Soil respiration and soil Physicochemical properties
Description
Changes in the natural elevation gradient of forests lead to significant differences in environmental factors such as temperature and humidity, creating a robust framework for modeling and predicting the effects of future environmental shifts on soil respiration dynamics and the associated feedback mechanisms within forest ecosystems. As a critical component of the carbon (C) cycle, soil respiration is highly sensitive to variations in environmental factors and plays a key role in the feedback mechanisms that respond to these changes. Despite the importance of soil respiration in subtropical montane systems, the variation patterns and driving factors of its components across different elevations remain unclear. Specifically, our analysis of the significance of environmental factors affecting soil respiration components will enhance the design and interpretation of studies related to forest C dynamics in the context of global change, both in applied research and foundational studies. Our study investigated the impact of elevation gradients on soil respiration in Pinus taiwanensis forests, a species restored in subtropical montane forests in China, and examined how each respiratory component responds to elevation-induced changes in soil environmental factors, including soil physicochemical properties and enzyme activities. Our findings revealed that the soil respiration components in Pinus taiwanensis forests displayed substantial temporal and spatial variability, primarily influenced by moisture and temperature. Moreover, moisture and temperature, along with other environmental factors, played a significant role in driving the spatial variability of soil respiration.