World Green Energy

  Western honeybees (Apis mellifera) have been linked to the spread of Myrtle Rust (Austropuccinia psidii) in Australia. Myrtle rust is a fungal plant pathogen first detected in Australia in 2010, and it affects many native species in the Myrtaceae family. Western Honeybee Western honeybee is the common name of Apis mellifera, a managed pollinator species used widely in commercial agriculture. Commercial colonies are transported across Australia for crop pollination, which creates movement pathways for pollen, spores, and other biological material. Myrtle Rust Myrtle rust is caused by the fungus Austropuccinia psidii and infects plants in the Myrtaceae family, including eucalypts, paperbarks, and bottlebrushes. Nearly 17% of Australia’s endemic vegetation is considered at risk from this fungus, and the pathogen has been recorded in Australia since 2010. Spore Transmission and Biosecurity Scientists have observed Western honeybees collecting myrtle rust spores as a food source and c...

  1. Introduction The rising levels of carbon dioxide emissions from electricity generation have become a major global concern, particularly in countries transitioning their energy systems like Greece. This research introduces a decomposition analysis framework to examine the underlying drivers of CO₂ emissions, including economic activity, energy intensity, and fuel composition. By integrating Carbon Capture and Storage (CCS) technologies into the analysis, the study provides a forward-looking approach to reducing emissions while ensuring energy stability. This introduction sets the foundation for understanding how innovative technologies and policy interventions can support a low-carbon transition in the power sector. 2. Decomposition Analysis of Emission Drivers This topic explores the methodological framework used to break down CO₂ emissions into contributing factors such as population growth, economic expansion, energy intensity, and fuel mix. By applying decomposition techniq...

  1. Introduction The integration of renewable energy into the tourism sector has become a critical strategy for achieving sustainability and reducing environmental degradation. Tourism-dependent economies are increasingly adopting green energy solutions to minimize carbon emissions while maintaining economic growth. This research introduces the application of non-parametric methods and core density analysis to evaluate the relationship between renewable energy transition and sustainable tourism development. By focusing on data-driven insights, the study aims to provide a comprehensive understanding of how energy transformation can support environmentally responsible tourism practices. 2. Non-Parametric Approaches in Energy-Tourism Analysis This topic explores the application of non-parametric statistical techniques to analyze the relationship between renewable energy adoption and tourism sustainability. Unlike traditional parametric models, these approaches allow flexibility in...

  1. Introduction Energy production remains one of the primary drivers of carbon emissions globally, particularly in fossil fuel-dependent economies like Iran . This research introduces a comparative framework to evaluate how renewable and non-renewable electricity generation influence environmental sustainability. By integrating technological innovation into the analysis, the study highlights the evolving dynamics between energy consumption patterns and emission reduction strategies. It emphasizes the urgent need for transitioning toward cleaner energy systems supported by innovation-driven policies. 2. Renewable Energy and Emission Reduction Dynamics This topic explores how renewable energy sources such as solar, wind, and hydropower contribute to reducing carbon emissions. The study analyzes their long-term environmental benefits and their growing role in reshaping electricity generation systems, highlighting their effectiveness as sustainable alternatives to fossil fuels. 3...

  1. Introduction The increasing demand for sustainable energy solutions has driven the need to analyze national electrical systems through innovative frameworks such as energy metabolism. In Mexico , the interaction between electricity generation, distribution, and industrial consumption plays a critical role in shaping the country’s energy transition. This research introduces an integrated perspective that evaluates how energy flows across sectors, emphasizing efficiency, sustainability, and resilience. By understanding the metabolic structure of the electrical system, policymakers and researchers can identify inefficiencies and develop strategies to reduce carbon emissions while ensuring energy security. 2. Energy Metabolism Framework in Electrical Systems This topic explores the concept of energy metabolism as a tool to analyze how energy is produced, transformed, and consumed within an electrical system. By applying this framework, researchers can quantify energy flows and ...

  1. Introduction Consumption-based climate targets extend beyond national borders by accounting for emissions embedded in imported goods and services. This research introduces Sweden’s approach to addressing global carbon footprints through sustainable consumption and production frameworks. By integrating environmental accounting with policy strategies, the study highlights the importance of shifting from production-based metrics to consumption-based emission assessments in achieving long-term climate neutrality goals. 2. Consumption-Based Emission Accounting Methods This topic explores methodologies used to calculate emissions associated with consumption patterns, including multi-regional input-output models and lifecycle assessment techniques. It emphasizes how these methods capture hidden emissions in global supply chains, offering a more comprehensive understanding of environmental impact compared to traditional production-based accounting. 3. Emission Pathway Modeling and...