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Main Authors: Madureira, Leandro, Soares, Ana, Duarte, M Salomé, Pereira, Francisco, Francisco, Diogo, Maciel, Filipe, Vicente, António A, Vasconcelos, Vítor, Pereira, M Alcina, Geada, Pedro
Format: Artículo científico
Language:en
Published: Bioresource technology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40306333/
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author Madureira, Leandro
Soares, Ana
Duarte, M Salomé
Pereira, Francisco
Francisco, Diogo
Maciel, Filipe
Vicente, António A
Vasconcelos, Vítor
Pereira, M Alcina
Geada, Pedro
author_facet Madureira, Leandro
Soares, Ana
Duarte, M Salomé
Pereira, Francisco
Francisco, Diogo
Maciel, Filipe
Vicente, António A
Vasconcelos, Vítor
Pereira, M Alcina
Geada, Pedro
Madureira, Leandro
Soares, Ana
Duarte, M Salomé
Pereira, Francisco
Francisco, Diogo
Maciel, Filipe
Vicente, António A
Vasconcelos, Vítor
Pereira, M Alcina
Geada, Pedro
collection PubMed - marine biology
contents Insights on microalgae-based technologies with potential impact on global methane budget - Perspectives for industrial applications. Madureira, Leandro Soares, Ana Duarte, M Salomé Pereira, Francisco Francisco, Diogo Maciel, Filipe Vicente, António A Vasconcelos, Vítor Pereira, M Alcina Geada, Pedro Microalgae Methane Biofuels Biomass Biotechnology Photosynthesis Industry The European Union's Methane Action Plan outlined policies and targets supporting the Global Methane Pledge to cut CH emissions by 30% by 2030, yet urgent implementation is needed to treat medium and diluted CH streams. Microalgae-based technologies offer a groundbreaking solution, merging CH mitigation with biomass valorization to drive sustainable industrial practices. This review examines three key applications: photosynthetic biogas upgrading, a viable alternative to physical/chemical methods, producing biomethane and valuable algal biomass; microalgae-methanotroph co-cultivation, a promising but underdeveloped method for diluted CH streams; and CH-producing microalgae, unveiling a novel route for biomethane production. Despite their potential, significant research gaps remain, particularly in reactor design, culture conditions, and large-scale viability. By addressing these challenges, microalgae could revamp CH management, bridging environmental goals with bioeconomic progress. This review calls for policy updates, intensified research, and industrial engagement to unlock microalgae's full potential in CH mitigation and valorization.
format Artículo científico
id pubmed_40306333
institution PubMed
language en
publishDate 2025
publisher Bioresource technology
record_format pubmed
spellingShingle Insights on microalgae-based technologies with potential impact on global methane budget - Perspectives for industrial applications.
Madureira, Leandro
Soares, Ana
Duarte, M Salomé
Pereira, Francisco
Francisco, Diogo
Maciel, Filipe
Vicente, António A
Vasconcelos, Vítor
Pereira, M Alcina
Geada, Pedro
Microalgae
Methane
Biofuels
Biomass
Biotechnology
Photosynthesis
Industry
Insights on microalgae-based technologies with potential impact on global methane budget - Perspectives for industrial applications. Madureira, Leandro Soares, Ana Duarte, M Salomé Pereira, Francisco Francisco, Diogo Maciel, Filipe Vicente, António A Vasconcelos, Vítor Pereira, M Alcina Geada, Pedro Microalgae Methane Biofuels Biomass Biotechnology Photosynthesis Industry The European Union's Methane Action Plan outlined policies and targets supporting the Global Methane Pledge to cut CH emissions by 30% by 2030, yet urgent implementation is needed to treat medium and diluted CH streams. Microalgae-based technologies offer a groundbreaking solution, merging CH mitigation with biomass valorization to drive sustainable industrial practices. This review examines three key applications: photosynthetic biogas upgrading, a viable alternative to physical/chemical methods, producing biomethane and valuable algal biomass; microalgae-methanotroph co-cultivation, a promising but underdeveloped method for diluted CH streams; and CH-producing microalgae, unveiling a novel route for biomethane production. Despite their potential, significant research gaps remain, particularly in reactor design, culture conditions, and large-scale viability. By addressing these challenges, microalgae could revamp CH management, bridging environmental goals with bioeconomic progress. This review calls for policy updates, intensified research, and industrial engagement to unlock microalgae's full potential in CH mitigation and valorization.
title Insights on microalgae-based technologies with potential impact on global methane budget - Perspectives for industrial applications.
topic Microalgae
Methane
Biofuels
Biomass
Biotechnology
Photosynthesis
Industry
url https://pubmed.ncbi.nlm.nih.gov/40306333/