九洲封头

In recent years, people's demands for living quality have gradually increased, with a healthy living environment becoming an even more coveted goal. As a crucial indicator within our living environment, the atmospheric environment has garnered increasing attention from experts across various disciplines. The concentration of negative ions in the air, which refers to the number of negative ions per unit volume, serves as one of the vital metrics for assessing the freshness and quality of air. Through the observation of air negative ion concentration and regression equation analysis, this paper delves into the variations of air negative ion concentration under various meteorological conditions, supported by extensive observational data for verification and experimentation.

The paper first elucidates the generation and functions of air negative ion concentration, introduces the technical methods and main principles of negative ion observation. Subsequently, it utilizes stepwise regression equation analysis software alongside voluminous observational data to analyze the degree of influence exerted by various meteorological factors on negative ion concentration. Additionally, it investigates the horizontal and vertical distribution patterns of negative ion concentration, thereby drawing relevant conclusions. Given the inherent difficulty in altering meteorological conditions and geographical environments in nature, this paper focuses on human interventions, examining how fountains and urban greening can modify the concentration of air negative ions. Ultimately, it highlights that environmental changes can directly affect the concentration of air negative ions, underscoring the research's significance.

Lastly, in response to the impact of environmental changes on air negative ion concentration, the paper proposes suggestions for urban planning and the further exploitation of this interdisciplinary science of air negative ions. These include strategies for mapping out air negative ion breathing zones, constructing ecological health tourism facilities based on rich air negative ion content, increasing urban green cover, and integrating health science education. Further research is warranted in these areas. As technology advances and research deepens, multidisciplinary collaboration becomes an inevitable trend for disciplinary development. The study of negative ions will emerge as a collaborative and mutually enhancing endeavor spanning medicine, physics, biology, healthcare, and other disciplines.