Lichens were collected from three l

Lichens were collected from three low-elevation sites in the western Cascade Range: HJ Andrews, OR (clean) and Bull Run,
OR, and Pack Forest, WA (moderately enhanced nitrogen and sulfur deposition). The latter sites were within 50 km of Portland
and Seattle/Centralia urban-industrial areas, respectively. Tissue concentrations of sulfur, nitrogen, and other macronutrients; rates
of net carbon uptake; concentrations of photosynthetic pigments; and thallus density were correlated with season and seasonal
changes in Platismatia glauca. Ion concentrations in precipitation and total wet deposition were measured from natural settings.
Concentrations of depositional ions in precipitation, including NO3

and NH4
+, were generally highest at Bull Run and Pack Forest;
SO4
2
concentrations and acidity were highest at Pack Forest. Total wet deposition was higher in the winter rainy season than the
dry summer season at all three sites. Lichens adapted physiologically and morphologically to the higher light intensity and the
warm, dry climate of summer through decreased optimal water content for CO2 uptake, increased concentrations of carotenoids
and increased thallus density. Compared to the clean site, the sites with enhanced deposition were associated in P. glauca with
year-round higher tissue concentrations of N, S, K, and Na; higher concentrations of total chlorophyll and carotenoids; higher
OD435/415 ratios; higher CO2 uptake and lower thallus density in summer; and a general absence of other sensitive lichens. These
results indicate that moderate levels of fertilizing air pollutants can stimulate carbon uptake and provide protection against
chlorophyll degradation in air pollution-tolerant lichens of the Pacific Northwest, especially during the dry summer season.
D 2004 Elsevier B.V. All rights reserved.