Diel and seasonal courses of ambient carbon dioxide concentration and their effect on productivity of the epilithic lichen  Lecanora muralis in a temperate, suburban habitat

Lange, O. L.; Green, T. G. Allan

doi:10.1017/s0024282908007676

Cited by 14 publications

(11 citation statements)

References 21 publications

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“…We can also argue that these two factors, which lead to the overall increase of oxidative stress, are sufficient to weaken or even eliminate the diaspores and young individuals eventually grown in periods of the year when the environmental conditions are more favorable. Finally, it should be kept in mind that the arid mesoclimate of urban environments would heavily reduce the length of the wet, metabolically active period that is a key factor for the total carbon gain of the lichen symbiosis, and thereby for thallus growth (Lange and Green 2008). This might be a further important reason, in addition to pollution, that explains the slow rate of lichen recolonization in urban environments.…”

Section: Discussionmentioning

confidence: 99%

Water availability modifies tolerance to photo-oxidative pollutants in transplants of the lichen Flavoparmelia caperata

et al. 2011

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The hypothesis that a daily water supply allows a lichen to endure the negative effects of environmental concentrations of NO(x) and O(3) was tested with a transplant experiment. Five groups (0, A-D) of Flavoparmelia caperata samples derived from the same thalli were used for destructive, pre-exposure measurements (0), or exposed for 5 weeks in the rural collection site (A), and in a urban site with high levels of NO(x) and O(3) (B-D). Two groups (C, D) were daily watered half an hour before the daily peak of NO(x) (C), and O(3) (D). The comparison between pre- and post-exposure measurements of stress biomarkers revealed that the different thallus hydration regime modified the pollution tolerance as well as the physiology of the exposed samples. The non-watered group B suffered an evident decrease in F(v)/F(m) and reduced glutathione, but increased ion leakage, whereas the watered groups C and D showed only decreased non-photosynthetic-quenching, possibly derived from NO(x) exposure. Ozone, which was higher in the rural than in the urban site, did not significantly affect the lichen metabolism. Our results re-open the discussion on the so-called "drought hypothesis", which suggests that the lichen desert observed in urban areas of central and eastern Europe is more a matter of dry microclimate than of air pollution.

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Section: Discussionmentioning

confidence: 99%

Water availability modifies tolerance to photo-oxidative pollutants in transplants of the lichen Flavoparmelia caperata

et al. 2011

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“…Increased photosynthesis may allow for greater production of biomass, secondary osmoprotectants, and pigments (e.g., melanin, mycosporines) that could enhance stress tolerance relative to biocrusts under current ambient conditions. The effects of altered CO 2 concentrations would be strongly dependent upon biocrust moisture content and its effect on the diffusion of CO 2 (e.g., Lange 2002;Lange and Green 2008), and net photosynthesis responses observed under laboratory conditions may not translate into an observable effect on biocrust function or structure in the field. In addition, biocrust autotrophs may not consistently experience an increase in CO 2 when atmospheric CO 2 concentrations increase, as soil surface and soil atmosphere CO 2 concentrations can be much greater than that of the atmosphere (e.g., Pumpanen et al 2003).…”

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confidence: 99%

Biocrusts in the Context of Global Change

et al. 2016

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A variety of global environmental changes-including increased temperature, altered precipitation regimes, increased nutrient deposition, and elevated atmospheric CO 2 concentrations-are affecting ecosystems worldwide, and drylands are no exception. Multiple lines of evidence suggest that arid and semiarid ecosystems may experience particularly large changes in climate (IPCC 2013;Garfin et al. 2014) and that interactions among global change factors (e.g., elevated CO 2 Â warming) could have strong synergistic effects in these ecosystems (Shaw

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“…The results are reported in the last column of Table 1. Of course, the productive hydration periods for lichens are often early mornings during clear weather and rainy/cloudy weather (Lange and Green 2008). The total direct irradiation, however, represents an important stressor which moulds the photosynthetic apparatus and asks for efficient photoprotection mechanisms for energy dissipation (Veerman et al 2007).…”

Section: Characterization Of the Lichen Growth Habitatsmentioning

confidence: 99%

Photosynthesis in chlorolichens: the influence of the habitat light regime

Piccotto

Tretiach

2010

J Plant Res

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The hypothesis that CO(2) gas exchange and chlorophyll a fluorescence (ChlaF) of lichens vary according to the light regimes of their original habitat, as observed in vascular plants, was tested by analysing the photosynthetic performance of 12 populations of seven dorsoventral, foliose lichens collected from open, south-exposed rocks to densely shaded forests. Light response curves were induced at optimum thallus water content and ChlaF emission curves at the species-specific photon flux at which the quantum yield of CO(2) assimilation is the highest and is saturating the photosynthetic process. Photosynthetic pigments were quantified in crude extracts. The results confirm that the maximum rate of gross photosynthesis is correlated with the chlorophyll content of lichens, which is influenced by light as well as by nitrogen availability. Like leaves, shade tolerant lichens emit more ChlaF than sun-loving ones, whereas the photosynthetic quantum conversion is higher in the latter.

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Diel and seasonal courses of ambient carbon dioxide concentration and their effect on productivity of the epilithic lichen Lecanora muralis in a temperate, suburban habitat

Cited by 14 publications

References 21 publications

Water availability modifies tolerance to photo-oxidative pollutants in transplants of the lichen Flavoparmelia caperata

Water availability modifies tolerance to photo-oxidative pollutants in transplants of the lichen Flavoparmelia caperata

Biocrusts in the Context of Global Change

Photosynthesis in chlorolichens: the influence of the habitat light regime

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