Fundamental concepts from ecosystem dynamics and community ecology serve as the foundation for my study effort. Fundamentally, the theory aims to clarify the complex link that exists between temperature and fungus abundance in terrestrial environments. This investigation explores important ecological mechanisms, such as species interactions, nutrient cycling, and ecosystem resilience, that support ecosystem function. Fungal Abundance: In order to provide insight into the complex web of species interactions that exist within field ecosystems, the hypothesis investigates how temperature affects the quantity and distribution of fungal communities. This covers possible interactions with various living things, including, microbes, plants, and insects. The cycling of nutrients is greatly aided by fungi, especially when it comes to the breakdown of organic materials and the recycling of vital nutrients. By investigating the relationship between temperature and fungal abundance, the research contributes to our understanding of nutrient dynamics within ecosystems. Ecosystem Resilience: Temperature is a critical environmental factor that can influence the resilience of ecosystems to environmental change. By examining how fungal communities respond to temperature variations, my research provides insights into the adaptive capacity of ecosystems and their ability to withstand disturbances. Keywords for Research: Fungal Abundance Temperature Gradient Ecosystem Dynamics
I’m not clear how you are studying species interactions or nutrient cycling. Or how your study relates to interactions with other microbes, plants, or insects. I think you need to dig into the growth of the species your are studying and what factors influence fungal growth and over what time periods these changes occur and then the interactions with temperature.