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Water Qualitative monitoring of water of Mahabad River in terms of microbiological parameters Based on Protocol 1011 of the National Iranian Standards Organization
Vahid Tanhaei, Nima Rostami Koshki ,
Volume 8, Issue 31 (7-2018)
Abstract 
Aim and Background: It is essential to pay attention to the quality of water for the continuation of human life. Water resources are one of the basic foundations for sustainable development, and in recent years, extensive research has been carried out on water quality assessment. One of the key issues in exploiting water resources is the quality that otherwise would have unexpected consequences in the agriculture, drinking and industry sectors. Mahabad River, located in Mahabad plain, is one of the most important rivers in the West Azerbaijan province. The average annual catchment area of the Mahabad River catchment area is 806 square kilometers and 295 million cubic meters respectively. In this research, the water quality of Mahabad River has been studied from the point of view of some microbiological parameters and the rate of self-pollination of the river. To achieve this goal, international standards for drinking water and irrigation were used.
Materials and Methods: In the present study, which is descriptive-cross sectional, sampling during 6 months from 4 stations consisted of the station 1 km 20 of the Mahabad dam (upstream of Kowsar village), the station number two km 15 of Mahabad dam (upstream of the village of Dehbakr), respectively. Station No.3 km 10 of Mahabad Dam and Station No. 4 km5 of Mahabad Dam were used and MPN method was used to measure water pollution index bacteria. 
Results: Seven biological parameters including diatomaceous earth, chlorophyce, cyanofisce, pertussu, rotifer, chrestas, nematode, residual chlorine, probable value, confirmation and heparin were measured. The results of the data analysis indicated that the river's microbial load was high. As the number of coliform bacteria in stations 1 and 4 was higher than the standard in most of the sampling.
Conclusion: The results of the MPN calculations showed during the research, The microbial load of the river from station 1 to 4 is decreasing due to the flow of movement and its self-propagation.

Study of cultivable actinobacterial diversity in Sahoulan Cave and evaluation of their antimicrobial activity
Maghsoud Kafshnouchi, Javad Hamedi,
Volume 13, Issue 49 (12-2022)
Abstract
Aim and Background: Caves are less studied oligotrophic and dark environments and can be suitable sources for finding promising strains having biotechnological potentials. Sahoulan Cave has a dolomitic structure and is located 42 km southeast of Mahabad city. The aim of the current research was to study the actinobacterial diversity of this cave and evaluate their antimicrobial activity.
Materials and Methods: In this project, different samples of soil, water, floor, wall, roof as well as invertebrates of the Sahoulan cave were collected to isolate actinobacteria. To facilitate the isolation, three pretreatments (centrifugation, drying and, microwave) and an antibiotic treatment were performed on the isolates. Then, they were cultured in 10 different isolation media. The isolates were also screened for antimicrobial activity against 10 bacteria and fungi.
Results: From 13 samples obtained from the Sahoulan Cave, 8 actinobacteria were isolated from the genera Streptomyces, Micromonospora, and Lysinibacter. Lysinibacter sp. UTMC 3606 had 99.3% similarity to Lysinibacter cavernae, which was isolated from a cave in China in 2015 as a new species. Of the 8 isolates, 5 isolates had antimicrobial activity, including three Streptomyces and two Micromonospora. Three isolates were active against Staphylococcus aureus and Micrococcus luteus. One isolate was active against Escherichia coli TolC. Antimicrobial activity against Bacillus subtilis UTMC1464 was observed in one strain. Three isolates also showed activity against Candida albicans UTMC5055. The isolated Micromonospora sp. UTMC3322 showed the highest antimicrobial activity against S. aureus, M. luteus, and C. albicans.
Conclusion: Comparison of the obtained results with that of other studies on caves in Iran shows that caves are valuable environments for biodiversity studies and isolation of actinobacteria, however, pristine caves are more preferred. Actinobacterial diversity in the Sahoulan cave was less than Hampoil cave, but the biological activity of the isolates was higher. Study of tourist caves such as the Sahoulan Cave can be a good subject to study the impact of humans and tourism on the biodiversity of caves.
 
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