Metal bioaccumulation in the soil&ndash;leaf&ndash;fruit system determined by neutron activation analysis

Zinicovscaia Inga; Sturza Rodica; Gurmeza Irina; Vergel Konstantin; Gundorina Svetlana; Duka Gh.

Conţinutul numărului revistei

Articolul precedent

Articolul urmator

1103

SM ISO690:2012

ZINICOVSCAIA, Inga, STURZA, Rodica, GURMEZA, Irina, VERGEL, Konstantin, GUNDORINA, Svetlana, DUKA, Gh.. Metal bioaccumulation in the soil–leaf–fruit system determined by neutron activation analysis. In: Journal of Food Measurement and Characterization, 2019, nr. 1(13), pp. 592-601. ISSN 2193-4126. DOI: https://doi.org/10.1007/s11694-018-9972-4

EXPORT metadate:
Google Scholar
Crossref
CERIF

DataCite
Dublin Core

Journal of Food Measurement and Characterization

Numărul 1(13) / 2019 / ISSN 2193-4126

Metal bioaccumulation in the soil–leaf–fruit system determined by neutron activation analysis

DOI:https://doi.org/10.1007/s11694-018-9972-4

Pag. 592-601

Zinicovscaia Inga¹²³, Sturza Rodica⁴, Gurmeza Irina⁴, Vergel Konstantin¹, Gundorina Svetlana¹, Duka Gh.³

¹ Joint Institute of Nuclear Research,
² Horia Hulubei National Institute for Physics and Nuclear Engineering,
³ Institute of Chemistry,
⁴ Technical University of Moldova

Disponibil în IBN: 2 martie 2019

Rezumat

The determination of macro- and microelements in soil–leaf–fruit systems is extremely important for the quality of the fruits and for consumer health. The content of major and trace elements in selected varieties of fruits (apple, plum, and grape) as well as in leaves and soils samples, collected in the Republic of Moldova, was determined using neutron activation analysis. Soil elemental content allowed evidencing more similarities between the considered soils and the World Average Soil, while the content of trace elements corresponds to average values obtained for microelements in the Republic of Moldova. The content of the main part of the element in apple fruits was higher in comparison with plum and grape fruits. The highest concentration in case of all fruits was obtained for K: 14,500 µg/g (grape), 21,600 µg/g (plum) and 23,700 µg/g (apple). Transfer factors from soils to leaves and fruits as well as from leaves to fruits, the daily intake of metals, and the hazard quotient indices were calculated. The transfer factor calculated for different systems showed large differences between metals. The values for the estimated dietary intakes and hazard quotients for toxic elements (Cr, Co, Fe, Mn, Ni, V, and Zn) were lower than the recommended safety limits by Food and Nutrition Board. Therefore, the analyzed fruits were considered to be safe for human consumption.

Cerif XML Export

<?xml version='1.0' encoding='utf-8'?>
<CERIF xmlns='urn:xmlns:org:eurocris:cerif-1.5-1' xsi:schemaLocation='urn:xmlns:org:eurocris:cerif-1.5-1 http://www.eurocris.org/Uploads/Web%20pages/CERIF-1.5/CERIF_1.5_1.xsd' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' release='1.5' date='2012-10-07' sourceDatabase='Output Profile'>
<cfResPubl>
<cfResPublId>ibn-ResPubl-73211</cfResPublId>
<cfResPublDate>2019-03-15</cfResPublDate>
<cfVol>13</cfVol>
<cfIssue>1</cfIssue>
<cfStartPage>592</cfStartPage>
<cfISSN>2193-4126</cfISSN>
<cfURI>https://ibn.idsi.md/ro/vizualizare_articol/73211</cfURI>
<cfTitle cfLangCode='EN' cfTrans='o'>Metal bioaccumulation in the soil&ndash;leaf&ndash;fruit system determined by neutron activation analysis</cfTitle>
<cfAbstr cfLangCode='EN' cfTrans='o'><p>The determination of macro- and microelements in soil&ndash;leaf&ndash;fruit systems is extremely important for the quality of the fruits and for consumer health. The content of major and trace elements in selected varieties of fruits (apple, plum, and grape) as well as in leaves and soils samples, collected in the Republic of Moldova, was determined using neutron activation analysis. Soil elemental content allowed evidencing more similarities between the considered soils and the World Average Soil, while the content of trace elements corresponds to average values obtained for microelements in the Republic of Moldova. The content of the main part of the element in apple fruits was higher in comparison with plum and grape fruits. The highest concentration in case of all fruits was obtained for K: 14,500&nbsp;&micro;g/g (grape), 21,600&nbsp;&micro;g/g (plum) and 23,700&nbsp;&micro;g/g (apple). Transfer factors from soils to leaves and fruits as well as from leaves to fruits, the daily intake of metals, and the hazard quotient indices were calculated. The transfer factor calculated for different systems showed large differences between metals. The values for the estimated dietary intakes and hazard quotients for toxic elements (Cr, Co, Fe, Mn, Ni, V, and Zn) were lower than the recommended safety limits by Food and Nutrition Board. Therefore, the analyzed fruits were considered to be safe for human consumption.</p></cfAbstr>
<cfResPubl_Class>
<cfClassId>eda2d9e9-34c5-11e1-b86c-0800200c9a66</cfClassId>
<cfClassSchemeId>759af938-34ae-11e1-b86c-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfResPubl_Class>
<cfResPubl_Class>
<cfClassId>e601872f-4b7e-4d88-929f-7df027b226c9</cfClassId>
<cfClassSchemeId>40e90e2f-446d-460a-98e5-5dce57550c48</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfResPubl_Class>
<cfPers_ResPubl>
<cfPersId>ibn-person-23858</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-12185</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-43851</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-54679</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-55573</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-137</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfFedId>
<cfFedIdId>ibn-doi-73211</cfFedIdId>
<cfFedId>10.1007/s11694-018-9972-4</cfFedId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFedId_Class>
<cfClassId>31d222b4-11e0-434b-b5ae-088119c51189</cfClassId>
<cfClassSchemeId>bccb3266-689d-4740-a039-c96594b4d916</cfClassSchemeId>
</cfFedId_Class>
<cfFedId_Srv>
<cfSrvId>5123451</cfSrvId>
<cfClassId>eda2b2e2-34c5-11e1-b86c-0800200c9a66</cfClassId>
<cfClassSchemeId>5a270628-f593-4ff4-a44a-95660c76e182</cfClassSchemeId>
</cfFedId_Srv>
</cfFedId>
</cfResPubl>
<cfPers>
<cfPersId>ibn-Pers-23858</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-23858-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Зиньковская</cfFamilyNames>
<cfFirstNames>Инга</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-12185</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-12185-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Стурза</cfFamilyNames>
<cfFirstNames>Р.</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-43851</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-43851-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Gurmeza</cfFamilyNames>
<cfFirstNames>Irina</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-54679</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-54679-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Vergel</cfFamilyNames>
<cfFirstNames>Konstantin</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-55573</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-55573-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Gundorina</cfFamilyNames>
<cfFirstNames>Svetlana</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-137</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-137-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2019-03-15T24:00:00</cfStartDate>
<cfFamilyNames>Duka</cfFamilyNames>
<cfFirstNames>Gh.</cfFirstNames>
<cfFamilyNames>Дука</cfFamilyNames>
<cfFirstNames>Георгий</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfSrv>
<cfSrvId>5123451</cfSrvId>
<cfName cfLangCode='en' cfTrans='o'>CrossRef DOI prefix service</cfName>
<cfDescr cfLangCode='en' cfTrans='o'>The service of issuing DOI prefixes to publishers</cfDescr>
<cfKeyw cfLangCode='en' cfTrans='o'>persistent identifier; Digital Object Identifier</cfKeyw>
</cfSrv>
</CERIF>