THE USE OF A COMMON EPIPHYTIC LICHEN AS A BIOINDICATOR OF ATMOSPHERIC INPUTS TO 2 VENEZUELAN CLOUD FORESTS

The chemistry of epiphytic lichens was determined in two Venezuelan cloud forests adjacent to the Caracas Valley at Altos de Pipe and El Avila National Park. This is the second component of a two-part study examining the chemistry of fogs and their effects on sensitive biota in these forests. The widespread lichen Parmotrema madagascariaceum was chosen as an indicator of trace metal input. Background lichen collections and transplant experiments were tarried out to evaluate spatial trends in atmospheric depositon of trace metals at different altitudes and exposures of the two montane locations. Elevated concentratons of metals including Pb and Zn were seen in lichen tissue and associated bark. Lead levels in lichens reached 190 mu g g(-1) dry wt. Lichens transplanted from relatively 'clean' to more polluted sites showed significant increases of metals, particularly Pb. Increases of up to 6.3 mu g Pb g(-1)mo(-1) after 6 and 10 months were recorded relative to background and in situ lichen material. In contrast, when lichens were reciprocally transplanted in nylon net bags from less to more exposed sites there was a significant decrease in Pb and Zn concentrations after 6 and 10 months. With long-term exposure to elevated concentrations of these trace metals epiphytic lichens, as well as other sensitive cloud forest biota, may be at risk of decline.