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Integrating machine learning and data analysis for predictive microbial community profiling | ||
Caspian Journal of Environmental Sciences | ||
دوره 21، شماره 5، اسفند 2023، صفحه 1209-1227 اصل مقاله (992.01 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22124/cjes.2023.7413 | ||
نویسندگان | ||
Sagyndykova Sofiya Zulcharnaevna* 1؛ Kuspangaliyeva Khansulu2؛ Sekerova Tolganai3؛ Saimova Rita4؛ Bekenova Nazym5؛ Kamiyeva Gulzhanat5؛ Yessimov Bolat6؛ Zhanna Adamzhanova7 | ||
1Atyrau University named after Kh. Dosmukhamedov Atyrau, Kazakhstan & Atyrau, Studenchesky Ave., 1 0 Atyrau, Studenchesky Ave, 060000 Atyrau, the Republic of Kazakhstan | ||
2Khalel Dosmukhamedov Atyrau University, 060011 Atyrau, student Ave., 212, Atyrau city, Kazakhstan | ||
3Institute of Natural Sciences and Geography of the Kazakh National Pedagogical University named after Abai, Dostyk Ave., 13, Almaty, Kazakhstan | ||
4Institute of Natural Sciences and Geography, Abai Kazakh National Pedagogical University, Dostyk Av., Almaty, Kazakhstan | ||
5Department of Biology, Institute of Natural Sciences and Geography, Abai Kazakh National Pedagogical University, 13, Dostyk Av., 050010, Almaty, Kazakhstan | ||
6Institute of Natural Sciences and Geography, Abai Kazakh National pedagogical university, 13, Dostyk Av., 050010, Almaty, Kazakhstan, | ||
7High School of Natural Sciences of Astana International University, 8 Kabanbay Batyra Av., 000010, Astana, Kazakhstan | ||
چکیده | ||
Microbiome research has gained prominence for its crucial role in various domains, from human health to environmental ecosystems. Understanding and predicting microbial community composition is essential for unlocking the potential of microbiomes. In this paper, we present a novel approach that leverages the synergy between machine learning and data analysis techniques to comprehensively profile and predict microbial communities. Our study addresses the current challenges in microbiome analysis by proposing a unified framework that integrates multiple data types, including 16S rRNA gene sequencing, metagenomic, and environmental data. We employ advanced machine learning algorithms, such as deep learning models and ensemble techniques, to extract meaningful patterns and relationships from these complex datasets. This integrated approach not only captures the taxonomic composition of microbial communities but also reveals functional potentials and ecological interactions among microbial taxa. One of the key novelties of our work lies in the development of a predictive model for microbial community assembly. By incorporating ecological principles and community dynamics, our model can forecast how microbial communities respond to environmental changes or perturbations, providing valuable insights for ecosystem management and restoration efforts. Furthermore, we demonstrate the practical applicability of our approach in diverse scenarios, including clinical microbiology, environmental monitoring, and biotechnological processes. We showcase its accuracy in predicting shifts in microbial community structure under varying conditions, offering a powerful tool for preemptive interventions in disease prevention and bioprocess optimization. We introduce an innovative methodology that bridges the gap between microbiology and machine learning, facilitating a deeper understanding of microbial ecosystems and their functional roles. By unifying data analysis and predictive modeling, our approach has the potential to revolutionize the way we study and harness the power of microbiomes, with far-reaching implications in healthcare, agriculture, and environmental conservation. | ||
کلیدواژهها | ||
Data Analysis؛ Machine Learning؛ Microbial Community Ecology؛ Microbiome Profiling؛ Predictive Modeling | ||
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