Unveiling dynamic changes in the diurnal microclimate of a Buxus sempervirens with non-intrusive imaging of flow field, leaf temperature, and plant microstructure
Lento Manickathan, Thijs Defraeye, Stephan Carl, Henning Richter,, Jonas Allegrini, Dominique Derome, Jan Carmeliet

TL;DR
This study uses advanced non-intrusive imaging techniques to analyze the diurnal microclimate dynamics of Buxus sempervirens, revealing how plant structure and environmental interactions influence flow, temperature, and transpiration patterns.
Contribution
It introduces a comprehensive multi-modal imaging approach to study plant microclimate dynamics, linking plant structure with flow, temperature, and radiation absorption behaviors.
Findings
Wake flow depends on foliage geometry, not porosity.
50% of radiation absorbed in top 20% of foliage.
Identified four diurnal climatic stages of the plant.
Abstract
Plant response is not only dependent on the atmospheric evaporative demand due to the combined effects of wind speed, air temperature, humidity, and solar radiation, but is also dependent on the water transport within the leaf-xylem-root system. Therefore, a detailed understanding of such dynamics is key to the development of appropriate mitigation strategies and numerical models. In this study, we unveil the diurnal dynamics of the microclimate of a Buxus sempervirens plant using multiple high-resolution non-intrusive imaging techniques. The wake flow field is measured using stereoscopic particle image velocimetry, the spatiotemporal leaf temperature history is obtained using infrared thermography, and additionally, the plant porosity is obtained using X-ray tomography. We find that the wake velocity statistics is not directly linked with the distribution of the porosity but depends…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Plant and animal studies · Ecology and Vegetation Dynamics Studies
