Modeling the effect of varying seawater temperature and carbon concentration on coral life expectancy

  • Ivan Jerome Crisostomo Panis Institute of Mathematical Sciences and Physics, University of the Philippines Los Baños
  • Edlie Joshua Cruz Vargas Institute of Mathematical Sciences and Physics, University of the Philippines Los Baños

Abstract

A NetLogo-based model has been used to simulate the life expectancy of corals under different parameters. The model focuses on exogenous variables initial temperature of the system and carbon concentration. The simulation has been divided into three parts–varying initial temperature, varying carbon concentration, and extreme temperatures.  Results have shown that as the initial temperature increases, the time it took to wipeout the population of corals decreases. Additionally, simulating 29°C initial temperature has shown that corals stopped reproducing. As for carbon concentration, carbon molecules act as catalysts in seawater temperature increase resulting in faster coral-population wipeout for high number of carbon molecules and contribute to ocean acidification. Lastly, coral health rapidly depletes for extreme temperatures. The number of carbon molecules in the system and the initial temperature of the system have been shown to be high-leverage variables.

Published
2018-05-30
How to Cite
[1]
I. J. Panis and E. J. Vargas. Modeling the effect of varying seawater temperature and carbon concentration on coral life expectancy, Proceedings of the Samahang Pisika ng Pilipinas 36, SPP-2018-PC-44 (2018). URL: https://paperview.spp-online.org/proceedings/article/view/SPP-2018-PC-44.
Section
Poster Session C (Mathematical Physics, Optics, and Interdisciplinary Topics)