Trace element concentration and speciation in selected urban soils in New York City

Abstract

A long history of urbanization and industrialization has affected trace elements in New York City (NYC) soils. Selected NYC pedons were analyzed by aqua regia microwave digestion and sequential chemical extraction as follows: water soluble (WS); exchangeable (EX); specifically sorbed/carbonate bound (SS/CAR); oxide-bound (OX); organic/sulfide bound (OM/S). Soils showed a range in properties (e.g., pH3.9 to 7.4). Sum of total extractable (SUMTE) trace elements was higher in NYC parks compared to Bronx River watershed sites. NYC surface horizons showed higher total extractable (TE) levels compared to US non-anthropogenic soils. TE levels increased over 10year in some of the relatively undisturbed and mostly wooded park sites. Surface horizons of park sites with long-term anthropogenic inputs showed elevated TE levels vs. subsurface horizons. Conversely, some Bronx River watershed soils showed increased concentrations with depth, reflective of their formation in a thick mantle of construction debris increasing with depth and intermingled with anthrotransported soil materials. Short-range variability was evident in primary pedons and satellite samples (e.g., Pb 253 ± 143mg/kg). Long-range variability was indicated by PbTE (348 versus 156mg/kg) and HgTE (1 versus 0.3mg/kg) concentrations varying several-fold in the same soil but in different geographic locations. Relative predominance of fractions: RES (37%) > SS/CAR (22%) > OX (20%) > OM/S (10%) > EX (7%) > WS (4%). WS and EX fractions were greatest for Hg (7%) and Cd (14%), respectively. RES was predominant fraction for Co, Cr, Ni, and Zn (41 to 51%); SS/CAR for Cd and Pb (40 and 63%); OM/S for Cu and Hg (36 and 37%); and OX for As (59%).