Journal of Chemical Metrology

A scientific open access journal in the field of analytical chemistry and accreditation
Editor-in-Chief: Mustafa Özyürek
Book Review and Review Article Editor: John Warren

LATEST ARTICLES

Original Article

Assessment of the relationship between some physico-chemical properties of soil and soil algae in micro basin scale in Kocaeli

J. Chem. Metrol. (2020) in press ; 1 - 8
by Arzu Morkoyunlu Yüce and Hüseyin Altundağ

In this study, it was aimed to determine the relationship between soil algae and physico-chemical structure of soil. Algae composition and some soil quality parameters from 12 sampling stations were investigated between March 2019 and May 2019 in Kocaeli. Physico-chemical properties that reflect soil nutrient content and fertility status (pH, conductivity, salinity, CaCO3, organic matter, saturation, P2O5 and K2O) were determined using standard physicochemical techniques. Average in soil parameters were determined as pH: 8.06, conductivity: 5.79 µmhos / cm, salinity: 0.22 ‰, CaCO3: 9.98%, organic matter: 1.70%, saturation: 59.55%, P2O5: 3.16 kg / da, K2O: 93.92 kg / da. Algal flora of Kocaeli province was a total of 30 taxa, 14 taxa of Bacillariophyta, 3 taxa of Chlorophyta, 1 taxa of Charophyta and 12 taxa of Cyanobacteria were identified. The determined as the Chroococcus cohaerens, Limnococcus limneticus, Phormidium nigroviride, Oscillatoria limosa, Gomphonema olivaceum, Hantzschia amphioxys and Nitzschia brevissima most dominant taxa. These taxa have been identified in stations with high industrial activity. Bacillariophyta taxa were found in all months due to their ecological tolerance, while other species belong to spring. In this study, the species diversity were found similar in research stations.

 

DOI
http://doi.org/10.25135/jcm.43.2005.1652
(DOI number will be activated after the manuscript has been available in an issue.)
Keywords
Soil epipelic algae ecology micro basin physico-chemical parameters
Available online: July 28, 2020
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© ACG Publications. All rights reserved.
Original Article

Impact of test conditions on the bacterial bioassay in the presence of TiO2 nanoparticles

J. Chem. Metrol. (2020) in press ; 1 - 11
by Aslı Baysal , Hasan Saygin and Gul Sirin Ustabasi

To assess the fate and behavior of engineered nanoparticles in the aquatic environment, it is crucial to conduct appropriate bacterial bioassay procedure. However, test conditions of bacterial bioassay are limitedly investigated; especially in the field of environmental media chemistry or aging of nanoparticles which interfere the procedure. For this purpose, TiO2 nanoparticles were treated with different test conditions by keeping them in 1% and 100% seawater for one day and 20 days. The bacterial bioassay of treated nanoparticles towards gram-negative (Pseudomonas aeruginosa) and gram-positive (Staphylococcus aureus) bacteria were examined, as well as the mechanism by biochemical responses of bacteria and physicochemical properties of TiO2 nanoparticles. The viability response of tested bacteria reduced remarkably in seawater concentration, while treatment (aging) duration of tested nanoparticles slightly affected the viability response of tested bacteria. Moreover, key events which affected the bioassay response were changed with the treatment duration and media concentration. The results also showed that aging duration and concentration of the media influenced the main physicochemical properties due to the alterations in surface from aging media compared to unaged ones.

DOI
http://doi.org/10.25135/jcm.42.20.05.1648
(DOI number will be activated after the manuscript has been available in an issue.)
Keywords
Nanoparticles bacteria bioassay interference nanometrology surface analysis ecotoxocology
Available online: June 15, 2020
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© ACG Publications. All rights reserved.