Linking modern-day relicts to a Miocene mangrove community of western Amazonia

The Amazon drainage basin is extremely biodiverse, yet the origins of this diversification remain much debated. One of the possible drivers of plant diversity are the marine incursions that reached Amazonia during the Miocene and connected western Amazonia with the Caribbean. In the Miocene, large p...

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Bibliographic Details
Published in:Palaeobiodiversity and palaeoenvironments 2021-03, Vol.101 (1), p.123-140
Main Authors: Sciumbata, Matteo, Weedon, James T., Bogota-Angel, Giovanni, Hoorn, Carina
Format: Article
Language:English
Subjects:
Animal Systematics/Taxonomy/Biogeography
Aquatic mammals
Aquatic plants
Biodiversity
Clustering
Composition
Dolphins
Drainage
Drainage basins
Earth and Environmental Science
Earth Sciences
Electron microscopy
Eustatic changes
Fish
Flora
Fossils
Freshwater
Freshwater & Marine Ecology
Freshwater environments
Freshwater mammals
Inland water environment
Light microscopy
Mangroves
Marine mammals
Marine plants
Microscopy
Miocene
Optical microscopy
Original Paper
Paleontology
Palynology
Plant diversity
Plant Systematics/Taxonomy/Biogeography
Plants
Pollen
Relict species
Scanning electron microscopy
Taxa
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Summary:The Amazon drainage basin is extremely biodiverse, yet the origins of this diversification remain much debated. One of the possible drivers of plant diversity are the marine incursions that reached Amazonia during the Miocene and connected western Amazonia with the Caribbean. In the Miocene, large parts of western Amazonia were covered by extensive wetlands that, during high eustatic episodes, were episodically colonised by coastal taxa such as mangroves. In this paper, we hypothesise that some of these mangrove community taxa could adapt to freshwater conditions enriching the modern plant composition of the Amazon drainage basin. To assess the past plant composition in the basin, we statistically analyse the palynological composition of two Miocene sections from western Amazonia that were especially rich in presumed mangrove pollen ( Zonocostites ramonae ). We identify the pollen taxa that coexisted with this community using clustering methods supported by Kendall’s W coefficient concordance analysis. Our results suggest that at least fourteen taxa are closely associated with Zonocostites ramonae ( Cricotriporites guianensis , Deltoidospora adriennis , Psilabrevitricolporites devriesii , Psiladiporites redundantis , Psilamonocolpites amazonicus , P. rinconii , Psilatricolporites crassoexinatus , P. labiatus , P. operculatus , Psilatriporites corstanjei , Retitricolporites kaarsii , Rhoipites guianensis , Rhoipites hispidus , and Tetracolporopollenites transversalis ). We also illustrate the pollen of this fossil mangrove, and some of its associated fossil taxa, using light microscopy (LM) and scanning electron microscopy (SEM), and we compare them with potential nearest living relatives (NLR). We found that pollen of the modern mangrove Rhizophora mangle is the NLR of Zonocostites ramonae. Of the three associated taxa, the best analogy is between Psilabrevitricolporites devriesii and Humiria balsamifera , the latter a taxon best known from the coastal restinga vegetation in Brazil and Surinam. Tentatively, we assign Forsteronia spp. as NLR for Cricotriporites guianensis, and we propose Euterpe sp. for Psilamonocolpites rinconii (but also Oenocarpus , Hyospathe , Prestoea , and Sabinaria are affine). Based on this study we propose that, at least for some fossil taxa of the Miocene mangrove environment, there are still NLR or relict species that occur in inland Amazonia and along the South American coastline. We thus conclude that the Amazonian flora, like
ISSN:1867-1594
1867-1608
DOI:10.1007/s12549-020-00470-z