Concentrations of dissolved and particulate metals (Cu, Zn and Cd) were det
ermined in water samples collected during several rain events from the Rive
r Kleine Aa, a first order tributary to Lake Sempach (Central Switzerland).
Metal contents were also measured in soil cores obtained from fertilized a
nd unfertilized areas of the catchment and in liquid manure samples. The co
ntribution of farming activities to the metal loads was evaluated.
Because total metal concentrations were linearly related to water discharge
, rain events significantly contribute to the yearly metal load. During suc
h events, metals were predominantly associated to particles, but dissolved
copper constituted up to half of the Cu load at low flow rates. Dissolved C
u concentrations exceeded dissolved Zn concentrations at low discharge rate
s, and in experimental water extracts of the grassland soil. The dynamic be
havior of dissolved metals and dissolved organic carbon were linked in the
river water and in the soil extracts. Metal concentration of suspended part
icles decreased with increasing discharge to a constant level with Cu and Z
n contents similar to those of the grassland topsoil. Their Cd content was,
however, lower than in the soil. These observations suggest that the grass
land topsoil is the main source of dissolved and particulate trace metals i
n the river water.
Farming activities have caused metal accumulation, since the metal contents
in the grassland soil were highest at the surface and higher than in the f
orest soil at any depth. Based on a metal budget of the drainage area and o
n metal profiles of forest and grassland soil, it is concluded that frequen
t application of liquid manure with high metal concentrations was mainly re
sponsible for the high Cu and Zn content of the soil and the elevated loss
rates to the river, whereas air pollution mainly explained the elevated Cd
load of the drainage basin and the river water. (C) 2000 Elsevier Science L
td. All rights reserved.