Journal

Editor in Chief: 

​Dr. Reyed M Reyed​

Associate Prof of Microbial Biotechnology

City of Scientific Research and Technological Applications (SRTA City)

Genetic Engineering and Biotechnology Research Institute (GEBRI)

 Egypt.

                                               Welcome Message and Call for Contributions

Dear Researchers and Academic Reviewers,​

It is my pleasure to extend a warm welcome to all of you to the Journal of Climate Change and Renewable Energy. As the Editor-in-Chief, I want to express my sincere gratitude for your continued support and engagement with our journal. I am pleased to outline our core focus areas and invite you to contribute your valuable research.

Our journal addresses two primary themes that are pivotal in contemporary discussions on climate change and renewable energy:

* Impact of Climate Change on Gut Microbiome Health, Human Health, Food Security, and Food Safety: Understanding the effects of climate change on gut microbiome health is crucial for exploring how environmental changes impact microbial balance, human health, food security, and food safety. We encourage submissions that delve into these complex interactions and propose strategies for adaptation and improvement.

* Renewable Energy Based on Biotechnology and Molecular Biology for Sustainable Clean Energy Production: The application of biotechnology and molecular biology in advancing renewable energy solutions represents a promising frontier. We invite research that investigates how these technologies can be harnessed to produce clean and sustainable energy, thereby supporting the transition to renewable energy sources.

In order to maintain and elevate the scientific quality of our journal, we encourage you to submit your innovative research addressing these themes. Your contributions are essential in enhancing the journal’s standing as a leading source of advanced scientific knowledge and in advancing solutions to pressing issues in climate change and renewable energy.

Additionally, we extend a special invitation to our academic reviewers. Your critical role in the meticulous and unbiased review of submissions ensures the high standards of our journal. We highly value your efforts and dedication in refining the quality of published research and welcome your continued engagement.

We are confident that the Journal of Climate Change and Renewable Energy will continue to achieve significant milestones with your support and active participation.

We look forward to receiving your contributions and working together to advance our collective goals.

Thank you once again for your support and commitment. We anticipate a fruitful and distinguished collaboration.

Warm regards,

Dr. Reyed M. Reyed

Editor-in-Chief

Journal of Climate Change and Renewable Energy

About us:

Welcome to the Journal of Climate Change and Renewable Energy (JCCRE), a pioneering publication dedicated to advancing the understanding of climate change and promoting the utilization of renewable energy sources. Our journal serves as a leading platform for researchers, practitioners, policymakers, and educators to explore the latest developments, share insights, and drive innovation in the fields of climate change mitigation, adaptation, and renewable energy technologies.

Our Mission:

The mission of the Journal of Climate Change and Renewable Energy (JCCRE) is to foster interdisciplinary research and collaboration aimed at addressing the challenges posed by climate change while promoting the transition towards a sustainable energy future. We strive to publish high-quality, peer-reviewed articles that contribute to the advancement of knowledge in climate science, renewable energy technologies, and their interactions.

Scope of the Journal of Climate Change and Renewable Energy (JCCRE):

The Journal of Climate Change and Renewable Energy (JCCRE) encompasses a broad array of topics critical to understanding and addressing climate change and advancing renewable energy technologies. The journal aims to provide a comprehensive platform for research and discussion on the following key areas, prioritized by their service, developmental, and environmental significance:

1. Part One: Impact of Climate Change on Gut Microbiome Health, Human Health, Food Security, and Food Safety

Climate Change and Gut Microbiome Health:

• Introduction: Discuss how climate change affects the microbial environment within the gut.
• Dietary Changes: How changes in ecosystems and agricultural systems due to climate change impact the composition and function of the gut microbiome.
• Gut Health: Examining the relationship between climate change and the increase in gastrointestinal diseases such as inflammatory bowel diseases and food allergies. 

Climate Change, Human Health, and Longevity:

• Introduction: Discuss the impact of climate change on overall health and longevity.
• Chronic Diseases: How climate change can increase the prevalence of chronic diseases such as heart disease, diabetes, and respiratory diseases.
• Mental Health: The impact of climate changes on mental health and individual well-being.

Food Security and Food Safety in the Face of Climate Change:

• Introduction: Discuss how climate change affects food security and food safety.
• Sustainable Food Production: Utilizing biotechnology to improve soil fertility and increase crop yields in climate-affected environments.
• Controlling Foodborne Pathogens: Using beneficial bacteria to reduce the spread of harmful bacteria in food products under changing climatic conditions.
• Food Biotesting: Developing microbe-based tools for rapid and accurate detection of food contaminants amidst climate change.

The Distinctive and Sustainable Role of Biotechnology in Addressing Climate Change:

• Introduction: Discuss the role of biotechnology in adapting to and mitigating the effects of climate change.
• Emerging Technologies: Leveraging artificial intelligence and computational modeling to accelerate research and development in microbial biotechnology to address climate change challenges.
• Future Challenges: Addressing challenges related to regulatory frameworks, biosafety, and societal acceptance of new technologies in the context of climate change.

2. Part Two: Renewable Energy Based on Biotechnology and Molecular Biology for Sustainable Clean Energy Production

Renewable Energy Production Using Biotechnology:

• Introduction: Discuss the role of biotechnology in renewable energy production.
• Waste-to-Energy Conversion: Utilizing microbes to break down organic waste and convert it into renewable energy sources such as biogas.
• Biofuels: Developing new techniques for producing biofuels using microorganisms.
• Hydrogen Energy Production: Exploring methods for producing hydrogen fuel through biotechnological processes, including microbial and enzymatic approaches.

Molecular Biology and Clean Energy Production:

• Introduction: Discuss the role of molecular biology in developing clean energy solutions.
• Genetic Engineering: Using genetic engineering to enhance energy production efficiency in microorganisms.
• New Technologies: Reviewing the latest developments in molecular biology for sustainable clean energy production.

Other Renewable Energy Sources:

• Solar Energy: Reviewing advancements in solar energy technologies and their impact on energy sustainability.
• Wind Energy: Discussing wind energy technologies and how to improve their efficiency and sustainability.
• Hydropower: Reviewing developments in hydropower technologies and their impact on clean energy production.

Integration of Biotechnology with Renewable Energy Sources:

• Introduction: Discuss how biotechnology can support and complement traditional renewable energy sources.
• Challenges and Opportunities: Reviewing the challenges and opportunities in integrating biotechnology with other renewable energy sources.
• Future Solutions: Proposing future solutions for effective integration of biotechnology with renewable energy sources to ensure energy sustainability.

3. Part Three: Environment and Climate Change:

Impacts of Environmental Climate Change on Natural and Human Environments:

• Examining how environmental climate change affects ecosystems and natural resources.
• Analyzing changes in environmental patterns and species distribution due to climate change.

Environmental Toxins and Pollution in the Context of Environmental Climate Change:

• Investigating sources of environmental toxins and pollution in the context of environmental climate change.
• Understanding their effects on human, animal, and plant health.
• Developing strategies to mitigate environmental pollution.

Toxicology in the Context of Environmental Climate Change:

• Exploring the effects of environmental climate change on toxicology.
• Studying how changes in climate may alter the distribution, behavior, and impact of toxic substances in the environment.
• Examining the increased risk of exposure to toxins and their potential health effects in the changing climate.

Public and Community Health in the Context of Environmental Climate Change:

• Analyzing the relationship between environmental climate change and community health.
• Addressing diseases related to environmental factors and necessary preventive measures.

Future Trends in Pharmaceuticals and Treatments and the Effects of Environmental Climate Change:

• Exploring how environmental climate change may impact the development of pharmaceuticals and treatments.
• Innovating sustainable health solutions to address these challenges.

4. Part four: Artificial Intelligence, Bioinformatics, and Computational Biotechnology in Climate Change and Renewable Energy​

 Artificial Intelligence in Climate Change and Renewable Energy

• AI applications in modeling climate change impacts, optimizing renewable energy systems, and enhancing energy efficiency.
• Development and application of machine learning models for climate data analysis and environmental impact assessments.
• Exploration of AI-driven smart technologies for renewable energy integration and climate adaptation.

Bioinformatics in Climate Change Research

• Utilization of bioinformatics tools for analyzing genomic data related to climate adaptation and microbial responses.
• Integration of multi-omics data to understand climate change effects on biological systems and ecosystems.
• Predictive modeling of climate change impacts on biodiversity and food security

Computational Biotechnology for Sustainable Solutions

• Use of computational approaches in synthetic biology for climate change mitigation, such as bioengineered microorganisms.
• Development of new biotechnological solutions for renewable energy production, including biofuels and biogas.
• Application of systems biology to model interactions between biological systems and environmental factors under climate change.

Integration and Future Directions

• Promotion of interdisciplinary research combining AI, bioinformatics, and computational biotechnology.
• Encouragement of collaborations between computational scientists, biotechnologists, and climate researchers.
• Identification of emerging trends in these fields to drive advancements in climate change research and renewable energy technologies.

5. Part five: Climate Change, Advanced Materials, Industry-Driven Research, 3D Bioprinting, Sustainable Polymers, Wind Turbines, Customoized Energy solutions.

• Climate Change and Renewable Energy: Examining how climate change affects material performance in renewable energy technologies and developing innovative solutions to address these impacts.
• Advanced Materials: Focusing on the creation and enhancement of materials, including polymers, nanomaterials, composites, and electronic materials, to improve the efficiency and durability of energy technologies.
• Industry-Driven Research: Partnering with industry to translate research into practical applications, improve sustainability, and conduct lifecycle analyses for better manufacturing processes.
• 3D Bioprinting: Utilizing 3D bioprinting technology to design and produce customized components and advanced materials specifically for energy applications.
• Sustainable Polymers for Energy Applications: Developing durable and biodegradable polymers tailored for renewable energy technologies, ensuring both high performance and environmental responsibility.
• Nanomaterial-Enhanced Solar Cells: Enhancing the efficiency and stability of solar cells through advanced nanomaterial integration.
• High-Performance Composites for Wind Turbines: Creating lightweight, high-strength composites to improve the performance and longevity of wind turbine blades.
• Customized Energy Storage Solutions via Bioprinting: Applying 3D bioprinting to develop high-performance, tailored energy storage solutions.

Editorial Excellence:

Our journal is supported by a distinguished editorial board comprising leading experts and researchers in climate science, renewable energy, and related disciplines. Our editorial team is committed to upholding the highest standards of scientific integrity and rigor throughout the peer review process. We strive to ensure that all published articles meet the highest quality standards and provide valuable contributions to the field.

Open Access Policy:

The Journal of Climate Change and Renewable Energy (JCCRE) is committed to promoting open access to scientific knowledge. All articles published in our journal are freely accessible to researchers, policymakers, educators, and the public worldwide, facilitating knowledge dissemination and fostering collaboration in addressing climate change challenges.

Join Our Community:

Whether you are a climate scientist, renewable energy researcher, policymaker, educator, or concerned citizen, we invite you to join our community and contribute to the advancement of knowledge and solutions for climate change and renewable energy. Explore our latest research articles, engage in discussions, and collaborate with us in our mission to create a sustainable and resilient future.

Contact Us:

For inquiries, submissions, or collaboration opportunities, please feel free to contact us. We welcome feedback, suggestions, and contributions from our readers and collaborators as we work together towards a sustainable and low-carbon future.

Thank you for choosing the Journal of Climate Change and Renewable Energy (JCCRE) as your platform for scholarly exploration and action in the face of climate change challenges.