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The bacterial evaluation of maize root (Zea mays L.) in oil-polluted soil
Parisa Mohammadi, Sepide Ameri Toorzani, Khadije Kiarostami, Sara Gheravi, Zahra Felahti,
Volume 2, Issue 1 (6-2015)
Abstract

Total petroleum hydrocarbons (TPHs) is one of the most important environmental challenges. Phytoremediation of oil-polluted soil depends on microorganisms of the rhizosphere. This study attempts to evaluate the microbial impact of Zea mays rhizosphere during a 60 day period using three different treatments: control soil, oil-polluted soil and oil-polluted soil including fertilizer (NH4No3, K2HPO4). Then, the rhizosphere bacteria were identified. The results showed that CFU per gram of control soil was higher than other treated soils, an indication of oil stress on microbial population. In addition, more bacterial diversity was observed in soils and different bacteria were isolated from the soils. Finally, the most resistant bacteria to the oil pollution were assayed. The assay of isolates indicated that all of those separated from the oil-polluted soil have the ability to produce biosurfactant in different quantities. Further investigation must be carried out to optimize the degradation of oil by these isolates. 


The effects of Behbahan cement factory activity on the absorption of some nutrients and biochemical responses in herbaceous plants Sinapis arvensis, Malva neglecta and Bromus tectorum
Maryam Masoudizadeh, Parzhak Zoufan, Saadat Rastegarzadeh,
Volume 6, Issue 4 (12-2019)
Abstract
The cement production activities leads to the release of different pollutants into the environment. This research was conducted to study the effects of dust particles released by Behbahan cement factory on the absorption of some nutrient elements and biochemical parameters in dominant herbaceous species grown in this area, including Bromus tectorum, Malva neglecta and Sinapis arvensis. Plant samples were transferred to the laboratory. Then, the concentrations of some nutrient elements, such as Fe, Cu, Zn, K, Mn, P and N, were assayed in plant and soil samples. Moreover, some biochemical parameters, such as photosynthetic pigments, total protein, soluble carbohydrates, proline, relative water content, leaf pH total ascorbate and air pollution tolerance indexes (APTI), were evaluated. Based on these results, it is supposed that three plant species are tolerant to air pollution with an APTI higher than 16. In addition, it seems that the dust released by the cement factory has not led to a toxic accumulation of the elements in the studied plants. The deficiency of Mn and P was determined for three plant species. On the basis of biochemical analysis, it is supposed that these plant species possibly use different strategies to tolerate the pollutants in this area.
 
 

Ecological Assessment of Roodbest Wetland Using Algal Bioindicators
Naser Jafari, Zahra Pournasrollah, Soghra Ramzi,
Volume 12, Issue 3 (9-2025)
Abstract
The Roodbast Wetland in Babolsar city is a crucial source of agricultural water and supports various living organisms near human settlements. Preserving the quality of this habitat is vital for both natural and human reasons. This study investigates the ecological status of Roodbast Wetland using algae as biological indicators of pollution. Diverse samplings were conducted in different seasons. Pollution levels were assessed using the Palmer index and various biological indicators. The study cataloged 81 genera across 7 phyla of algae. Chlorophyta had the highest species diversity, while Chrysophyta had the fewest. Peak algae proliferation occurred in summer and spring. Chlorophyta and Bacillariophyta were predominant throughout most of the year. In summer, Palmer’s pollution index peaked at stations 3 and 4, with a value of 35. In winter, stations 2, 4, and 5 showed minimal pollution with indices of 6, 9, and 7, respectively. During summer and autumn, all stations recorded Palmer indices exceeding 24. The primary cause of wetland pollution in spring is the influx of sub-branches from Babolrood, carrying village sewage and agricultural runoff. The rise in pollution in summer and autumn is due to elevated water temperatures, reduced rainfall, and increased extraction of lagoon water for rice replanting.
 
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