Air Pollution Study in the Republic of Moldova Using Moss Biomonitoring Technique
Închide
Conţinutul numărului revistei
Articolul precedent
Articolul urmator
931 0
SM ISO690:2012
ZINICOVSCAIA, Inga, HRAMCO, Constantin, DULIU, Octavian-Gheorghe, VERGEL, Konstantin, CULICOV, Otilia Ana, FRONTASYEVA, Marina, DUKA, Gh.. Air Pollution Study in the Republic of Moldova Using Moss Biomonitoring Technique. In: Bulletin of Environmental Contamination and Toxicology, 2017, nr. 2(98), pp. 262-269. ISSN 0007-4861. DOI: https://doi.org/10.1007/s00128-016-1989-y
EXPORT metadate:
Google Scholar
Crossref
CERIF

DataCite
Dublin Core
Bulletin of Environmental Contamination and Toxicology
Numărul 2(98) / 2017 / ISSN 0007-4861 /ISSNe 1432-0800

Air Pollution Study in the Republic of Moldova Using Moss Biomonitoring Technique

DOI: https://doi.org/10.1007/s00128-016-1989-y

Pag. 262-269

Zinicovscaia Inga123, Hramco Constantin13, Duliu Octavian-Gheorghe14, Vergel Konstantin1, Culicov Otilia Ana15, Frontasyeva Marina1, Duka Gh.3
 
1 Joint Institute of Nuclear Research,
2 Horia Hulubei National Institute for Physics and Nuclear Engineering,
3 Institute of Chemistry of the Academy of Sciences of Moldova,
4 University of Bucharest,
5 National Institute for Research and Development in Electrical Engineering ICPE-CA, Bucharest
 
Disponibil în IBN: 29 iunie 2018


Rezumat

Moss biomonitoring using the species Hypnum cupressiforme (Hedw.) and Pleurocarpous sp was applied to study air pollution in the Republic of Moldova. A total of 41 elements (Na, Mg, Al, Cl, K, Ca, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Se, Br, Rb, Sr, Zr, Cd, Sb, Cs, Ba, La, Ce, Nd, Sm, Eu, Gd, Tb, Tm, Yb, Hf, Ta, W, Pb, Th, and U) were determined by instrumental epithermal neutron activation analysis and atomic absorption spectrometry. Principal component analysis was used to identify and characterize different pollution sources. Geographical distribution maps were prepared to point out the regions most affected by air pollution and relate this to potential sources of contamination. Median values of the elements studied were compared with data from the European moss biomonitoring program. The cities of Chisinau and Balti were determined to experience particular environmental stress.

Cuvinte-cheie
atomic absorption spectrometry, Contamination factor, heavy metals, neutron activation analysis

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-63733</cfResPublId>
<cfResPublDate>2017-02-01</cfResPublDate>
<cfVol>98</cfVol>
<cfIssue>2</cfIssue>
<cfStartPage>262</cfStartPage>
<cfISSN>0007-4861</cfISSN>
<cfURI>https://ibn.idsi.md/ro/vizualizare_articol/63733</cfURI>
<cfTitle cfLangCode='EN' cfTrans='o'>Air Pollution Study in the Republic of Moldova Using Moss Biomonitoring Technique</cfTitle>
<cfKeyw cfLangCode='EN' cfTrans='o'>atomic absorption spectrometry; Contamination factor; heavy metals; neutron activation analysis</cfKeyw>
<cfAbstr cfLangCode='EN' cfTrans='o'><p>Moss biomonitoring using the species Hypnum cupressiforme (Hedw.) and Pleurocarpous sp was applied to study air pollution in the Republic of Moldova. A total of 41 elements (Na, Mg, Al, Cl, K, Ca, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Se, Br, Rb, Sr, Zr, Cd, Sb, Cs, Ba, La, Ce, Nd, Sm, Eu, Gd, Tb, Tm, Yb, Hf, Ta, W, Pb, Th, and U) were determined by instrumental epithermal neutron activation analysis and atomic absorption spectrometry. Principal component analysis was used to identify and characterize different pollution sources. Geographical distribution maps were prepared to point out the regions most affected by air pollution and relate this to potential sources of contamination. Median values of the elements studied were compared with data from the European moss biomonitoring program. The cities of Chisinau and Balti were determined to experience particular environmental stress.</p></cfAbstr>
<cfResPubl_Class>
<cfClassId>eda2d9e9-34c5-11e1-b86c-0800200c9a66</cfClassId>
<cfClassSchemeId>759af938-34ae-11e1-b86c-0800200c9a66</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
</cfResPubl_Class>
<cfResPubl_Class>
<cfClassId>e601872f-4b7e-4d88-929f-7df027b226c9</cfClassId>
<cfClassSchemeId>40e90e2f-446d-460a-98e5-5dce57550c48</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</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>2017-02-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-56496</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-35358</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</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>2017-02-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-55572</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-33640</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</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>2017-02-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfFedId>
<cfFedIdId>ibn-doi-63733</cfFedIdId>
<cfFedId>10.1007/s00128-016-1989-y</cfFedId>
<cfStartDate>2017-02-01T24:00:00</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>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Зиньковская</cfFamilyNames>
<cfFirstNames>Инга</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-56496</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-56496-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Hramco</cfFamilyNames>
<cfFirstNames>Constantin</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-35358</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-35358-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Duliu</cfFamilyNames>
<cfFirstNames>Octavian-Gheorghe</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>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Vergel</cfFamilyNames>
<cfFirstNames>Konstantin</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-55572</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-55572-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Culicov</cfFamilyNames>
<cfFirstNames>Otilia Ana</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-33640</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-33640-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>2017-02-01T24:00:00</cfStartDate>
<cfFamilyNames>Frontasyeva</cfFamilyNames>
<cfFirstNames>Marina</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>2017-02-01T24:00:00</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>