Journal ArticleDOI
Water vapor uptake and photosynthesis of lichens: performance differences in species with green and blue-green algae as phycobionts.
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Carbon isotope ratios of the lichen thalli suggest that a definite ecological difference exists in water status-dependent photosynthesis of species with green and blue-green phycobionts.Abstract:
Dry lichen thalli were enclosed in gas exchange chambers and treated with an air stream of high relative humidity (96.5 to near 100%) until water potential equilibrium was reached with the surrounding air (i.e., no further increase of weight through water vapor uptake). They were then sprayed with liquid water. The treatment took place in the dark and was interrupted by short periods of light. CO2 exchange during light and dark respiration was monitored continuously. With no exception water uptake in all of the lichen species with green algae as phycobionts lead to reactivation of the photosynthetic metabolism. Further-more, high rates of CO2 assimilation were attained without the application of liquid water. To date 73 species with different types of Chlorophyceae phycobionts have been tested in this and other studies. In contrast, hydration through high air humidity alone failed to stimulate positive net photosynthesis in any of the lichens with blue-green algae (Cyanobacteria). These required liquid water for CO2 assimilation. So far 33 species have been investigated, and all have behaved similarly. These have included gelatinous as well as heteromerous species, most with Nostoc phycobionts but in addition some with three other Cyanophyceae phycobionts. The same phycobiont performance differences existed even within the same genus (e.g. Lobaria, Peltigera) between species pairs containing green or blue-green phycobionts respectively. Free living algae also seem to behave in a similar manner. Carbon isotope ratios of the lichen thalli suggest that a definite ecological difference exists in water status-dependent photosynthesis of species with green and blue-green phycobionts. The underlying biochemical or biophysical mechanisms are not yet understood. Apparently, a fundamental difference in the structure of the two groups of algae is involved.read more
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Journal ArticleDOI
Carbon Isotope Discrimination and Photosynthesis
TL;DR: In this article, the physical and enzymatic bases of carbone isotope discrimination during photosynthesis were discussed, noting how knowledge of discrimination can be used to provide additional insight into photosynthetic metabolism and the environmental influences on that process.
Journal ArticleDOI
Microbiotic Crusts and Ecosystem Processes
R. D. Evans,Jeffrey R. Johansen +1 more
TL;DR: Greenhouse studies have found that crusts can enhance seed germination, seedling survivorship, and plant nutrient status, but further experiments are needed under field conditions.
Journal ArticleDOI
A new analysis of Mars "Special Regions": findings of the second MEPAG Special Regions Science Analysis Group (SR-SAG2)
John D. Rummel,David Beaty,Melissa A. Jones,Corien Bakermans,Nadine G. Barlow,Penelope J. Boston,Vincent Chevrier,Benton C. Clark,Jean Pierre Paul de Vera,Raina V. Gough,John E. Hallsworth,James W. Head,V. Hipkin,Thomas L. Kieft,Alfred S. McEwen,Michael T. Mellon,Jill A. Mikucki,Wayne L. Nicholson,Christopher R. Omelon,Ronald C. Peterson,Eric E. Roden,Barbara Sherwood Lollar,Kenneth L. Tanaka,D. Viola,James J. Wray +24 more
TL;DR: Significant changes in knowledge of the capabilities of terrestrial organisms and the existence of possibly habitable martian environments have led to a new appreciation of where Mars Special Regions may be identified and protected.
Journal ArticleDOI
Taxonomic composition and photosynthetic characteristics of the biological soil crusts covering sand dunes in the western Negev Desert
TL;DR: The laboratory studies that aim to characterize the microphyte community composition and metabolic features of crusts covering dunes in the Negev find that crusts are formed by at least one moss, four blue-green bacteria and two green algal species with Microcoleus sociatus being dominant.
Journal ArticleDOI
Tansley Review No. 117
TL;DR: This review summarizes data on growth, carbon gain and carbon expenditures in lichens, with particular emphasis on factors determining the photosynthetic capacity of their photobionts.
References
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Fractionation of the carbon isotopes during photosynthesis
TL;DR: In this paper, an attempt is made to explain quantitatively the fractionation of the carbon isotopes, 12C and 13C, in plants, which is mainly determined by the relative magnitudes of diffusional resistance and the resistance of the carboxylation reaction to the flux of carbon dioxide into the plant.
Journal ArticleDOI
Experimentell-ökologische Untersuchungen an Flechten der Negev-Wüste: II. CO2-Gaswechsel und Wasserhaushalt von Ramalina maciformis (Del.) Bory am natürlichen Standort während der sommerlichen Trockenperiode
Journal ArticleDOI
Moisture content and CO2 exchange of lichens. II. Depression of net photosynthesis in Ramalina maciformis at high water content is caused by increased thallus carbon dioxide diffusion resistance.
Otto L. Lange,J. D. Tenhunen +1 more
TL;DR: It is concluded that the carboxylation capacity of the lichen is not affected by high contents of liquid water, and the depression of CO2 uptake of the water saturated lichen at lower (e.g. natural) ambient CO2 must be due exclusively to increased resistance to CO2 diffusion from the external air to the sites of car boxylation.