Examinando por Autor "Solorzano Acosta, Richard Andi"

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Potential of extremophilic and native microbial consortia in the bioleaching of heavy metals on mining process
(CRC Press, 2024-04-12) Hualpa Cutipa, Edwin; Solorzano Acosta, Richard Andi; Huayllacayan Mallqui, Jorge Johnny; Aguirre Catalan, Heidy Mishey; León Chacón, Andrea; Castro Tena, Lucero Katherine
Mining is a significant economic activity in many countries, resulting in the release of wastewater with high concentrations of heavy metals and other harmful compounds. Leaching is a treatment technique for these effluents, allowing the recovery of precious metals through solubilization, but it generates large amounts of tailings and waste effluents. Microbial leaching (bioleaching) is a biological strategy where microbes are used to solubilize precious metals in insoluble substrates through microbial metabolism or metabolic products. Extremophilic microorganisms, particularly those formed by indigenous consortia (bacteria and fungi), have versatile metabolic traits that are highly valued. Some heterotrophic bacteria adapt to acid environments and high concentrations of heavy metals as a defense mechanism against heavy metals. The pH is a fundamental parameter of bioleaching, and for efficient bioleaching, microbial consortia composed of mixed cultures, mainly extremophilic microbes, are proposed due to their poly-resistance to a reduced pH, likely to favor the recovery of metal. This chapter addresses the main characteristics of extremophilic microorganisms forming native microbial consortia and their biotechnological potential in the bioleaching of heavy metal-rich mining effluents. The aim is to highlight advanced strategies or methods for studying this group of microorganisms, considering their enormous potential as a priceless source of compounds of interest for various fields such as medicine, agriculture, and mining.
Use of a microbial nexus system in high andean areas: effectiveness and feasibility for wastewater treatment
(CRC Press, 2024-08-01) Hualpa Cutipa, Edwin; Solorzano Acosta, Richard Andi; Alfaro Cancino, Milagros Estefani; Luis Alaya, Bernabe
High altitudes harbor several microbial species with unique properties, mainly because of their climatic and geographic characteristics that limit their adaptation. At present, several environmental problems are endangering the health of our planet, among which the pollution of aquatic ecosystems is one of the most important. Wastewater from various industries is treated before being released into the environment, but the strategies used are insufficiently effective, causing environmental problems. New methodologies have been proposed that are based on the implementation of microbial niches that are associated with wastewater treatment systems. Searching for microorganisms in native environments is an important step in establishing new microbial niches related to wastewater treatment. This is mainly because these indigenous microorganisms possess very versatile characteristics, which can be exploited to improve the efficiency of treating wastewater. A specific microbial community is used to degrade pollutants at each stage of biological wastewater treatment. To ensure the efficiency and effectiveness of the treatment process, the coupling of microbial niches in wastewater treatment is essential. In addition, this technique is more economical and environmentally friendly than other alternatives. This makes it an attractive option for wastewater treatment. Thus, this chapter attempts to address the main advantages of using microbial niches inhabiting the high Andean areas and their integration in wastewater treatment. In addition, new strategies will be proposed to study and recover these native microbes with high genetic value for application in different pollutant treatment systems.
Variación de la emisión de CO2 temporal, CO2 acumulado y mejora de características asociadas a la fertilidad de un suelo ácido mediante la aplicación de biochar
(Instituto de Investigaciones de la Amazonía Peruana, 2023-12-29) Rupay, Jannet; Pérez Porras, Wendy Elizabeth; Solorzano Acosta, Richard Andi; Quintanilla Rosas, José Emanuel; Cruz Luis, Juancarlos Alejandro; Cosme de la Cruz, Roberto Carlos
Tradicionalmente, para corregir la acidez del suelo se usa cal o dolomita agrícola, estos encalantes pueden tener como efecto secundario la disminución de materia orgánica del suelo (MOS), stock de carbono y emisión de gases de efecto invernadero (GEI). El biochar alcalino es una alternativa por su estabilidad y capacidad de obtener un balance positivo de carbono, mejorar los suelos agrícolas y generar menores emisiones de GEI. La emisión de CO2 y las propiedades físicas y químicas de un suelo ácido al ser enmendado con biochar, cal, dolomita agrícola versus un testigo (sin enmienda) se evaluaron en invernadero. Sin cultivo, la cal agrícola y biochar tuvieron una rápida reacción elevando el pH cerca de 7; el biochar aumentó el contenido de materia orgánica (+23%), nitrógeno (+20%), fósforo disponible (+116%), CIC (+46%) y cationes intercambiables. La emisión de CO2 temporal dentro de las 24 horas, aumentó con el biochar (+131%) y dolomita (+41%), aunque después disminuyó significativamente. Con el cultivo de maíz, el biochar mantuvo el valor deseado de pH, fueron mayores el fósforo (+109%) y potasio disponible (+224%), CIC (+6%) y cationes intercambiables; la emisión temporal dentro de las 24 horas fue mayor para el biochar (+314%), cal (+115%) y dolomita (+112%); y para el CO2 acumulado, el biochar presentó el mayor valor (+53%). Al día 56, las emisiones de CO2 no fueron significativamente diferentes al testigo para las tres enmiendas, y menores a partir del día 75, lo cual significaría una reducción en las emisiones a largo plazo.