Wood ash effects on growth and cadmium uptake in Deschampsia flexuosa (Wavy hair-grass)
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Wood ash effects on growth and cadmium uptake in Deschampsia flexuosa (Wavy hair-grass). / Kindtler, Nikolaj Lunding; Ekelund, Flemming; Rønn, Regin; Kjøller, Rasmus; Hovmand, Mads; Vestergård, Mette; Christensen, Søren; Johansen, Jesper Liengaard.
In: Environmental Pollution, 2019, p. 886-893.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Wood ash effects on growth and cadmium uptake in Deschampsia flexuosa (Wavy hair-grass)
AU - Kindtler, Nikolaj Lunding
AU - Ekelund, Flemming
AU - Rønn, Regin
AU - Kjøller, Rasmus
AU - Hovmand, Mads
AU - Vestergård, Mette
AU - Christensen, Søren
AU - Johansen, Jesper Liengaard
PY - 2019
Y1 - 2019
N2 - Wood ash recycling to forests is beneficial because it regains nutrients and prevents acidification, but wood ash application is restricted due to its cadmium (Cd) content. We question if Cd in wood ash represents a problem, since decreases in Cd bioavailability due to ash-induced pH changes may counteract increased total Cd concentration. We studied effects of wood ash (0, 3, 9 and 30 t ha −1 ) and lime (pH increase equivalent to the wood ash treatments) on growth and Cd uptake in Deschampsia flexuosa. After four months, we measured plant biomass and Cd accumulation, and extracted Cd from the soil using three different methods; HNO 3 (total), EDTA (chelator-based) and NH 4 NO 3 (salt-based). Wood ash and lime strongly stimulated plant growth. Cd concentration in the plant tissue decreased with wood ash and lime addition, and correlated positively with the NH 4 NO 3 extractable fraction of Cd in the soil. In contrast, HNO 3 and EDTA extracted more Cd with increased wood ash application. We conclude that wood ash amendment increases soil pH, total Cd concentration, nutrient levels and stimulates plant growth. However, it does not increase Cd accumulation in D. flexuosa, as pH-driven decreases in Cd bioavailability leads to reduced plant Cd uptake. Finally, soil bioavailable Cd is best determined using NH 4 NO 3 -extraction.
AB - Wood ash recycling to forests is beneficial because it regains nutrients and prevents acidification, but wood ash application is restricted due to its cadmium (Cd) content. We question if Cd in wood ash represents a problem, since decreases in Cd bioavailability due to ash-induced pH changes may counteract increased total Cd concentration. We studied effects of wood ash (0, 3, 9 and 30 t ha −1 ) and lime (pH increase equivalent to the wood ash treatments) on growth and Cd uptake in Deschampsia flexuosa. After four months, we measured plant biomass and Cd accumulation, and extracted Cd from the soil using three different methods; HNO 3 (total), EDTA (chelator-based) and NH 4 NO 3 (salt-based). Wood ash and lime strongly stimulated plant growth. Cd concentration in the plant tissue decreased with wood ash and lime addition, and correlated positively with the NH 4 NO 3 extractable fraction of Cd in the soil. In contrast, HNO 3 and EDTA extracted more Cd with increased wood ash application. We conclude that wood ash amendment increases soil pH, total Cd concentration, nutrient levels and stimulates plant growth. However, it does not increase Cd accumulation in D. flexuosa, as pH-driven decreases in Cd bioavailability leads to reduced plant Cd uptake. Finally, soil bioavailable Cd is best determined using NH 4 NO 3 -extraction.
KW - Bioaccumulation
KW - Bioavailability
KW - Cadmium
KW - Deschampsia flexuosa
KW - Lime
KW - Wood ash
U2 - 10.1016/j.envpol.2019.03.098
DO - 10.1016/j.envpol.2019.03.098
M3 - Journal article
C2 - 30965540
AN - SCOPUS:85063871781
SP - 886
EP - 893
JO - Environmental Pollution
JF - Environmental Pollution
SN - 0269-7491
ER -
ID: 217994689