November 22, 2024
Mehdi Bibak

Mehdi Bibak

Academic Rank: Assistant professor
Address: First floor, Persian Gulf Research Institute
Degree: Ph.D in Fisheries
Phone: 0
Faculty: Persian Gulf Research Institue

Research

Title Empirical cumulative entropy as a new trace elements indicator to determine the relationship between algae-sediment pollution in the Persian Gulf, southern Iran
Type Article
Keywords
Empirical cumulative entropy . Biota-sediment accumulation factor . Algae . Marine pollution
Journal ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
DOI https://doi.org/10.1007/s11356-020-10838-5
Researchers Mehdi Bibak (First researcher) , Saeid Tahmasebi (Second researcher) , Masoud Sattari (Third researcher) , Raheleh Kafaei (Fourth researcher) , Bahman Ramavandi (Fifth researcher)

Abstract

In this paper, the amount of 19 elements in three species of algae and associated sediment in the northern margin of the Persian Gulf was investigated. A sampling of algae was performed on the coast with a length of 5 km in each station and surface sediment was sampled at the same time in low and middle intertidal zones. The values of elements in the samples were measured by using an inductively coupled plasma mass spectrometry (ICP-MS) device. Then, the amount of bioaccumulation factor in algae tissue relative to sediment (biota-sediment accumulation factor, BSAF) was determined. The value of BSAF was compared with the empirical cumulative entropy (ECE). ECE is based on comparing the element information in algae with those in sediments. The results showed that BSAF was very closely related to the ECE factor so that significant correlations were obtained for algae species of P. gymnospora (ECE?=?0.477 BSAF, R2: 0.967), H. hamulosa (ECE?=?0.542 BSAF, R2: 0.979), and C. membranacea (ECE?=?0.356 BSAF, R2: 0.976). The ECE values >?0.4 were similar to those obtained for BSAF >?1, exhibiting that the element accumulation in algae was higher than in sediments. Based on ECE, to determine the vanadium accumulation in the environment, the C. membranacea algae are more appropriate than H. hamulosa. Overall, the data showed that ECE is a good alternative to BSAF in estimating marine pollution.