Effects of a simulated acid rain episode on photosynthesis and recovery in the caribou-forage lichens, Cladina stellaris (Opiz.) Brodo and Cladina rangiferina (L.) Wigg

The effect of simulated acid rain on net photosynthesis of two common boreal forest lichens, Cladina stellaris and Cladina rangiferina, was investigated. Repeated measurements of net photosynthetic rate (NPR) were conducted on podetial tips over a week-long period to assess both immediate response t...

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Bibliographic Details
Published inThe New phytologist Vol. 107; no. 3; pp. 567 - 575
Main Authors Scott, M.G, Hutchinson, T.C
Format Journal Article
LanguageEnglish
Published Oxford, UK Academic Press 01.11.1987
Blackwell Publishing Ltd
Subjects
acid deposition
Acid rain
boreal forest
Boreal forests
caribou‐forage lichens
Cladina rangiferina
Cladina stellaris
Growing seasons
indicator species
Lichens
Photosynthesis
Plants
Rain
Thallus
Urban ecology
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Summary:The effect of simulated acid rain on net photosynthesis of two common boreal forest lichens, Cladina stellaris and Cladina rangiferina, was investigated. Repeated measurements of net photosynthetic rate (NPR) were conducted on podetial tips over a week-long period to assess both immediate response to an acid spray treatment (2:1 H2SO4:HNO3; pH range 2.5 to 3.5) and subsequent photosynthetic recovery after the solution of artificial rain had been rinsed out of the cells. A control group, which was treated with pH 5.6 episodes, was used to monitor natural fluctuations in NPR over time in a laboratory environment. Although lowered photosynthetic rates were observed for both species immediately following a low pH treatment, differences between groups were not significant. Three days following treatment, however, significant decreases in photosynthesis of up to 40% of pretreatment values were found for pH 2.5 and 3.0-sprayed C. stellaris, and a decline in NPR of 25% was recorded for pH 3.0treated C. rangiferina. Six days after the simulated rain episode, a 20% recovery of photosynthesis had occurred in pH 2.5-treated C. stellaris, while pH 3.0-sprayed C. rangiferina underwent a 20% stimulation of NPR compared to the pretreatment value. In spite of the demonstrated ability to recover partially following a single low pH event, it is hypothesized that even temporary declines in NPR could restrict growth potential and biomass accumulation of boreal cyptogamic species which have a short growing season and photosynthesize only when moisture is available. Results of the study indicate that C. stellaris is more sensitive to single low pH events than is C. rangiferina.
ISSN:0028-646X
1469-8137
DOI:10.1111/j.1469-8137.1987.tb02927.x