Browsing by Author "Ramzan, Muhammad Naeem"

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    Nitrogen and Phosphorus Related Functional Genes Enhance Nutrient Removal in The Integrated Aquaculture Wastewater Bioremediation System in The Presence of Photosynthetic Bacteria.
    (Springer, 2024-12-20) Ramzan, Muhammad Naeem; Shen, Ding; Wei, Yingzhen; Emmanuel, Arslan; Nicholaus, Regan; Yang, Wen; Zheng, Zhongming
    Integrated Aquaculture Wastewater Bioremediation Systems (IAWBSs) are crucial for treating nutrient-rich mariculture water. However, there is a lack of detailed information about the functional mechanisms between nitrogen (N) and phosphorus (P) functional genes and the bacterioplankton community in the presence of photosynthetic bacteria (PSB). This study evaluated the connections between N and P functional genes in IAWBSs under the influence of PSB. The results showed significant improvements in effluent quality, with removal efficiencies of 79, 74, 83, 90, and 71% for NO2 −−N,NO3 −−N, PO4 3−-P, NH4 +−N, and CODmn, respectively. Adding PSB enhanced and altered microbial diversity within the system, promoting the abundance of functional genes related to N and P cycling. Notably, genes associated in denitrification (nirK and nirS), ammonification (ureC) and amoB, involved in nitrification, were significantly increased after PSB was added. Furthermore, genes such as phnK, phoD, and phoX, which are involved in P transformation, also showed increased abundance levels. These genes were closely linked to the microbial community distribution, species diversity, and nutrient cycling. Microbial community changes can result in changes in functional gene abundance. This study provides important and novel insights for developing bioremediation strategies for polluted sites. This demonstrates the fundamental relationships between the IAWBSs’ functional units and the distribution of microbial communities under the influence of PSB.
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    The Compound Bacillus and Sea Purslane (Sesuvium Portulacastrum) Enhanced Aquaculture Wastewater Treatment Efficiency: Insights from a Study on Microbial Community Distributions.
    (ELSEVIER, 2025-03-31) Hongmei Yuan; Li, Junxian; Wang, Haihang; Nicholaus, Regan; Ramzan, Muhammad Naeem; Yang, Wen; Zheng, Zhongming; Wang, Yangcai
    As the aquaculture industry continues to grow rapidly, the environmental consequences of wastewater discharge from aquaculture have become a major concern. The biological treatment method has proven to be an effective and beneficial approach for wastewater treatment. In this experiment, aquaculture wastewater was treated using two different ratios of Bacillus subtilis and Bacillus licheniformis composites in combination with sea purslane (Sesuvium portulacastrum) to investigate the wastewater treatment efficiency and microbial community. Sea purslane effectively removed nutrients from aquaculture wastewater. The addition of compound Bacillus significantly increased the removal rates of CODMn, TP, and PO4 3− -P, which were 54.9–56.4 %, 78.2–79.9 %, and 85.0–89.6 %, respectively. Moreover, the compound Bacillus notably influenced the microbial community composition in the water and root systems, reducing species abundance while increasing community diversity, with Treatment 2 exhibiting the highest community stability. The addition of the compound Bacillus significantly increased the relative abundance of Alphaproteobacteria. Most of the important operational taxonomic units (OTUs) that significantly impacted the groups belonged to Alphaproteobacteria. Different biomarkers in the water and root system were primarily from Alphaproteobacteria, Gammaproteobacteria, and Bacteroidia, including Idiomarina and Alteromonas, Ruegeria, Vibrio, Algoriphagus, and Maribacter, among others. These microorganisms play a significant role in promoting the removal rate of nitrogen and phosphorus. Furthermore, the compound Bacillus notably affected the abundance of nitrogen cycle-related sequences and increased the relative abundance of microorganisms associated with the nitrogen cycle. These findings provide valuable insights for optimizing aquaculture wastewater treatment processes.