Title of article
Use of stable nitrogen isotope fractionation to estimate denitrification in small constructed wetlands treating agricultural runoff
Author/Authors
Anne Kristine S?vika، نويسنده , , ?، نويسنده , , P?l Tore M?rkvedb، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
9
From page
157
To page
165
Abstract
Constructed wetlands (CWs) in the agricultural landscape reduce non-point source pollution
through removal of nutrients and particles. The objective of this study was to evaluate if
measurements of natural abundance of 15NO3 − can be used to determine the fate of NO3 − in
different types of small CWs treating agricultural runoff. Nitrogen removal was studied in
wetland trenches filled with different filter materials (T1 — sand and gravel; T3 — mixture of
peat, shell sand and light-weight aggregates; T8 — barley straw) and a trench formed as a
shallow pond (T4). The removal was highest during summer and lowest during autumn and
winter. Trench T8 had the highest N removal during summer. Measurements of the natural
abundance of 15NinNO3 − showed that denitrificationwas not significant during autumn/winter,
while it was present in all trenches during summer, but only important for nitrogen removal in
trench T8. The 15N enrichment factors of NO3 − in this study ranged from−2.5 to −5.9‰(T3 and
T8, summer), thus smaller than enrichment factors found in laboratory tests of isotope
discrimination in denitrification, but similar to factors found for denitrification in groundwater
and a large CW. The low enrichment factors compared to laboratory studies was attributed to
assimilation in plants/microbes as well as diffusion effect. Based on a modified version of the
method presented by Lund et al. [Lund LJ, Horne AJ, Williams AE, Estimating denitrification in a
large constructed wetland using stable nitrogen isotope ratios. Ecol Engineer 2000; 14: 67–76],
denitrification and assimilation were estimated to account for 53 to 99 and 1 to 47%,
respectively, of the total N removal during summer. This method is, however, based on a
number of assumptions, and there is thus a need for a better knowledge of the effect of plant
uptake, microbial assimilation as well as nitrification on N isotopic fractionation before this
method can be used to evaluate the contribution of dinitrification in CWs.
Keywords
Agricultural runoffConstructed wetlandCWNatural abundanceNitrateNitrogenNO3 ?Stable nitrogen isotopes
Journal title
Science of the Total Environment
Serial Year
2008
Journal title
Science of the Total Environment
Record number
986296
Link To Document