Predictive Model for Gross Community Production Rate of Coral Reefs using Ensemble Learning Methodologies

Coral reefs play a vital role in maintaining the ecological balance of the marine ecosystem. Various marine organisms depend on coral reefs for their existence and their natural processes. Coral reefs provide the necessary habitat for reproduction and growth for various exotic species of the marine...

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Bibliographic Details
Main Authors: S, Umanandini, Y, Aouthithiye Barathwaj SR, J, Jasline Augusta, Sapate, Shrirang, S, Reenasree, M, Vigneash
Format: Article in Journal/Newspaper
Language:unknown
Published: arXiv 2021
Subjects:
Machine Learning cs.LG
FOS Computer and information sciences
I.2.8
68T20
Ocean acidification
Online Access:https://dx.doi.org/10.48550/arxiv.2111.04003
https://arxiv.org/abs/2111.04003
Description
Summary:Coral reefs play a vital role in maintaining the ecological balance of the marine ecosystem. Various marine organisms depend on coral reefs for their existence and their natural processes. Coral reefs provide the necessary habitat for reproduction and growth for various exotic species of the marine ecosystem. In this article, we discuss the most important parameters which influence the lifecycle of coral and coral reefs such as ocean acidification, deoxygenation and other physical parameters such as flow rate and surface area. Ocean acidification depends on the amount of dissolved Carbon dioxide (CO2). This is due to the release of H+ ions upon the reaction of the dissolved CO2 gases with the calcium carbonate compounds in the ocean. Deoxygenation is another problem that leads to hypoxia which is characterized by a lesser amount of dissolved oxygen in water than the required amount for the existence of marine organisms. In this article, we highlight the importance of physical parameters such as flow rate which influence gas exchange, heat dissipation, bleaching sensitivity, nutrient supply, feeding, waste and sediment removal, growth and reproduction. In this paper, we also bring out these important parameters and propose an ensemble machine learning-based model for analyzing these parameters and provide better rates that can help us to understand and suitably improve the ocean composition which in turn can eminently improve the sustainability of the marine ecosystem, mainly the coral reefs : 8 pages, 18 figures

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