Dynamics Of Land Use And Carbon Emissions In The Context Of Carbon Neutrality And Carbon Peaking
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Dynamics of Land Use and Carbon Emissions in the Context of Carbon Neutrality and Carbon Peaking
The objective of achieving carbon neutrality serves as a crucial guiding principle in addressing the global issue of climate change and fostering sustainable economic growth and ecological harmony. Carbon emissions from land use account for 10% of the total global carbon emissions. It is an important carbon source and sink of the earth system. Therefore, optimizing the land spatial pattern is one of the important means to promote carbon neutralization. In 1997, Kyoto Protocol emphasized that countries could improve carbon sink capacity, reduce carbon emissions, and practice climate governance through afforestation, forest management and farmland management. In this context, countries worldwide should actively optimize the land spatial pattern, enhance the carbon sink capacity of terrestrial ecosystems, and build a low-carbon land use structure and land spatial pattern system. There are mainly four types of territorial space conflicts. The first is the conflict of development space, which is a vicious expansion of urban space caused by excessive dependence on GDP. The second is the conflict of land use space, which is mainly reflected in the overlapping contradiction between cultivated land space and ecologically fragile space. The third is the conflict caused by the disharmony of element space. The fourth is the conflict of planning space, characterized by the contradiction between ecological and construction spaces. According to the IPCC report on the relationship between climate change and land, the management mode of natural resources, the transformation of space use, and the improper allocation of factors will cause carbon sink profits and losses. On the one hand, land-use carbon emissions may be the effect of land use control, on the other hand, it may also be caused by man-made carbon emissions.
Low Carbon Economy and Health in the Context of Carbon Neutrality
Global warming has led to increasing climate risks, and climate change is a global issue facing mankind. Therefore, most developed countries have set a clear goal of achieving carbon neutrality after reaching peak carbon emissions. In the context of global warming, "low-carbon economy" based on low energy consumption and low pollution has become a global popular research topic. At present, the international community has formed a consensus on green transformation and taken practical actions. At the same time, the achievement of the carbon neutrality goal has highlighted the importance of public health, and therefore, a series of new research directions are emerging, and how to develop a low-carbon economy and protect public health while achieving the carbon neutrality goal has become an important issue. In the post-epidemic era, economic recovery and public health issues need to be addressed, and a low-carbon economy and public health will face even greater challenges, with carbon neutrality goals placing this issue at the forefront. For this Research Topic, we would like submissions that provide research results on topics such as green development, green low carbon, resource conservation, low carbon economy, low carbon development, low carbon living, low carbon living, low carbon society, population health, health distribution, health awareness, health behavior, and public health. Quantitative, qualitative, and mixed methods approaches are welcome to explore the low carbon economy and public health from multiple perspectives. - The developmental history of the low-carbon economy, the level of development, and the evaluation of the level of development. - The many challenges faced by the low-carbon economy in the development process and how to deal with the challenges in the development process. - The development of a low carbon economy is influenced by a variety of factors, such as low carbon investment, policy norms, technology development, energy development, and digitalization levels, etc. We would like research works which study the factors that influence the development of a low carbon economy. - Analyze which industries will have an impact on the development of a low carbon economy, including but not limited to the energy industry, transportation industry, and construction industry. - To study the factors that affect the development of public health and how to improve public health. - To study the impact of residential environment, sports environment, community environment, etc. on public health. - To study the methods used in studies related to the development of a low-carbon economy and public health development. - To analyze the impact of the development of a low-carbon economy on other industries, such as international trade, the real estate industry, and tourism.
Carbon Neutrality, Social Media, Artificial Intelligence, volume II
Carbon neutrality refers to net-zero carbon emissions. It can be achieved by reducing carbon emissions or increasing carbon adsorption. The popularity of social media including Twitter, YouTube, and LinkedIn provides good channels for sharing relevant information and promoting sustainable carbon-neutral living styles. For example, a motor company has launched social media challenges with Korean pop stars to raise awareness of carbon neutrality. Social media provides real-time information. In Jakarta, flood-related tweet intensity during a flood peaked at about 900 tweets a minute during the floods of 2015. The tweets created real-time maps that people sent a minute before. Regarding government policies, identification of problem areas is needed to help policymakers to resolve problems. Machine learning can monitor these events by studying past records to know how countries and governments performed in a high-risk event or environmental crisis and this data can be used to provide future recommendations to governments for policy making. Additionally, AI can analyze online unstructured data, and predict various scenarios of carbon emissions and adsorptions using structured data. The world of social media is a huge data source still yet to be fully optimized in science.