SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3155527675> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W3155527675 endingPage "130533" @default.
W3155527675 startingPage "130533" @default.
W3155527675 abstract "In the middle of May 2018, an unprecedented dust storm occurred in the Shiraz metropolis. After the storm, several samples were collected from dust that settled around the city. These dust samples were analysed for potentially toxic elements (PTEs), rare earth elements (REEs), and radionuclides. This work is the first study that considered rare earth elements (REEs) for source identification and radionuclide contamination of Shiraz dust event. Hysplit model analysis and NASA and NOAA satellite maps illustrated that the air mass affecting Shiraz was moving mainly through the Saudi Arabian deserts. In addition, REE results of the dust that settled in Shiraz showed a trend similar to shale, sandstone, and especially Saudi Arabian soils. Ti/Al (0.01), Fe/Al (0.92), and Mg/Al (0.55) ratios and the values of LaN/SmN (0.91–0.98), GdN/YbN (1.8–2), LaN/YbN (1.7–1.9), HREE/LREE (0.52–0.6), Ce/Ce∗ (1.09–1.13), Eu/Eu∗ (1.03–1.18), Pr/Pr∗ (0.85–0.87), Gd/Gd∗ (1.1–1.15), and MREEs/MREE∗ (4.3–4.5) ratios provided insights into dust sources. These values indicated that Shiraz dust was affected by Asaluyeh and Iraq soils during transport and the main source of the dust that settled in Shiraz on the May 13, 2018 was Saudi Arabian soil. The concentrations of Mo, Cu, Pb, Zn, Ni, Co, Mn, As, Cd, Ti, Al, Sc, and Fe in the settled dust were 0.24, 47.67, 67.33, 244, 70.27, 19.33, 664, 8.39, 0.65, 537.33, 40933.33, 11.54, and 37800 mg/kg, respectively. According to the enrichment factor (EF), coefficient variation, and Positive Matrix Factorization (PMF) model the Mo, Cu, Pb, Zn, and Cd mainly originated from exhaust emissions and industrial activities. The activity concentrations of the radionuclides 7Be, 4 K, 137Cs, and 235U in the Shiraz-settled dust were 814, 421, 14, and 5.4 Bq kg−1, respectively and the activity concentration of 4 K was higher than the crustal average. Health risk assessment indices for the elements considering all three pathways revealed the following trend: dermal contact (HQderm)< inhalation (HQinh)< ingestion (HQing). The values of HQinh and HQing for children were higher than adults, while the values for the skin adsorption pathway for adults were higher than for children." @default.
W3155527675 created "2021-04-26" @default.
W3155527675 creator A5034069957 @default.
W3155527675 creator A5054013009 @default.
W3155527675 creator A5060514833 @default.
W3155527675 creator A5079764442 @default.
W3155527675 creator A5080053022 @default.
W3155527675 creator A5086875121 @default.
W3155527675 date "2021-09-01" @default.
W3155527675 modified "2023-10-14" @default.
W3155527675 title "Investigation of the 2018 Shiraz dust event: Potential sources of metals, rare earth elements, and radionuclides; health assessment" @default.
W3155527675 cites W1434906359 @default.
W3155527675 cites W167102337 @default.
W3155527675 cites W1925956148 @default.
W3155527675 cites W1972568665 @default.
W3155527675 cites W1973302818 @default.
W3155527675 cites W1979908331 @default.
W3155527675 cites W1985307933 @default.
W3155527675 cites W1991104293 @default.
W3155527675 cites W1991520699 @default.
W3155527675 cites W2000203244 @default.
W3155527675 cites W2001910982 @default.
W3155527675 cites W2002218530 @default.
W3155527675 cites W2003412246 @default.
W3155527675 cites W2011577293 @default.
W3155527675 cites W2012470056 @default.
W3155527675 cites W2013298948 @default.
W3155527675 cites W2021327933 @default.
W3155527675 cites W2024462323 @default.
W3155527675 cites W2026802068 @default.
W3155527675 cites W2027907815 @default.
W3155527675 cites W2035886961 @default.
W3155527675 cites W2040359857 @default.
W3155527675 cites W2045174871 @default.
W3155527675 cites W2049685089 @default.
W3155527675 cites W2053742632 @default.
W3155527675 cites W2054490367 @default.
W3155527675 cites W2058881634 @default.
W3155527675 cites W2061572093 @default.
W3155527675 cites W2068321859 @default.
W3155527675 cites W2070507230 @default.
W3155527675 cites W2071412541 @default.
W3155527675 cites W2078957835 @default.
W3155527675 cites W2079460625 @default.
W3155527675 cites W2081813406 @default.
W3155527675 cites W2084378009 @default.
W3155527675 cites W2089489187 @default.
W3155527675 cites W2090680793 @default.
W3155527675 cites W2095557497 @default.
W3155527675 cites W2111582626 @default.
W3155527675 cites W2113457496 @default.
W3155527675 cites W2120343953 @default.
W3155527675 cites W2121996542 @default.
W3155527675 cites W2125659751 @default.
W3155527675 cites W2125902660 @default.
W3155527675 cites W2139674889 @default.
W3155527675 cites W2149341170 @default.
W3155527675 cites W2158989459 @default.
W3155527675 cites W2170013960 @default.
W3155527675 cites W2185049276 @default.
W3155527675 cites W2315483899 @default.
W3155527675 cites W2477235834 @default.
W3155527675 cites W2505853500 @default.
W3155527675 cites W2525199231 @default.
W3155527675 cites W2591850365 @default.
W3155527675 cites W2761372344 @default.
W3155527675 cites W2767518301 @default.
W3155527675 cites W2768287128 @default.
W3155527675 cites W2769235951 @default.
W3155527675 cites W2786889968 @default.
W3155527675 cites W2791861763 @default.
W3155527675 cites W2794568200 @default.
W3155527675 cites W2884077577 @default.
W3155527675 cites W2885249286 @default.
W3155527675 cites W2892412910 @default.
W3155527675 cites W2899359558 @default.
W3155527675 cites W2900492069 @default.
W3155527675 cites W2925032958 @default.
W3155527675 cites W2964619423 @default.
W3155527675 cites W2995873145 @default.
W3155527675 cites W4248442909 @default.
W3155527675 doi "https://doi.org/10.1016/j.chemosphere.2021.130533" @default.
W3155527675 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33892458" @default.
W3155527675 hasPublicationYear "2021" @default.
W3155527675 type Work @default.
W3155527675 sameAs 3155527675 @default.
W3155527675 citedByCount "17" @default.
W3155527675 countsByYear W31555276752021 @default.
W3155527675 countsByYear W31555276752022 @default.
W3155527675 countsByYear W31555276752023 @default.
W3155527675 crossrefType "journal-article" @default.
W3155527675 hasAuthorship W3155527675A5034069957 @default.
W3155527675 hasAuthorship W3155527675A5054013009 @default.
W3155527675 hasAuthorship W3155527675A5060514833 @default.
W3155527675 hasAuthorship W3155527675A5079764442 @default.
W3155527675 hasAuthorship W3155527675A5080053022 @default.
W3155527675 hasAuthorship W3155527675A5086875121 @default.
W3155527675 hasConcept C105306849 @default.