Pilot-scale bioethanol production from the starch of avocado seeds using a combination of dilute acid-based hydrolysis and alcoholic fermentation by Saccharomyces cerevisiae

Caballero-Sanchez, Luis; Lázaro-Mixteco, Pedro Eduardo; Vargas‐Tah, Alejandra; Castro‐Montoya, Agustín Jaime

doi:10.1186/s12934-023-02110-5

Microb Cell Fact

2023

DOI: 10.1186/s12934-023-02110-5

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Pilot-scale bioethanol production from the starch of avocado seeds using a combination of dilute acid-based hydrolysis and alcoholic fermentation by Saccharomyces cerevisiae

Luis Caballero-Sanchez

Pedro Eduardo Lázaro-Mixteco

Alejandra Vargas‐Tah

et al.

Abstract: Background A processing methodology of raw starch extraction from avocado seeds (ASs) and a sequential hydrolysis and fermentation bioprocess in just a few steps was successfully obtained for the bioethanol production by a single yeast Saccharomyces cerevisiae strain and this research was also to investigate the optimum conditions for the pretreatment of biomass and technical procedures for the production of bioethanol. It successfully resulted in high yields and productivity of all the experim… Show more

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2024

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Cited by 3 publications

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Current trends, limitations and future research in the fungi?

Hyde,

Baldrian,

Chen

et al. 2024

Fungal Diversity

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The field of mycology has grown from an underappreciated subset of botany, to a valuable, modern scientific discipline. As this field of study has grown, there have been significant contributions to science, technology, and industry, highlighting the value of fungi in the modern era. This paper looks at the current research, along with the existing limitations, and suggests future areas where scientists can focus their efforts, in the field mycology. We show how fungi have become important emerging diseases in medical mycology. We discuss current trends and the potential of fungi in drug and novel compound discovery. We explore the current trends in phylogenomics, its potential, and outcomes and address the question of how phylogenomics can be applied in fungal ecology. In addition, the trends in functional genomics studies of fungi are discussed with their importance in unravelling the intricate mechanisms underlying fungal behaviour, interactions, and adaptations, paving the way for a comprehensive understanding of fungal biology. We look at the current research in building materials, how they can be used as carbon sinks, and how fungi can be used in biocircular economies. The numbers of fungi have always been of great interest and have often been written about and estimates have varied greatly. Thus, we discuss current trends and future research needs in order to obtain more reliable estimates. We address the aspects of machine learning (AI) and how it can be used in mycological research. Plant pathogens are affecting food production systems on a global scale, and as such, we look at the current trends and future research needed in this area, particularly in disease detection. We look at the latest data from High Throughput Sequencing studies and question if we are still gaining new knowledge at the same rate as before. A review of current trends in nanotechnology is provided and its future potential is addressed. The importance of Arbuscular Mycorrhizal Fungi is addressed and future trends are acknowledged. Fungal databases are becoming more and more important, and we therefore provide a review of the current major databases. Edible and medicinal fungi have a huge potential as food and medicines, especially in Asia and their prospects are discussed. Lifestyle changes in fungi (e.g., from endophytes, to pathogens, and/or saprobes) are also extremely important and a current research trend and are therefore addressed in this special issue of Fungal Diversity.

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Current trends, limitations and future research in the fungi?

Hyde,

Baldrian,

Chen

et al. 2024

Fungal Diversity

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Comprehensive Utilization of Avocado in Biorefinery: A Bibliometric and Co-Occurrence Approach 2003–2023

Aguilar-Vasquez,

Herrera-Rodriguez,

González-Delgado

2024

Sustainability

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In recent years, the consumption of avocado, both fresh and processed, has experienced a significant worldwide increase due to its recognized nutritional value and beneficial health effects. However, this industrial processing generates a substantial amount of underutilized byproducts, primarily the peel and seed, leading to significant environmental and economic challenges. Fortunately, these residues are rich in bioactive phytochemicals, making their recovery an excellent opportunity to enhance the sustainability and profitability of the modern avocado industry. This bibliometric analysis utilizes data from the Scopus platform to explore the comprehensive utilization of avocado waste. By employing a biorefinery approach and computational tools, the study aims to identify and extract value-added compounds with potential applications in the food, pharmaceutical, chemical, and cosmetic industries. The results highlight that the most relevant research topics are currently focused on sustainable and comprehensive biotransformation of avocado byproducts. Additionally, there is a growing emphasis on methods for extracting valuable products, characterizing their properties, and identifying potentially exploitable active compounds. Furthermore, research is increasingly exploring the environmental and economic factors associated with new research advancements, such as emerging environmental regulations, certifications, substitutes, and technological applications. One key gap identified in recent research advancements is the lack of a sustainable diagnostic framework for avocado utilization processes in a cascade system (multiple high-value consumer products and by-products such as bioplastic). This suggests a crucial area for future research efforts.

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Inherent Safety Index Evaluation of an Extractive-Based Creole-Antillean Avocado Biorefinery in Montes De María, Colombia

Herrera-Rodríguez,

González-Delgado

2024

Sustainability

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In Colombia, different varieties of avocados are produced. In the Montes de María region, Creole-Antillean avocados are grown, but part of the production is lost due to the presence of fungi and pests, lacking marketing strategies, poor road conditions, and other factors. For this reason, we propose utilizing avocados under the concept of biorefinery to produce value-added products such as bio-oil, biopesticide, and chlorophyll from the pulp, seed, and peel, respectively. The objective is to evaluate the safety of establishing an avocado biorefinery by determining the inherent safety index of the chemical processes. The process inherent safety index is a methodology that allows the assessment of processes in the conceptual design stages. This technique identifies the characteristics of the process by determining the properties of the chemical substances, maximum operating conditions, types of equipment, construction materials, reported accidents, and other relevant factors. In the present study, the safety performance of the process is observed. A total inherent safety index of 18 points was obtained, indicating that the process is viable from a safety perspective if we compare it to the permitted limit of 24 points. This is because the process does not represent a considerable safety hazard, though some precautions must be taken due to the maximum operating temperature of 81 °C. Additionally, the chemical substances (methanol, acetone, and ethanol) necessary for obtaining bio-oil, chlorophyll, and biopesticide must be handled appropriately.

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Pilot-scale bioethanol production from the starch of avocado seeds using a combination of dilute acid-based hydrolysis and alcoholic fermentation by Saccharomyces cerevisiae

Cited by 3 publications

References 64 publications

Current trends, limitations and future research in the fungi?

Current trends, limitations and future research in the fungi?

Comprehensive Utilization of Avocado in Biorefinery: A Bibliometric and Co-Occurrence Approach 2003–2023

Inherent Safety Index Evaluation of an Extractive-Based Creole-Antillean Avocado Biorefinery in Montes De María, Colombia

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