Ecological applications based on bacterial community abundance in reservoirs using an artificial neural network approach

2nd International Conference on Chemo and Bioinformatics ICCBIKG 2023 (317-320)

АУТОР(И) / AUTHOR(S): Ivana Radojević, Aleksandar Ostojić, Vesna Ranković

Е-АДРЕСА / E-MAIL: ivana.radojevic@pmg.kg.ac.rs

Download Full Pdf   

DOI: 10.46793/ICCBI23.317R

САЖЕТАК / ABSTRACT:

The objective of this study is to analyze the influence and predict abundance the heterotrophic bacteria (psychrophile; mesophile) and facultative oligotrophic bacteria as a reflection of ecological relationships in reservoirs and water quality. We used artificial neural networks (ANNs) to develop models based on input variables derived from two different reservoirs. The neural network models were developed using experimental data which is collected for ten years. Although reservoirs have a different position, different morphometric qualities, trophic state and dominant bacterial community there is a possibility of predicting these bacterial communities with the same input parameters. Comparing the modeled values by ANN with the experimental data indicates that neural network models provide accurate results. The important conclusion of this work is that ANNs can provide a flexible and applicable tool in monitoring water quality across bacterial communities in reservoirs.

КЉУЧНЕ РЕЧИ / KEYWORDS:

ecological application, feedforward neural network, reservoir, water quality

ЛИТЕРАТУРА / REFERENCES:

  • K. CHAU, A review on integration of artificial intelligence into water quality modeling, Marine Pollution Bulletin, 52 (2006): 726-733.
  • T.I. Lobova, Yu.P. Lankin, L.Yu. Popova, Assessing the anthropogenic impact on Lake Shira from antibiotic resistance of heterotrophic bacteria by neural networks methods, Mikrobiologiya, 76 (2007) 263-270.
  • Radojevic I., Lj. Comic, V. Rankovic, A. Ostojic, M. Topuzovic, Applying Neural Networks for Predicting the Facultative Oligotrophic Bacteria in Two Reservoirs with Different Trophic State, Journal of Ecological Protection and Ecology, 14 (2013): 55-63.
  • Maier, H.R., Dandy, G.C. (1996): The use of artificial neural networks for the prediction of water quality parameters. Water Resources Research. 32 (4): 1013-1022.
  • V. Ranković, J. Radulović, I. Radojević, A. Ostojić, Lj. Čomić, Neural network modeling of dissolved oxygen in the Gruža reservoir, Srbija, Ecological modeling, 221 (2010) 1239-1244.