Nature‐based solutions for water‐resource challenges require advances in the science of
ecohydrology. Current understanding is limited by a shortage of observations and theories …

Variation in canopy water content (CWC) that can be detected from microwave remote
sensing of vegetation optical depth (VOD) has been proposed as an important measure of …

Understanding the interaction between the hydrological cycle and vegetation management
strategies, such as thinning, is essential to improve watershed management and support …

Understanding the spatiotemporal behaviour of soil moisture in tropical forests is
fundamental because it mediates processes such as infiltration, groundwater recharge …

Modeling rainfall interception (I) is fundamental for understanding the forests' role in
ecohydrological processes in local and regional scales. This research examines the …

Interception loss (IL) is an important process in the hydrological cycle within semi-arid forest
ecosystems, directly affecting the amount of effective rainfall. However, the factors …

Rainfall interception is a critical source of water in arid and semiarid mountain forests.
Interception loss (I) in mountain forests determines the ecohydrological function of a …

There is a significant gap in the literature concerning the potential of tropical soils to stock
carbon in the Brazilian Atlantic Forest biome. Furthermore, the key drivers responsible for …

Canopy interception loss is a key component of forest hydrological cycle that determine the
amount of net rainfall reaching forest floor together with drought/climate stressors affecting …

Throughfall (TF) is one of the most important factors affecting forest surface soil moisture.
However, TF heterogeneity and its contributions to the variability in near-surface soil water …