SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2579619858> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W2579619858 endingPage "579" @default.
W2579619858 startingPage "572" @default.
W2579619858 abstract "The concentration levels of 20 metals were analyzed by ICP-OES in edible seaweed (Chondrus, Eisenia, Gelidium, Himanthalia, Laminaria, Palmaria, Porphyra, Undaria), from two origins (Asia vs EU) according to their cultivation practices (conventional vs organic). Red seaweed showed higher concentrations of trace and toxic elements. Porphyra may be used as a potential bioindicator for metals. Significant differences were found between the Asian vs European mean contents. The mean Cd level from the conventional cultivation (0.28 mg/kg) was two points higher than the organic cultivation (0.13 mg/kg). A daily consumption of seaweed (4 g/day) contributes to the dietary intake of metals, mainly Mg and Cr. The average intakes of Al, Cd and Pb were 0.064, 0.001 and 0.0003 mg/day, respectively. Based on obtained results, this study suggests that exposure to the toxic metals analyzed (Al, Cd and Pb) through seaweed consumption does not raise serious health concerns, but other toxic metals should be monitored." @default.
W2579619858 created "2017-01-26" @default.
W2579619858 creator A5024712522 @default.
W2579619858 creator A5030140704 @default.
W2579619858 creator A5035635930 @default.
W2579619858 creator A5035763366 @default.
W2579619858 creator A5040863686 @default.
W2579619858 creator A5047761476 @default.
W2579619858 creator A5051213503 @default.
W2579619858 date "2017-04-01" @default.
W2579619858 modified "2023-10-10" @default.
W2579619858 title "Metals in edible seaweed" @default.
W2579619858 cites W10556772 @default.
W2579619858 cites W1438954325 @default.
W2579619858 cites W1486288673 @default.
W2579619858 cites W1730252720 @default.
W2579619858 cites W1973879148 @default.
W2579619858 cites W1980946995 @default.
W2579619858 cites W1981881965 @default.
W2579619858 cites W1986400690 @default.
W2579619858 cites W1990850314 @default.
W2579619858 cites W1993397632 @default.
W2579619858 cites W1996301721 @default.
W2579619858 cites W1999842247 @default.
W2579619858 cites W2003060151 @default.
W2579619858 cites W2012751334 @default.
W2579619858 cites W2017443583 @default.
W2579619858 cites W2030018795 @default.
W2579619858 cites W2032602630 @default.
W2579619858 cites W2034289789 @default.
W2579619858 cites W2037688273 @default.
W2579619858 cites W2048184346 @default.
W2579619858 cites W2049741916 @default.
W2579619858 cites W2050455798 @default.
W2579619858 cites W2058328150 @default.
W2579619858 cites W2064836707 @default.
W2579619858 cites W2065594196 @default.
W2579619858 cites W2065946456 @default.
W2579619858 cites W2070109773 @default.
W2579619858 cites W2074486517 @default.
W2579619858 cites W2080416155 @default.
W2579619858 cites W2083902817 @default.
W2579619858 cites W2089531420 @default.
W2579619858 cites W2093076454 @default.
W2579619858 cites W2094116078 @default.
W2579619858 cites W2095945759 @default.
W2579619858 cites W2096551718 @default.
W2579619858 cites W2097982328 @default.
W2579619858 cites W2139574260 @default.
W2579619858 cites W2144301525 @default.
W2579619858 cites W2330675753 @default.
W2579619858 cites W2434147803 @default.
W2579619858 cites W4211250424 @default.
W2579619858 cites W4214770239 @default.
W2579619858 cites W4233590628 @default.
W2579619858 doi "https://doi.org/10.1016/j.chemosphere.2017.01.064" @default.
W2579619858 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28152409" @default.
W2579619858 hasPublicationYear "2017" @default.
W2579619858 type Work @default.
W2579619858 sameAs 2579619858 @default.
W2579619858 citedByCount "97" @default.
W2579619858 countsByYear W25796198582017 @default.
W2579619858 countsByYear W25796198582018 @default.
W2579619858 countsByYear W25796198582019 @default.
W2579619858 countsByYear W25796198582020 @default.
W2579619858 countsByYear W25796198582021 @default.
W2579619858 countsByYear W25796198582022 @default.
W2579619858 countsByYear W25796198582023 @default.
W2579619858 crossrefType "journal-article" @default.
W2579619858 hasAuthorship W2579619858A5024712522 @default.
W2579619858 hasAuthorship W2579619858A5030140704 @default.
W2579619858 hasAuthorship W2579619858A5035635930 @default.
W2579619858 hasAuthorship W2579619858A5035763366 @default.
W2579619858 hasAuthorship W2579619858A5040863686 @default.
W2579619858 hasAuthorship W2579619858A5047761476 @default.
W2579619858 hasAuthorship W2579619858A5051213503 @default.
W2579619858 hasConcept C107872376 @default.
W2579619858 hasConcept C109051061 @default.
W2579619858 hasConcept C140793950 @default.
W2579619858 hasConcept C176585087 @default.
W2579619858 hasConcept C185592680 @default.
W2579619858 hasConcept C2777450936 @default.
W2579619858 hasConcept C2778177487 @default.
W2579619858 hasConcept C31903555 @default.
W2579619858 hasConcept C33070731 @default.
W2579619858 hasConcept C559758991 @default.
W2579619858 hasConcept C59822182 @default.
W2579619858 hasConcept C86803240 @default.
W2579619858 hasConceptScore W2579619858C107872376 @default.
W2579619858 hasConceptScore W2579619858C109051061 @default.
W2579619858 hasConceptScore W2579619858C140793950 @default.
W2579619858 hasConceptScore W2579619858C176585087 @default.
W2579619858 hasConceptScore W2579619858C185592680 @default.
W2579619858 hasConceptScore W2579619858C2777450936 @default.
W2579619858 hasConceptScore W2579619858C2778177487 @default.
W2579619858 hasConceptScore W2579619858C31903555 @default.
W2579619858 hasConceptScore W2579619858C33070731 @default.
W2579619858 hasConceptScore W2579619858C559758991 @default.