The effect of strip thinning on forest floor evaporation in a Japanese cypress plantation

Thinning results in more open-stand canopies and then immediately modifies the environmental factors that influence forest floor evaporation (E_f). Thus, the changes in E_f induced by thinning would play an important role in the forest water cycle, whereas few studies have reported this topic. This study analyzes the effect of strip thinning on E_f, its spatial variation and identifies the factors influencing it in a Japanese cypress (Chamaecyparis obtusa Endl.) plantation in Tochigi Prefecture, Japan. Strip thinning, which removed 50% of the stems, was conducted in a headwater basin during the period of October 11-November 5, 2011. The E_f was monitored by weighing lysimeters before and after thinning. The daily E_f was strongly correlated with the daily solar radiation (R²=0.62) followed by vapor pressure deficit (R²=0.41) below the canopy, whereas the soil water content had a poor effect on it in post-thinning. After thinning, the daily E_f among the measuring points had no significant difference, indicating that the daily E_f had a small spatial variation. This responded to the small spatial variability in the daily solar radiation under the canopy. Additionally, on an annual scale, thinning resulted in the daily mean E_f increasing from 0.34±0.23 to 0.68±0.47mmd^-1. The total E_f increased by 97.6% from 124.0 to 245.0mm. These findings indicate that E_f composes a significant part of the forest water budget after thinning and emphasize the importance of E_f measurements for management practices. This study also provides useful information for modeling the changes in hydrological processes at the forest floor and for evaluating the E_f response to different management practices.