The influence of topography on turbulent runoff between the central Amazon forest and the atmosphere

Authors

DOI:

https://doi.org/10.5902/2179460X76662

Keywords:

Topography, Organization of turbulence, PALM simulation, Amazon forest

Abstract

In this work, an investigation of the influence of topography on the structure of the turbulence of the Amazon rainforest is carried out. To better understand how topography acts in the organization of turbulence, in turbulence fluxes of energy and mass, inside and above the forest canopy, the Parallelized Large-Eddy Simulation Model (PALM) was used. The model's input dataset comes from the ATTO site (Amazon Tall Tower Observatory) between October and November 2015. From these measurements, from different heights, two simulation were performed for the daytime period: with topography and without topografy. In both simulation, the U/Uh profile shows that the wind becomes weaker as it bumps into the forest canopy, leading to an inflection point in the wind profiles. In addition, the simulation with topography induced ascending and descending movements, which affected the concentration of the passive scalar. Finally, the topography impacted the turbulence intensity.

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Author Biographies

Raíssa Soares de Oliveira, National Institute of Amazonian Research

She holds a degree in Mathematics from the State University of Amazonas (2020) and a master's degree in Climate and Environment from the National Institute for Research in the Amazon (2022). She is currently a PhD student at the Graduate Program in Climate and Environment, INPA/UEA.

Cléo Quaresma Dias Júnior, Federal Institute of Pará

Graduated in PHYSICS from the Federal University of Pará (2005), MSc in Environmental Sciences from the Federal University of Pará (2008) and PhD in Climate and Environment from the National Institute for Research in the Amazon (2015). During his doctorate he did an internship at the Karlsruhe Institute of Technology (KIT - Germany). He is currently a professor at the Federal Institute of Education, Science and Technology of Pará. He has experience in Geosciences, with emphasis on Micrometeorology, working mainly on the following topics: Turbulent exchange processes at the forest-atmosphere interface; Large Eddy Simulation - LES; Transport of Energy and Matter during episodes of downdrafts, Estimates of the height of the Amazonian atmospheric boundary layer, mass and energy fluxes at the forest-atmosphere interface via turbulent eddies covariance. Since 2021 He is coordinator of the micrometeorology of the Observatório da Torre Alta da Amazônia (ATTO) project. He is a professor of the graduate programs in Climate and Environment (INPA) and Environmental Sciences (UFPA).

Daiane de Vargas Brondani, University of Urbino

She holds a degree in Meteorology from the Federal University of Santa Maria (2012), a master's degree from the Graduate Program in Meteorology at the Federal University of Santa Maria (2015). He is currently a postdoctoral fellow at the National Institute for Research in the Amazon (INPA). He works mainly on the following topics: convective boundary layer, turbulent flows of sensible and latent heat.

References

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Published

2023-11-22

How to Cite

Oliveira, R. S. de, Dias Júnior, C. Q., & Brondani, D. de V. (2023). The influence of topography on turbulent runoff between the central Amazon forest and the atmosphere. Ciência E Natura, 45(esp. 2), e76662. https://doi.org/10.5902/2179460X76662

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