Water relations and photosynthesis of desert microorganisms and lichens
I have designed an improved method of matric water potential regulation in which relative humidity is controlled by the temperature difference between a saturated atmosphere and a connected experimental chamber. Versatility, ease of operation, and lack of interference with the gaseous composition of...
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ftfloridasu:oai:diginole.lib.fsu.edu:fsu_76261 2024-06-09T07:40:57+00:00 Water relations and photosynthesis of desert microorganisms and lichens Palmer, Robert Jerry, Jr. Florida State University 1987 74 p. https://diginole.lib.fsu.edu/islandora/object/fsu%3A76261/datastream/TN/view/Water%20relations%20and%20photosynthesis%20of%20desert%20microorganisms%20and%20lichens.jpg eng eng Dissertation Abstracts International fsu:76261 (UnM) AAI8805685 (IID) FSDT3086786 (fedora) fsu:76261 https://diginole.lib.fsu.edu/islandora/object/fsu%3A76261/datastream/TN/view/Water%20relations%20and%20photosynthesis%20of%20desert%20microorganisms%20and%20lichens.jpg On campus use only. Biology Microbiology Text 1987 ftfloridasu 2024-05-10T08:08:12Z I have designed an improved method of matric water potential regulation in which relative humidity is controlled by the temperature difference between a saturated atmosphere and a connected experimental chamber. Versatility, ease of operation, and lack of interference with the gaseous composition of the experimental atmosphere are the major advantages of this system over other methods such as salt solutions. The water potential control system was used to investigate the role of thallus structure in CO$\sb2$ uptake of two hot desert lichen species under water stress. Photosynthesis of isolated lichen phycobiont cells at low water potentials was also examined. Within the lichen thallus, matric water potentials higher than ambient appear to result from physical properties of the fungal matrix. Increased water availability supports photosynthesis by the enclosed phycobiont at low ambient phycobiont (Trebouxia sp.) photosynthesize well under water stress. The combination of increased internal water availability and desiccation-tolerant phycobiont cells results in the survival of these lichens in an extremely arid climate. The two species occupy different microhabitats as a consequence of differences in CO$\sb2$ uptake under saturating conditions and hydrophobicity. The role of the endolithic habitat (enclosure) in the water economy of the cryptoendolithic microbial communities from the Ross Desert (Antarctica) and the Negev Desert (Israel) was examined. Colonized sandstone rocks adsorb or condense water vapor in pore spaces. This water supports photosynthesis by the Ross Desert cryptoendolithic lichen community but does not create conditions suitable for photosynthesis of Negev Desert cryptoendolithic cyanobacteria. The difference between the two communities is that cyanobacteria are similar to other prokaryotes: water potentials approaching that of liquid water are necessary for bacterial metabolism whereas eukaryotes typically function under water stress. Source: Dissertation Abstracts International, Volume: ... Text Antarc* Antarctica Florida State University: DigiNole Commons |
institution |
Open Polar |
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Florida State University: DigiNole Commons |
op_collection_id |
ftfloridasu |
language |
English |
topic |
Biology Microbiology |
spellingShingle |
Biology Microbiology Water relations and photosynthesis of desert microorganisms and lichens |
topic_facet |
Biology Microbiology |
description |
I have designed an improved method of matric water potential regulation in which relative humidity is controlled by the temperature difference between a saturated atmosphere and a connected experimental chamber. Versatility, ease of operation, and lack of interference with the gaseous composition of the experimental atmosphere are the major advantages of this system over other methods such as salt solutions. The water potential control system was used to investigate the role of thallus structure in CO$\sb2$ uptake of two hot desert lichen species under water stress. Photosynthesis of isolated lichen phycobiont cells at low water potentials was also examined. Within the lichen thallus, matric water potentials higher than ambient appear to result from physical properties of the fungal matrix. Increased water availability supports photosynthesis by the enclosed phycobiont at low ambient phycobiont (Trebouxia sp.) photosynthesize well under water stress. The combination of increased internal water availability and desiccation-tolerant phycobiont cells results in the survival of these lichens in an extremely arid climate. The two species occupy different microhabitats as a consequence of differences in CO$\sb2$ uptake under saturating conditions and hydrophobicity. The role of the endolithic habitat (enclosure) in the water economy of the cryptoendolithic microbial communities from the Ross Desert (Antarctica) and the Negev Desert (Israel) was examined. Colonized sandstone rocks adsorb or condense water vapor in pore spaces. This water supports photosynthesis by the Ross Desert cryptoendolithic lichen community but does not create conditions suitable for photosynthesis of Negev Desert cryptoendolithic cyanobacteria. The difference between the two communities is that cyanobacteria are similar to other prokaryotes: water potentials approaching that of liquid water are necessary for bacterial metabolism whereas eukaryotes typically function under water stress. Source: Dissertation Abstracts International, Volume: ... |
author2 |
Palmer, Robert Jerry, Jr. Florida State University |
format |
Text |
title |
Water relations and photosynthesis of desert microorganisms and lichens |
title_short |
Water relations and photosynthesis of desert microorganisms and lichens |
title_full |
Water relations and photosynthesis of desert microorganisms and lichens |
title_fullStr |
Water relations and photosynthesis of desert microorganisms and lichens |
title_full_unstemmed |
Water relations and photosynthesis of desert microorganisms and lichens |
title_sort |
water relations and photosynthesis of desert microorganisms and lichens |
publishDate |
1987 |
url |
https://diginole.lib.fsu.edu/islandora/object/fsu%3A76261/datastream/TN/view/Water%20relations%20and%20photosynthesis%20of%20desert%20microorganisms%20and%20lichens.jpg |
genre |
Antarc* Antarctica |
genre_facet |
Antarc* Antarctica |
op_relation |
Dissertation Abstracts International fsu:76261 (UnM) AAI8805685 (IID) FSDT3086786 (fedora) fsu:76261 https://diginole.lib.fsu.edu/islandora/object/fsu%3A76261/datastream/TN/view/Water%20relations%20and%20photosynthesis%20of%20desert%20microorganisms%20and%20lichens.jpg |
op_rights |
On campus use only. |
_version_ |
1801369351674134528 |