (Spain) were mixed with 0, 30 and 60 t ha?1 of the organic amendments. The concentrations of metals among the different mineral and organic fractions of soil were determined by several extraction procedures to study the metal distribution in the solid phase of the soil affected by the organic amendments. The results showed that the manure amendment increased the soil pH and the cation exchange capacity and enhanced the nutrient levels of these soils. The pine bark amendment decreased the soil pH and did not significantly change the nutrient status of soil. Soil pH, organic matter content and its degree of humification, which were altered by the amendments, were the main factors affecting Cu fractionation. Zn fractionation was mainly affected by soil pH. The addition of manure not only improved soil fertility, but also decreased metal bioavailability resulting in a reduction of metal toxicity. Conversely, pine bark amendment increased metal ioavailability. The use of sheep and horse manure could be a cost-effective practice for the restoration of contaminated mine soils.