Jennifer M K O'Keefe, Matthew J Pound, Ingrid C Romero, Noelia B Nuñez Otaño, Martha E Gibson, Jessica McCoy, Margaret E Alden, C Jolene Fairchild, Julia Fitzpatrick, Emily Hodgson, Taylor Horsfall, Savannah Jones, June E Lennex-Stone, Christopher A Marsh, Alyssa A Patel, Tyler M Spears, Laikin Tarlton, Liberty F Smallwood, O L VanderEspt, Jeremyah R Cabrera, Cortland F Eble, William C Rember, James E Starnes, Mac H Alford, Alyson Brink, Sophie Warny
{"title":"美国中新世的夏季-湿润水文循环:来自真菌化石的新证据。","authors":"Jennifer M K O'Keefe, Matthew J Pound, Ingrid C Romero, Noelia B Nuñez Otaño, Martha E Gibson, Jessica McCoy, Margaret E Alden, C Jolene Fairchild, Julia Fitzpatrick, Emily Hodgson, Taylor Horsfall, Savannah Jones, June E Lennex-Stone, Christopher A Marsh, Alyssa A Patel, Tyler M Spears, Laikin Tarlton, Liberty F Smallwood, O L VanderEspt, Jeremyah R Cabrera, Cortland F Eble, William C Rember, James E Starnes, Mac H Alford, Alyson Brink, Sophie Warny","doi":"10.34133/research.0481","DOIUrl":null,"url":null,"abstract":"<p><p>Hydrologic reconstructions from North America are largely unknown for the Middle Miocene. Examination of fungal palynomorph assemblages coupled with traditional plant-based palynology permits delineation of local, as opposed to regional, climate signals and provides a baseline for study of ancient fungas. Here, the Fungi in a Warmer World project presents paleoecology and paleoclimatology of 351 fungal morphotypes from 3 sites in the United States: the Clarkia Konservat-Lagerstätte site (Idaho), the Alum Bluff site (Florida), and the Bouie River site (Mississippi). Of these, 83 fungi are identified as extant taxa and 41 are newly reported from the Miocene. Combining new plant-based paleoclimatic reconstructions with funga-based paleoclimate reconstructions, we demonstrate cooling and hydrologic changes from the Miocene climate optimum to the Serravallian. In the southeastern United States, this is comparable to that reconstructed with pollen and paleobotany alone. In the northwestern United States, cooling is greater than indicated by other reconstructions and hydrology shifts seasonally, from no dry season to a dry summer season. Our results demonstrate the utility of fossil fungi as paleoecologic and paleoclimatic proxies and that warmer than modern geological time intervals do not match the \"wet gets wetter, dry gets drier\" paradigm. Instead, both plants and fungi show an invigorated hydrological cycle across mid-latitude North America.</p>","PeriodicalId":21120,"journal":{"name":"Research","volume":"7 ","pages":"0481"},"PeriodicalIF":11.0000,"publicationDate":"2024-09-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11420851/pdf/","citationCount":"0","resultStr":"{\"title\":\"Summer-Wet Hydrologic Cycle during the Middle Miocene of the United States: New Evidence from Fossil Fungi.\",\"authors\":\"Jennifer M K O'Keefe, Matthew J Pound, Ingrid C Romero, Noelia B Nuñez Otaño, Martha E Gibson, Jessica McCoy, Margaret E Alden, C Jolene Fairchild, Julia Fitzpatrick, Emily Hodgson, Taylor Horsfall, Savannah Jones, June E Lennex-Stone, Christopher A Marsh, Alyssa A Patel, Tyler M Spears, Laikin Tarlton, Liberty F Smallwood, O L VanderEspt, Jeremyah R Cabrera, Cortland F Eble, William C Rember, James E Starnes, Mac H Alford, Alyson Brink, Sophie Warny\",\"doi\":\"10.34133/research.0481\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Hydrologic reconstructions from North America are largely unknown for the Middle Miocene. Examination of fungal palynomorph assemblages coupled with traditional plant-based palynology permits delineation of local, as opposed to regional, climate signals and provides a baseline for study of ancient fungas. Here, the Fungi in a Warmer World project presents paleoecology and paleoclimatology of 351 fungal morphotypes from 3 sites in the United States: the Clarkia Konservat-Lagerstätte site (Idaho), the Alum Bluff site (Florida), and the Bouie River site (Mississippi). Of these, 83 fungi are identified as extant taxa and 41 are newly reported from the Miocene. Combining new plant-based paleoclimatic reconstructions with funga-based paleoclimate reconstructions, we demonstrate cooling and hydrologic changes from the Miocene climate optimum to the Serravallian. In the southeastern United States, this is comparable to that reconstructed with pollen and paleobotany alone. In the northwestern United States, cooling is greater than indicated by other reconstructions and hydrology shifts seasonally, from no dry season to a dry summer season. Our results demonstrate the utility of fossil fungi as paleoecologic and paleoclimatic proxies and that warmer than modern geological time intervals do not match the \\\"wet gets wetter, dry gets drier\\\" paradigm. 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Summer-Wet Hydrologic Cycle during the Middle Miocene of the United States: New Evidence from Fossil Fungi.
Hydrologic reconstructions from North America are largely unknown for the Middle Miocene. Examination of fungal palynomorph assemblages coupled with traditional plant-based palynology permits delineation of local, as opposed to regional, climate signals and provides a baseline for study of ancient fungas. Here, the Fungi in a Warmer World project presents paleoecology and paleoclimatology of 351 fungal morphotypes from 3 sites in the United States: the Clarkia Konservat-Lagerstätte site (Idaho), the Alum Bluff site (Florida), and the Bouie River site (Mississippi). Of these, 83 fungi are identified as extant taxa and 41 are newly reported from the Miocene. Combining new plant-based paleoclimatic reconstructions with funga-based paleoclimate reconstructions, we demonstrate cooling and hydrologic changes from the Miocene climate optimum to the Serravallian. In the southeastern United States, this is comparable to that reconstructed with pollen and paleobotany alone. In the northwestern United States, cooling is greater than indicated by other reconstructions and hydrology shifts seasonally, from no dry season to a dry summer season. Our results demonstrate the utility of fossil fungi as paleoecologic and paleoclimatic proxies and that warmer than modern geological time intervals do not match the "wet gets wetter, dry gets drier" paradigm. Instead, both plants and fungi show an invigorated hydrological cycle across mid-latitude North America.
期刊介绍:
Research serves as a global platform for academic exchange, collaboration, and technological advancements. This journal welcomes high-quality research contributions from any domain, with open arms to authors from around the globe.
Comprising fundamental research in the life and physical sciences, Research also highlights significant findings and issues in engineering and applied science. The journal proudly features original research articles, reviews, perspectives, and editorials, fostering a diverse and dynamic scholarly environment.