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      Ordovician ash geochemistry and the establishment of land plants

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          Abstract

          The colonization of the terrestrial environment by land plants transformed the planetary surface and its biota, and shifted the balance of Earth’s biomass from the subsurface towards the surface. However there was a long delay between the formation of palaeosols (soils) on the land surface and the key stage of plant colonization. The record of palaeosols, and their colonization by fungi and lichens extends well back into the Precambrian. While these early soils provided a potential substrate, they were generally leached of nutrients as part of the weathering process. In contrast, volcanic ash falls provide a geochemically favourable substrate that is both nutrient-rich and has high water retention, making them good hosts to land plants. An anomalously extensive system of volcanic arcs generated unprecedented volumes of lava and volcanic ash (tuff) during the Ordovician. The earliest, mid-Ordovician, records of plant spores coincide with these widespread volcanic deposits, suggesting the possibility of a genetic relationship. The ash constituted a global environment of nutrient-laden, water-saturated soil that could be exploited to maximum advantage by the evolving anchoring systems of land plants. The rapid and pervasive inoculation of modern volcanic ash by plant spores, and symbiotic nitrogen-fixing fungi, suggests that the Ordovician ash must have received a substantial load of the earliest spores and their chemistry favoured plant development. In particular, high phosphorus levels in ash were favourable to plant growth. This may have allowed photosynthesizers to diversify and enlarge, and transform the surface of the planet.

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          Early Proterozoic climates and plate motions inferred from major element chemistry of lutites

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            Glomalean fungi from the Ordovician.

            Fossilized fungal hyphae and spores from the Ordovician of Wisconsin (with an age of about 460 million years) strongly resemble modern arbuscular mycorrhizal fungi (Glomales, Zygomycetes). These fossils indicate that Glomales-like fungi were present at a time when the land flora most likely only consisted of plants on the bryophytic level. Thus, these fungi may have played a crucial role in facilitating the colonization of land by plants, and the fossils support molecular estimates of fungal phylogeny that place the origin of the major groups of terrestrial fungi (Ascomycota, Basidiomycota, and Glomales) around 600 million years ago.
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              A search for life on Earth from the Galileo spacecraft.

              In its December 1990 fly-by of Earth, the Galileo spacecraft found evidence of abundant gaseous oxygen, a widely distributed surface pigment with a sharp absorption edge in the red part of the visible spectrum, and atmospheric methane in extreme thermodynamic disequilibrium; together, these are strongly suggestive of life on Earth. Moreover, the presence of narrow-band, pulsed, amplitude-modulated radio transmission seems uniquely attributable to intelligence. These observations constitute a control experiment for the serach for extraterrestrial life by modern interplanetary spacecraft.
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                Author and article information

                Contributors
                Journal
                Geochem Trans
                Geochem. Trans
                Geochemical Transactions
                BioMed Central
                1467-4866
                2012
                28 August 2012
                : 13
                : 7
                Affiliations
                [1 ]School of Geosciences, University of Aberdeen, Aberdeen, AB24 3UE, UK
                [2 ]Victoria College, Cranmore Park, Belfast, BT9 6JA, UK
                Article
                1467-4866-13-7
                10.1186/1467-4866-13-7
                3485180
                22925460
                7f20f7df-f099-4421-ace5-5120841b59c2
                Copyright ©2012 Parnell and Foster; licensee BioMed Central Ltd.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 18 June 2012
                : 21 August 2012
                Categories
                Research Article

                Geophysics
                ash geochemistry,tuff,land plants,chemical index of alteration,phosphorus,biomass,ordovician
                Geophysics
                ash geochemistry, tuff, land plants, chemical index of alteration, phosphorus, biomass, ordovician

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