Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica

Wind-blown pollen (pollen rain) is a major contributor to element cycling in modern forests and aquatic ecosystems, particularly in high-latitude and acidic settings where nutrients are a limiting factor. The rich package of proteins, nitrogen and phosphorus residing within pollen is, nonetheless, i...

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Published in:	Grana
Main Authors:	Mcloughlin, Stephen, Shevchuk, Olena A., Windell, Megan M., Slater, Ben J.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Uppsala universitet, Paleobiologi 2024
Subjects:	Chytridiomycota oomycetes Prince Charles Mountains Bainmedart Coal Measures Guadalupian Lopingian saprotrophy permineralised peat Glossopteridales nutrient cycling Other Earth and Related Environmental Sciences Annan geovetenskap och miljÃ¶vetenskap Antarc* Antarctica
Online Access:	http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-528923 https://doi.org/10.1080/00173134.2024.2312610

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record_format	openpolar
spelling	ftuppsalauniv:oai:DiVA.org:uu-528923 2024-06-23T07:46:07+00:00 Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica Mcloughlin, Stephen Shevchuk, Olena A. Windell, Megan M. Slater, Ben J. 2024 application/pdf http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-528923 https://doi.org/10.1080/00173134.2024.2312610 eng eng Uppsala universitet, Paleobiologi Swedish Museum Nat Hist, Dept Palaeobiol, Stockholm, Sweden. Swedish Museum Nat Hist, Dept Palaeobiol, Stockholm, Sweden.;Stockholm Univ, Paleogenet Ctr, Stockholm, Sweden. Swedish Museum Nat Hist, Dept Palaeobiol, Stockholm, Sweden.;Stockholm Univ, Dept Phys Geog, Stockholm, Sweden. Grana, 0017-3134, 2024, 63:1, s. 3-15 orcid:0000-0001-7221-4540 orcid:0000-0002-5774-9114 http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-528923 doi:10.1080/00173134.2024.2312610 ISI:001184021700001 info:eu-repo/semantics/openAccess Chytridiomycota oomycetes Prince Charles Mountains Bainmedart Coal Measures Guadalupian Lopingian saprotrophy permineralised peat Glossopteridales nutrient cycling Other Earth and Related Environmental Sciences Annan geovetenskap och miljÃ¶vetenskap Article in journal info:eu-repo/semantics/article text 2024 ftuppsalauniv https://doi.org/10.1080/00173134.2024.2312610 2024-06-04T23:48:37Z Wind-blown pollen (pollen rain) is a major contributor to element cycling in modern forests and aquatic ecosystems, particularly in high-latitude and acidic settings where nutrients are a limiting factor. The rich package of proteins, nitrogen and phosphorus residing within pollen is, nonetheless, inaccessible to most organisms, owing to the indigestible sporopollenin walls. Saprotrophic breakdown by fungi, and some non-fungal microorganisms, can make nutrients bioavailable, and represents a key trophic link in element cycling and the transfer of organic carbon. Little is known about when micro-saprotrophs first adapted to exploit pollen, thus establishing this crucial step in the evolution of modern terrestrial ecosystems. One approach is to examine the rich fossil record of palynomorphs. Here we describe translucent bodies referable either to fungi (Chytridiomycota) or water moulds (Oomycetes) within the pollen of glossopterid gymnosperms and cordaitaleans, and fern spores from silicified Permian (Guadalupian-Lopingian) peats of the Toploje Member, Bainmedart Coal Measures, Prince Charles Mountains, Antarctica. These probable holocarpic thalli or oospores exploited the nutrient-rich microgametophyte tissue of dispersed miospores in high-palaeolatitude wetlands. The exceptional preservation of fossil microorganisms in permineralised peats offers insights into the deep-time evolution of intimate ecological relationships, otherwise known only among extant biotas. Permineralisation has preserved sub-micron details of these delicate and cryptic saprotrophs that likely played key roles in cycling nutrients in the acidic forest mires of the Permian. Our study reveals that the extensive recapture of spore/pollen-derived nutrients via saprotrophic digestion was already at play in the high-latitude ecosystems of the late Palaeozoic. Article in Journal/Newspaper Antarc* Antarctica Prince Charles Mountains Uppsala University: Publications (DiVA) Prince Charles Mountains ENVELOPE(67.246,67.246,-71.427,-71.427) Grana 63 1 3 15
institution	Open Polar
collection	Uppsala University: Publications (DiVA)
op_collection_id	ftuppsalauniv
language	English
topic	Chytridiomycota oomycetes Prince Charles Mountains Bainmedart Coal Measures Guadalupian Lopingian saprotrophy permineralised peat Glossopteridales nutrient cycling Other Earth and Related Environmental Sciences Annan geovetenskap och miljÃ¶vetenskap
spellingShingle	Chytridiomycota oomycetes Prince Charles Mountains Bainmedart Coal Measures Guadalupian Lopingian saprotrophy permineralised peat Glossopteridales nutrient cycling Other Earth and Related Environmental Sciences Annan geovetenskap och miljÃ¶vetenskap Mcloughlin, Stephen Shevchuk, Olena A. Windell, Megan M. Slater, Ben J. Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
topic_facet	Chytridiomycota oomycetes Prince Charles Mountains Bainmedart Coal Measures Guadalupian Lopingian saprotrophy permineralised peat Glossopteridales nutrient cycling Other Earth and Related Environmental Sciences Annan geovetenskap och miljÃ¶vetenskap
description	Wind-blown pollen (pollen rain) is a major contributor to element cycling in modern forests and aquatic ecosystems, particularly in high-latitude and acidic settings where nutrients are a limiting factor. The rich package of proteins, nitrogen and phosphorus residing within pollen is, nonetheless, inaccessible to most organisms, owing to the indigestible sporopollenin walls. Saprotrophic breakdown by fungi, and some non-fungal microorganisms, can make nutrients bioavailable, and represents a key trophic link in element cycling and the transfer of organic carbon. Little is known about when micro-saprotrophs first adapted to exploit pollen, thus establishing this crucial step in the evolution of modern terrestrial ecosystems. One approach is to examine the rich fossil record of palynomorphs. Here we describe translucent bodies referable either to fungi (Chytridiomycota) or water moulds (Oomycetes) within the pollen of glossopterid gymnosperms and cordaitaleans, and fern spores from silicified Permian (Guadalupian-Lopingian) peats of the Toploje Member, Bainmedart Coal Measures, Prince Charles Mountains, Antarctica. These probable holocarpic thalli or oospores exploited the nutrient-rich microgametophyte tissue of dispersed miospores in high-palaeolatitude wetlands. The exceptional preservation of fossil microorganisms in permineralised peats offers insights into the deep-time evolution of intimate ecological relationships, otherwise known only among extant biotas. Permineralisation has preserved sub-micron details of these delicate and cryptic saprotrophs that likely played key roles in cycling nutrients in the acidic forest mires of the Permian. Our study reveals that the extensive recapture of spore/pollen-derived nutrients via saprotrophic digestion was already at play in the high-latitude ecosystems of the late Palaeozoic.
format	Article in Journal/Newspaper
author	Mcloughlin, Stephen Shevchuk, Olena A. Windell, Megan M. Slater, Ben J.
author_facet	Mcloughlin, Stephen Shevchuk, Olena A. Windell, Megan M. Slater, Ben J.
author_sort	Mcloughlin, Stephen
title	Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
title_short	Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
title_full	Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
title_fullStr	Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
title_full_unstemmed	Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica
title_sort	evidence for saprotrophic digestion of glossopterid pollen from permian silicified peats of antarctica
publisher	Uppsala universitet, Paleobiologi
publishDate	2024
url	http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-528923 https://doi.org/10.1080/00173134.2024.2312610
long_lat	ENVELOPE(67.246,67.246,-71.427,-71.427)
geographic	Prince Charles Mountains
geographic_facet	Prince Charles Mountains
genre	Antarc* Antarctica Prince Charles Mountains
genre_facet	Antarc* Antarctica Prince Charles Mountains
op_relation	Grana, 0017-3134, 2024, 63:1, s. 3-15 orcid:0000-0001-7221-4540 orcid:0000-0002-5774-9114 http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-528923 doi:10.1080/00173134.2024.2312610 ISI:001184021700001
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1080/00173134.2024.2312610
container_title	Grana
container_volume	63
container_issue	1
container_start_page	3
op_container_end_page	15
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Evidence for saprotrophic digestion of glossopterid pollen from Permian silicified peats of Antarctica

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