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JOURNAL OF CO2 UTILIZATION
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Summary: The coexistence of algae and bacteria has been long-standing and plays a crucial role in the planet ecology. Algal-bacterial consortia show great potential in areas like environmental remediation, biorefinery, carbon sequestration, and high-value compound production, but face challenges that require further research to ensure environmental sustainability and feasibility.
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L. M. Wedding et al.
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GLOBAL ENVIRONMENTAL CHANGE-HUMAN AND POLICY DIMENSIONS
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Shuping Zhang et al.
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PROCESS BIOCHEMISTRY
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Xinlei Wang et al.
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ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS
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Summary: The study investigated the stimulant ability of two green algae species on maize roots, showing that both species promoted the development of maize root system, especially under stress conditions such as nitrogen deficiency. This suggests that microalgae cultivation for biostimulant production could provide solutions for improving plant resilience toward stress conditions.
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Ravindra Prasad et al.
Summary: The increasing concentration of carbon dioxide in the global atmosphere has led to efforts to reduce CO2 emissions, with microalgae playing an important role in carbon sequestration. Two basic strategies are being used to reduce CO2 emissions: decreasing fossil fuel use and increasing renewable energy sources, and carbon sequestration through biological, chemical, or physical methods. The review explores the role of microalgae in carbon sequestration, focusing on the carbon concentration mechanism and the environmental factors affecting carbon sequestration.
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Energy & Fuels
Sanjeet Mehariya et al.
Summary: Microalgae biorefineries offer a sustainable alternative to conventional wastewater treatment processes, with potential for lower costs and energy consumption. They provide valuable compounds for biofuel production while effectively combining wastewater treatment and energy production, addressing the environmental problems caused by increasing world population and energy demand.
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Summary: This study aimed to optimize biomass and DHA production by Schizochytrium sp. grown on waste glycerol. The results suggest the use of a two-step culture system to increase DHA concentration.
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Construction & Building Technology
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JOURNAL OF BUILDING ENGINEERING
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Environmental Sciences
Jun Li et al.
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SCIENCE OF THE TOTAL ENVIRONMENT
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Biotechnology & Applied Microbiology
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CHEMICAL ENGINEERING JOURNAL
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Natalia Kujawska et al.
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Energy & Fuels
Marcin Debowski et al.
Summary: Hydrogen is an environmentally friendly biofuel that could reduce atmospheric carbon dioxide emissions if widely used. The main barrier to its widespread use for power generation is the lack of cost-effective production and storage methods. Microalgae, with their high photosynthetic efficiency and beneficial properties, are considered one of the strongest contenders among biohydrogen production technologies.
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Environmental Sciences
Najaf Iqbal et al.
Summary: Achieving carbon neutrality is crucial for both developed and developing countries, with strategies such as export diversification and eco-innovation playing significant roles. The study suggests that export diversification and fiscal decentralization may increase carbon emissions, while renewable energy consumption and environmental-related technological innovation ensure environmental improvements. Short-term causal links were found running from fiscal decentralization, export diversification, and environmental-related technological innovation to carbon emissions.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
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Environmental Sciences
Marcin Debowski et al.
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Review
Microbiology
Anjani Devi Chintagunta et al.
Summary: Biodiesel is an eco-friendly renewable biofuel that can mitigate greenhouse gas emissions, and recent studies have shown that utilizing lignocellulosic substrates can enhance its production efficiency. Metabolic engineering plays a crucial role in ensuring biofuels and biorefinery advancements, while the integration of liquid biofuels is significant for circular economy aspects.
FRONTIERS IN MICROBIOLOGY
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Microbiology
Lenka Prochazkova et al.
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Helen Onyeaka et al.
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Jack Legrand et al.
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Summary: This paper examines the inconsistency in policy discourses about biofuels within the EU, using the Netherlands as a case study. It reveals that economic incentives and trade opportunities, rather than original policy justifications, are driving the production and use of biofuels in the Netherlands. At the EU level, the majority of current liquid biofuels consist of first-generation biofuels, suggesting a slow progress towards advanced and food-waste-based biofuels. This analysis highlights the incoherence between policy justifications and their implementation, indicating room for improvement in the biofuels policy debate.
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SCIENTIFIC REPORTS
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Jorge Alberto Vieira Costa et al.
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Hamed Kazemi Shariat Panahi et al.
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Hwai Chyuan Ong et al.
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Imma Gifuni et al.
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Wenguang Zhou et al.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
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Kanhaiya Kumar et al.
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Bei Wang et al.
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Sofie Van den Hende et al.
BIOTECHNOLOGY ADVANCES
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Sheng-Yi Chiu et al.
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Fang-Fang Li et al.
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Ling Xu et al.
ENGINEERING IN LIFE SCIENCES
(2009)
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Sheng-Yi Chiu et al.
BIORESOURCE TECHNOLOGY
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Michele Greque de Morais et al.
ENERGY CONVERSION AND MANAGEMENT
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Lihua Cheng et al.
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J Doucha et al.
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G Vunjak-Novakovic et al.
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C Stewart et al.
ENERGY CONVERSION AND MANAGEMENT
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