3 research outputs found
Additional file 2: of Swiss ethnoveterinary knowledge on medicinal plants â a within-country comparison of Italian speaking regions with north-western German speaking regions
List of all reported plant species used to treat animals in West Alps regions. (PDF 139Â kb
Additional file 1: of Swiss ethnoveterinary knowledge on medicinal plants â a within-country comparison of Italian speaking regions with north-western German speaking regions
Use reports of Swiss farmers in a) Italian speaking regions and b) north western German speaking Cantons. (PDF 185Â kb
Mountain Cold-Trapping Increases Transfer of Persistent Organic Pollutants from Atmosphere to Cows’ Milk
Concentrations
of long-lived organic contaminants in snow, soil,
lake water, and vegetation have been observed to increase with altitude
along mountain slopes. Such enrichment, called “mountain cold-trapping”,
is attributed to a transition from the atmospheric gas phase to particles,
rain droplets, snowflakes, and Earth’s surface at the lower
temperatures prevailing at higher elevations. Milk sampled repeatedly
from cows that had grazed at three different altitudes in Switzerland
during one summer was analyzed for a range of persistent organic pollutants.
Mountain cold-trapping significantly increased air-to-milk transfer
factors of most analytes. As a result, the milk of cows grazing at
higher altitudes was more contaminated with substances that have regionally
uniform air concentrations (hexachlorobenzene, α-hexachlorocyclohexane,
endosulfan sulfate). For substances that have sources, and therefore
higher air concentrations, at lower altitudes (polychlorinated biphenyls,
γ-hexachlorocyclohexane), alpine milk has lower concentrations,
but not as low as would be expected without mountain cold-trapping.
Differences in the elevational gradients in soil concentrations and
air-to-milk transfer factors highlight that cold-trapping of POPs
in pastures is mostly due to increased gas-phase deposition as a result
of lower temperatures causing higher uptake capacity of plant foliage,
whereas cold-trapping in soils more strongly depends on wet and dry
particle deposition. Climatic influences on air-to-milk transfer of
POPs needs to be accounted for when using contamination of milk lipids
to infer contamination of the atmosphere