Abstract:
Forest plays a major role in hydrological cycle in terrestrial ecosystem. Though the hydrological
balance of forest ecosystems has often been studied rainfall partitioning of individual rain events
are less frequently reported. Therefore, rainfall partitioning was studied in a secondary lowland
rainforest in Sri Lanka. The objectives were to estimate the stemflow (SF), throughfall (TF),
canopy interception (CI), and net precipitation reaching to the forest floor. A plot having area
with 400 m2 (20×20 m) was selected for the study in Yagirala Forest Reserve (6 21 to 6 26 N and
80 06 to 80 11 E).Gross precipitation (GP) was recorded using anautomated weather station
located in an open space approximately 100 m away from the study site. In the study plot five
manual rain gauges were randomly placed beneath the forest canopy for throughfall
measurement .Stem collars were introduced to all canopy and subcanopy trees and connected to
storage tanks for SF measurement. Measurements were made on a rainfall basis from July to
September 2018. Data from the storm events started with dry canopy condition was considered
for the data analysis. The results show that CI varies between 8.4%-49.5% and NP (TF+SF)
reach the forest floor varies between 50.5%-91.6%. As the size of rainfall events increased, CI
by the forest canopies, and loss through evaporation increased. Interception loss contributes a
notable amount of rainfall and its measurement is an essential element in assessing water balance
on the catchment scale.
