1981
DOI: 10.1104/pp.68.1.199
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Carbon Dioxide Exchange in Lichens

Abstract: The relationship between net photosynthesis and CO2 concentration was investigated for four species of lichen using an infrared gas analyzer operating in a closed loop system. All species showed a linear relationship at low CO2 levels (100 microliters per liter) with CO2 saturation levels being in excess of 400 microliters per liter. Detailed studies of Sticta latifrons showed a strong influence of thallus water content which resulted in the net photosynthetic response at high water contents still being nearly… Show more

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Cited by 25 publications
(4 citation statements)
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“…7B). These results are surprising since, bearing in mind the results from higher plants (Harbinson et al 1990;, a linear relationship might well be expected for lichens because they often show little evidence of photorespiration, can have very low CO 2 compensation values and can have CO 2 concentrating mechanisms (Snelgar and Green 1980;Green and Snelgar 1981;Badger et al 1993;Palmqvist et al 1994).…”
Section: Discussionmentioning
confidence: 63%
“…7B). These results are surprising since, bearing in mind the results from higher plants (Harbinson et al 1990;, a linear relationship might well be expected for lichens because they often show little evidence of photorespiration, can have very low CO 2 compensation values and can have CO 2 concentrating mechanisms (Snelgar and Green 1980;Green and Snelgar 1981;Badger et al 1993;Palmqvist et al 1994).…”
Section: Discussionmentioning
confidence: 63%
“…Many lichens studied have their NP at optimal water content saturated with CO 2 at close to present ambient levels (400 ppm; Green and Snelgar 1981), whereas NP of bryophytes is typically not saturated at 1000 ppm CO 2 (Pannewitz et al 2005;Glime 2007). The compensating CO 2 concentration (the value when NP matches respiratory loss) is around 100 ppm for most bryophytes as might be expected for typical C3 plants.…”
Section: Co 2 Concentrationmentioning
confidence: 99%
“…Many lichens appear to be saturated at lower CO 2 levels than L. muralis. Examples include Flavoparmelia caperata (400 ppm; Balaguer et al 1999), Sticta latifrons, Pseudocyphellaria billardierii, Peltigera dolichorhiza and Sphaerophorus ramulosum (450 ppm; Green & Snelgar 1981). These species might be expected to show little or F.…”
Section: Discussionmentioning
confidence: 99%