Počet záznamov: 1
The role of organo-zeolitic material in supporting phytoremediation of a copper mining waste dump
SYS 0267336 LBL 02337^^^^^2200301^^^450 005 20240510100226.5 014 $a 000456473700006 $2 CCC 014 $a 000456473700006 $2 WOS CC. SCIE 014 $a BCI201900249613 $2 BIOSIS Citation Index 014 $a 30666893 $2 MEDLINE 014 $a 30666893 $2 PubMed 014 $a 2-s2.0-85060251692 $2 SCOPUS 017 70
$a 10.1080/15226514.2018.1474440 $2 DOI 035 $a biblio/110572 $2 CREPC2 100 $a 20190214d2018 m y slo 03 ba 101 0-
$a eng 102 $a GB 200 1-
$a The role of organo-zeolitic material in supporting phytoremediation of a copper mining waste dump $f Gheorghe Damian, Peter Andráš ... [et al.] 330 0-
$a The effect of applying organo-zeolitic (OZ) amendment in supporting phytoremediation of a copper mine waste dump, using a substrate obtained from L'ubietov a, Central Slovakia, was studied. Three plant growth substrates were prepared: (i) the untreated substrate sample from the contaminated site (D–O), (ii) the contaminated sample treated with OZ material, with 82% D–O and 18% OZ (DOþOZ), (iii) the soil from a reference site (R). The largest amount of dry biomass was obtained from the DOþOZ sample. Whole plants grown on the original substrate (D–O) were accumulating a high concentration of Cu (3057mg kg 1). The plants root grown on DOþOZ sample accumulated highest Cu concentrations (3127mg kg 1), but in their aerial part, only 83.54mg kg 1 was accumulated. The translocation factor’s lower than the unit values prove that these plant species do not transfer heavy metals from root to shoot, this is why their heavy metal excluder role is evident. The value of the bioconcentration factor of the DOþOZ root/substrate obtained to be greater than the unit for Cu, Pb, Zn, Cd, Co, Ni, and Mn, suggests the OZ material’s positive contribution in the phytoremediation process that can be applied for these waste dumps. 463 -1
$1 001 umb_un_cat*0289362 $1 200 1 $a International Journal of Phytoremediation $v Vol. 20, no. 13 (2018), pp. 1307-1316 $1 210 $a Philadelphia $c Taylor & Francis $d 2018 $1 011 $a 1522-6514 $1 011 $a 1549-7879 606 0-
$3 umb_un_auth*0000315 $a waste 606 0-
$3 umb_un_auth*0253344 $a bioconcentration 606 0-
$3 umb_un_auth*0269803 $a translocation factor 608 $3 umb_un_auth*0273282 $a články $X journal articles 615 $n 502 $a Životné prostredie 675 $a 502 700 -1
$3 umb_un_auth*0259247 $a Damian $b Gheorghe $4 070 $9 30 701 -1
$3 umb_un_auth*0120546 $a Andráš $b Peter $p UMBFP04 $4 070 $9 30 $f 1953- $T Katedra životného prostredia 701 -1
$3 umb_un_auth*0273997 $a Damian $b Floarea $4 070 $9 5 701 -0
$3 umb_un_auth*0004164 $a Turisová $b Ingrid $p UMBFP09 $4 070 $9 30 $f 1965- $g Ondrejová $T Katedra biológie a environmentálnych štúdií 701 -1
$3 umb_un_auth*0273998 $a Iepure $b Gheorghe $4 070 $9 5 801 $a SK $b BB301 $g AACR2 $9 unimarc sk 856 $u https://www.tandfonline.com/doi/full/10.1080/15226514.2018.1474440 $a Link na zdrojový dokument T85 $x existuji fulltexy
Počet záznamov: 1