ECOLOGICAL PHYSIOLOGY OF THE LICHEN <i>HYPOGYMNIA PHYSODES</i>

Farrar, J. F.

doi:10.1111/j.1469-8137.1976.tb01503.x

Cited by 45 publications

(36 citation statements)

References 18 publications

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“…This difference from our results may be caused partly by an approx. four to five times higher ratio of thallus dry weight per ml buffer used by Farrar (1976a). A doubling of the ratio in our experiments at low temperatures led to a slight but significant decrease in the fluorescence yield (data not shown).…”

Section: mentioning

confidence: 71%

“…The decline in photosynthesis and chlorophyll fluorescence may be caused by damage due to anoxia (Farrar, 1976a) and may be increased by oxygen depletion in the medium, which could be stronger at a high density. Beyond that, high temperature stress may cause severe physiological damage to cell membranes (Kershaw, 1985).…”

Section: mentioning

confidence: 99%

“…Alternating periods of drying and wetting appear to be necessary for the persistence of a stable symbiosis (Farrar, 1976b ;Nash, 1996). After prolonged saturation some damage can be observed, which may be caused by oxygen deficiency (Farrar, 1976a). In addition, sensitivity to prolonged saturation is temperature-dependent (Ried, 1960a ;Farrar, 1976a).…”

Section: mentioning

confidence: 99%

“…After prolonged saturation some damage can be observed, which may be caused by oxygen deficiency (Farrar, 1976a). In addition, sensitivity to prolonged saturation is temperature-dependent (Ried, 1960a ;Farrar, 1976a). Dietz & Hartung (1998) investigated abscisic acid (ABA) contents in different lichen thalli in relation to their water content.…”

Section: mentioning

confidence: 99%

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The effect of abscisic acid on chlorophyll fluorescence in lichens under extreme water regimes

Dietz

Hartung

1999

New Phytologist

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Chlorophyll fluorescence measurements were used to test whether externally applied abscisic acid (ABA) has an effect on the desiccation tolerance of lichens and their sensitivity to constant water saturation. A surplus of ABA did not decrease the time required to regain full photosynthetic capacity after prolonged dry periods. However, an effect of ABA could be observed when lichens were permanently hydrated at moderately high temperatures. Lichens suffered less from constant saturation if ABA was added to the incubation medium. These results suggest a positive effect of ABA on membrane function.

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Section: mentioning

confidence: 71%

Section: mentioning

confidence: 99%

Section: mentioning

confidence: 99%

Section: mentioning

confidence: 99%

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The effect of abscisic acid on chlorophyll fluorescence in lichens under extreme water regimes

Dietz

Hartung

1999

New Phytologist

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“…Studies of photosynthesis in lichens have been made by a variety of techniques including the measurement of "C uptake (6)(7)(8), changes in gas volume both by manometry (17), a cartesian diver system (16), and 02 concentration with an 02 electrode (2).…”

mentioning

confidence: 99%

Carbon Dioxide Exchange in Lichens

Green

Snelgar²

1981

Plant Physiol.

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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 linear at 1000 microliters per liter CO2. Very low CO2 compensation values (5 microliters per liter) were obtained under some conditions but the value varied between thalli and with thallus water content. The results differ from previous studies which reported low CO2 saturation levels (200 microliters per liter) and no apparent effect of water content. It is suggested that some of these differences may result from the use of a discrete sampling injection infrared gas analyzer system in the earlier studies and an assessment is made of the influence of nonsaturating CO2 levels, lack of cuvette ventilation, and data presentation for this technique.Studies of photosynthesis in lichens have been made by a variety of techniques including the measurement of "C uptake (6-8), changes in gas volume both by manometry (17), a cartesian diver system (16), and 02 concentration with an 02 electrode (2).Most of these methods have the disadvantage that the lichens are subjected to highly unnatural conditions, such as immersion in buffer solutions and exposure to CO2 and 02 concentrations, which differ markedly from ambient levels. The results of '4C uptake experiments also present interpretation difficulties as the gross photosynthetic rate of lichens is substantially greater than the net photosynthetic rate. More recently, most studies of the rates of CO2 exchange have used an infrared gas analyzer system, sometimes with an adaptation of a flow-through cell (9) to allow simultaneous determination of CO2 exchange and water content.However, the low resistance to water loss common to all lichens (3), coupled with the close interdependence of gas exchange rates and thallus water content, led to the use of low flow rates and, in some instances, this resulted in substantial systematic errors (see Larson and Kershaw (13) for discussion).Several authors (1, 4, 13) have described independently a method of adapting IRGA2 for use as discrete sample analyzers whereby small volumes of gas samples (1-3 ml) can be injected, via a carrier gas, directly into the analysis tube of an IRGA. The 'This investigation was supported by equipment grants to TGAG and a University Grants Committee postgraduate studentship to WPS from the University Grants Committee. 2Abbreviation: IRGA, infrared gas analyzer; NPR, net photosynthetic rate. maximum deflection of the IRGA is found to be proportional to the quantity of CO2 injected, thus, for constant injection volume, it is proportional to the CO2 concentration of the injected gas.Recently, thi...

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Throughfall Chemistry and Canopy Processing Mechanisms

Schaefer

Reiners

1990

Acidic Precipitation

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ECOLOGICAL PHYSIOLOGY OF THE LICHEN HYPOGYMNIA PHYSODES

Cited by 45 publications

References 18 publications

The effect of abscisic acid on chlorophyll fluorescence in lichens under extreme water regimes

The effect of abscisic acid on chlorophyll fluorescence in lichens under extreme water regimes

Carbon Dioxide Exchange in Lichens

Throughfall Chemistry and Canopy Processing Mechanisms

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