Investigating the effects of plant diversity on soil thermal diffusivity using Physics- Informed Neural Networks

Gideon Stein; Sai Karthikeya Vemuri; Yuanyuan Huang; Anne Ebeling; Nico Eisenhauer; Maha Shadaydeh; Joachim Denzler

Investigating the effects of plant diversity on soil thermal diffusivity using Physics- Informed Neural Networks

Gideon Stein, Sai Karthikeya Vemuri, Yuanyuan Huang, Anne Ebeling, Nico Eisenhauer, Maha Shadaydeh, Joachim Denzler

Published: 03 Mar 2024, Last Modified: 07 May 2024AI4DiffEqtnsInSci @ ICLR 2024 PosterEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Soil Temperature Diffusity, Plant Diversity, PINNs

TL;DR: We estimate the effects of plant diversity on the soil temperature diffusity of the corresponding soil with the help of physically-informed neural networks.

Abstract: The influence of plant diversity on the stability of ecosystems is well-reported in the literature. However, the exact mechanisms responsible for this effect are still a topic of debate. Recently, soil temperature stability was proposed as one possible candidate for such a mechanism. To further evaluate this hypothesis, we investigate the relationship between plant diversity and the thermal diffusivity of the soil during the very dry and hot summer of 2018 in Central Europe. By leveraging Physics-Informed Neural Networks and a 30-minute resolution soil temperature dataset from the Jena Experiment, we find an inverse relationship between plant diversity and the thermal diffusivity of the associated soil. With this, we provide support for the idea of plant diversity as a natural protection against climate-related ecosystem change.

Submission Number: 64

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