Samuel Vanden Abeele1,2,3, Steven B Janssens4,5, Rosalía Piñeiro6, Olivier J Hardy7. 1. Meise Botanic Garden, Nieuwelaan 38, 1860, Meise, Belgium. samuelvdabeele@gmail.com. 2. Evolutionary Biology and Ecology, Faculté Des Sciences, Université Libre de Bruxelles, Av. F.D. Roosevelt 50, 1050, Brussels, Belgium. samuelvdabeele@gmail.com. 3. School of Integrative Plant Sciences, Section of Plant Biology and the L.H. Bailey Hortorium, Cornell University, Ithaca, NY, 14853, USA. samuelvdabeele@gmail.com. 4. Meise Botanic Garden, Nieuwelaan 38, 1860, Meise, Belgium. 5. Plant Conservation and Population Biology, KU, Leuven, Belgium. 6. Geography, College of Life and Environmental Sciences, University of Exeter, Laver Building, North Park Road, Exeter, EX4 4QE, UK. 7. Evolutionary Biology and Ecology, Faculté Des Sciences, Université Libre de Bruxelles, Av. F.D. Roosevelt 50, 1050, Brussels, Belgium.
Abstract
BACKGROUND: Comparative phylogeographic studies on rainforest species that are widespread in Central Africa often reveal genetic discontinuities within and between biogeographic regions, indicating (historical) barriers to gene flow, possibly due to repeated and/or long-lasting population fragmentation during glacial periods according to the forest refuge hypothesis. The impact of forest fragmentation seems to be modulated by the ecological amplitude and dispersal capacities of each species, resulting in different demographic histories. Moreover, while multiple studies investigated the western part of Central Africa (Lower Guinea), few have sufficiently sampled the heart of the Congo Basin (Congolia). In this study, we look for genetic discontinuities between populations of the widespread tropical tree Scorodophloeus zenkeri Harms (Fabaceae, Detarioideae) in Central Africa. Additionally, we characterize genetic diversity, selfing rate and fine-scale spatial genetic structure within populations to estimate the gene dispersal capacity of the species. RESULTS: Clear intraspecific genetic discontinuities occur throughout the species' distribution range, with two genetic clusters in Congolia and four in Lower Guinea, and highest differentiation occurring between these bioregions. Genetic diversity is higher in Lower Guinea than Congolia. A spatial genetic structure characteristic of isolation by distance occurs within the genetic clusters. This allowed us to estimate gene dispersal distances (σg) for this outcrossing species with ballistic seed dispersal, which range between 100 and 250 m in areas where S. zenkeri occurs in high densities, and are in the low range of σg values compared to other tropical trees. Gene dispersal distances are larger in low density populations, probably due to extensive pollen dispersal capacity. CONCLUSIONS: Fragmentation of S. zenkeri populations seems to have occurred not only in Lower Guinea but also in the Congo Basin, though not necessarily according to previously postulated forest refuge areas. The lower genetic diversity in Congolia compared to Lower Guinea parallels the known gradient of species diversity, possibly reflecting a stronger impact of past climate changes on the forest cover in Congolia. Despite its bisexual flowers, S. zenkeri appears to be mostly outcrossing. The limited dispersal observed in this species implies that genetic discontinuities resulting from past forest fragmentation can persist for a long time before being erased by gene flow.
BACKGROUND: Comparative phylogeographic studies on rainforest species that are widespread in Central Africa often reveal genetic discontinuities within and between biogeographic regions, indicating (historical) barriers to gene flow, possibly due to repeated and/or long-lasting population fragmentation during glacial periods according to the forest refuge hypothesis. The impact of forest fragmentation seems to be modulated by the ecological amplitude and dispersal capacities of each species, resulting in different demographic histories. Moreover, while multiple studies investigated the western part of Central Africa (Lower Guinea), few have sufficiently sampled the heart of the Congo Basin (Congolia). In this study, we look for genetic discontinuities between populations of the widespread tropical tree Scorodophloeus zenkeri Harms (Fabaceae, Detarioideae) in Central Africa. Additionally, we characterize genetic diversity, selfing rate and fine-scale spatial genetic structure within populations to estimate the gene dispersal capacity of the species. RESULTS: Clear intraspecific genetic discontinuities occur throughout the species' distribution range, with two genetic clusters in Congolia and four in Lower Guinea, and highest differentiation occurring between these bioregions. Genetic diversity is higher in Lower Guinea than Congolia. A spatial genetic structure characteristic of isolation by distance occurs within the genetic clusters. This allowed us to estimate gene dispersal distances (σg) for this outcrossing species with ballistic seed dispersal, which range between 100 and 250 m in areas where S. zenkeri occurs in high densities, and are in the low range of σg values compared to other tropical trees. Gene dispersal distances are larger in low density populations, probably due to extensive pollen dispersal capacity. CONCLUSIONS: Fragmentation of S. zenkeri populations seems to have occurred not only in Lower Guinea but also in the Congo Basin, though not necessarily according to previously postulated forest refuge areas. The lower genetic diversity in Congolia compared to Lower Guinea parallels the known gradient of species diversity, possibly reflecting a stronger impact of past climate changes on the forest cover in Congolia. Despite its bisexual flowers, S. zenkeri appears to be mostly outcrossing. The limited dispersal observed in this species implies that genetic discontinuities resulting from past forest fragmentation can persist for a long time before being erased by gene flow.
Entities:
Keywords:
Gene dispersal; Glacial forest refugia; Phylogeography; Population genetics; Rainforest; Selfing; Spatial genetic structure; Tropical Africa
Authors: Andrew J Helmstetter; Kevin Béthune; Narcisse G Kamdem; Bonaventure Sonké; Thomas L P Couvreur Journal: Proc Natl Acad Sci U S A Date: 2020-12-04 Impact factor: 12.779
Authors: Marc S M Sosef; Gilles Dauby; Anne Blach-Overgaard; Xander van der Burgt; Luís Catarino; Theo Damen; Vincent Deblauwe; Steven Dessein; John Dransfield; Vincent Droissart; Maria Cristina Duarte; Henry Engledow; Geoffrey Fadeur; Rui Figueira; Roy E Gereau; Olivier J Hardy; David J Harris; Janneke de Heij; Steven Janssens; Yannick Klomberg; Alexandra C Ley; Barbara A Mackinder; Pierre Meerts; Jeike L van de Poel; Bonaventure Sonké; Tariq Stévart; Piet Stoffelen; Jens-Christian Svenning; Pierre Sepulchre; Rainer Zaiss; Jan J Wieringa; Thomas L P Couvreur Journal: BMC Biol Date: 2017-03-07 Impact factor: 7.431
Authors: Pierre Ploton; Frédéric Mortier; Nicolas Barbier; Guillaume Cornu; Maxime Réjou-Méchain; Vivien Rossi; Alfonso Alonso; Jean-François Bastin; Nicolas Bayol; Fabrice Bénédet; Pulchérie Bissiengou; Georges Chuyong; Benoît Demarquez; Jean-Louis Doucet; Vincent Droissart; Narcisse Guy Kamdem; David Kenfack; Hervé Memiaghe; Libalah Moses; Bonaventure Sonké; Nicolas Texier; Duncan Thomas; Donatien Zebaze; Raphaël Pélissier; Sylvie Gourlet-Fleury Journal: Sci Data Date: 2020-07-08 Impact factor: 8.501
Authors: Rosalía Piñeiro; Olivier J Hardy; Carolina Tovar; Shyam Gopalakrishnan; Filipe Garrett Vieira; M Thomas P Gilbert Journal: Proc Natl Acad Sci U S A Date: 2021-07-06 Impact factor: 11.205