التفاصيل البيبلوغرافية
| العنوان: |
Idealized branch sections and hydrodynamic analysis characterize rainfall partitioning. |
| المؤلفون: |
Puri, Aryan, Kunadi, Ashvath, Pfefferle, David, Ghisalberti, Marco, Thompson, Sally |
| المصدر: |
Hydrological Processes; Jun2024, Vol. 38 Issue 6, p1-15, 15p |
| مصطلحات موضوعية: |
RAINFALL, PLANT canopies, FLOW instability, TREE trunks, AQUATIC plants, THROUGHFALL, FUSION reactor divertors |
| مستخلص: |
Water flow on plant canopies determines the partitioning of intercepted rainfall between stemflow and throughflow, yet understanding of these flow processes remains minimally developed. Plant canopies may concentrate intercepted water into rivulets that flow beneath branches. If the rivulets remain attached to branches until they encounter the main tree trunk, they form stemflow. If the rivulets detach from branches, however, they form 'pour points', regions of concentrated throughfall. Here, rivulet flow below uniform cylinders was studied experimentally. Experimental observations were interpreted using hydrodynamic theory to predict the likelihood of a rivulet detaching based on a critical rivulet height (λc$$ {\lambda}_c $$). Predictions of rivulet detachment were explored for a simplified case where water is introduced at known flow rates at a discrete point above a uniform, cylindrical 'branch'. Where the branch was straight, the percentage of trials forming a rivulet, or the rivulet formation rate, increased with increasing branch inclination angle to the horizontal axis. Rivulet formation rates did not vary with flow rate. However, the volume of water collected at the end of the branch, analogous to stemflow, decreased with a higher flow rates due to the formation of flow instabilities. Rivulets forming on straight branches did not detach. Instead, the rivulet stream accelerated and reduced in height as it flowed along the cylinder. Rivulets formed on curved branches detached only when the branch axis after the curve approached the horizontal. Future theoretical and experimental studies can extend this work to improve understanding of more complex surfaces and branch architectures to mechanistically understand canopy interception. [ABSTRACT FROM AUTHOR] |
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