One Health (Dec 2023)

Antibiotic resistance genes prevalence prediction and interpretation in beaches affected by urban wastewater discharge

  • Qandeel Zahra,
  • Jawaria Gul,
  • Ali Raza Shah,
  • Muhammad Yasir,
  • Asad Mustafa Karim

Journal volume & issue
Vol. 17
p. 100642

Abstract

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Background: The annual death toll of over 1.2 million worldwide is attributed to infections caused by resistant bacteria, driven by the significant impact of antibiotic misuse and overuse in spreading these bacteria and their associated antibiotic resistance genes (ARGs). While limited data suggest the presence of ARGs in beach environments, efficient prediction tools are needed for monitoring and detecting ARGs to ensure public health safety. This study aims to develop interpretable machine learning methods for predicting ARGs in beach waters, addressing the challenge of black-box models and enhancing our understanding of their internal mechanisms. Methods: In this study, we systematically collected beach water samples and subsequently isolated bacteria from these samples using various differential and selective media supplemented with different antibiotics. Resistance profiles of bacteria were determined by using Kirby-Bauer disk diffusion method. Further, ARGs were enumerated by using the quantitative polymerase chain reaction (qPCR) to detect and quantify ARGs. The obtained qPCR data and hydro-meteorological were used to create an ML model with high prediction performance and we further used two explainable artificial intelligence (xAI) model-agnostic interpretation methods to describe the internal behavior of ML model. Results: Using qPCR, we detected blaCTX−M, blaNDM, blaCMY, blaOXA, blatetX, blasul1, and blaaac(6′-Ib-cr) in the beach waters. Further, we developed ML prediction models for blaaac(6′-Ib-cr), blasul1, and blatetX using the hydro-metrological and qPCR-derived data and the models demonstrated strong performance, with R2 values of 0.957, 0.997, and 0.976, respectively. Conclusions: Our findings show that environmental factors, such as water temperature, precipitation, and tide, are among the important predictors of the abundance of resistance genes at beaches.

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