Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)

Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)

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The impact of the Pleistocene climate oscillations on the structure of biodiversity in tropical regions remains poorly understood. In this study, the forest refuge theory is examined at the molecular level in Milicia excelsa, a dioecious tree with a continuous range throughout tropical Africa. Eight nuclear microsatellites (nSSRs) and two sequences and one microsatellite from chloroplast DNA (cpDNA) showed a deep divide between samples from Benin and those from Lower Guinea. This suggests that these populations were isolated in separate geographical regions, probably for several glacial cycles of the Pleistocene, and that the nuclear gene pools were not homogenized despite M. excelsa's wind-pollination syndrome. The divide could also be related to seed dispersal patterns, which should be largely determined by the migration behaviour of M. excelsa's main seed disperser, the frugivorous bat Eidolon helvum. Within Lower Guinea, a north-south divide, observed with both marker types despite weak genetic structure (nSSRs FST = 0.035, cpDNA GST = 0.506), suggested the existence of separate Pleistocene refugia in Cameroon and the Gabon/Congo region. We inferred a pollen-to-seed dispersal distance ratio of c. 1.8, consistent with wide-ranging gene dispersal by both wind and bats. Simulations in an Approximate Bayesian Computation framework suggested low nSSR and cpDNA mutation rates, but imprecise estimates of other demographic parameters, probably due to a substantial gene flow between the Lower Guinean gene pools. The decline of genetic diversity detected in some Gabonese populations could be a consequence of the relatively recent establishment of a closed canopy forest, which could negatively affect M. excelsa's reproductive system. © 2010 Blackwell Publishing Ltd.

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Main Authors: Daïnou, K., Bizoux, J. P., Doucet, J. L., Mahy, G., Hardy, O. J., Heuertz, M.
Format: journal article biblioteca
Language:eng
Published: 2010
Online Access:http://hdl.handle.net/20.500.12792/6030
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spelling dig-inia-es-20.500.12792-60302020-12-15T09:55:07Z Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae) Daïnou, K. Bizoux, J. P. Doucet, J. L. Mahy, G. Hardy, O. J. Heuertz, M. The impact of the Pleistocene climate oscillations on the structure of biodiversity in tropical regions remains poorly understood. In this study, the forest refuge theory is examined at the molecular level in Milicia excelsa, a dioecious tree with a continuous range throughout tropical Africa. Eight nuclear microsatellites (nSSRs) and two sequences and one microsatellite from chloroplast DNA (cpDNA) showed a deep divide between samples from Benin and those from Lower Guinea. This suggests that these populations were isolated in separate geographical regions, probably for several glacial cycles of the Pleistocene, and that the nuclear gene pools were not homogenized despite M. excelsa's wind-pollination syndrome. The divide could also be related to seed dispersal patterns, which should be largely determined by the migration behaviour of M. excelsa's main seed disperser, the frugivorous bat Eidolon helvum. Within Lower Guinea, a north-south divide, observed with both marker types despite weak genetic structure (nSSRs FST = 0.035, cpDNA GST = 0.506), suggested the existence of separate Pleistocene refugia in Cameroon and the Gabon/Congo region. We inferred a pollen-to-seed dispersal distance ratio of c. 1.8, consistent with wide-ranging gene dispersal by both wind and bats. Simulations in an Approximate Bayesian Computation framework suggested low nSSR and cpDNA mutation rates, but imprecise estimates of other demographic parameters, probably due to a substantial gene flow between the Lower Guinean gene pools. The decline of genetic diversity detected in some Gabonese populations could be a consequence of the relatively recent establishment of a closed canopy forest, which could negatively affect M. excelsa's reproductive system. © 2010 Blackwell Publishing Ltd. 2020-10-22T22:08:38Z 2020-10-22T22:08:38Z 2010 journal article http://hdl.handle.net/20.500.12792/6030 10.1111/j.1365-294X.2010.04831.x eng Attribution-NonCommercial-ShareAlike 4.0 International http://creativecommons.org/licenses/by-nc-sa/4.0/ open access
institution INIA ES
collection DSpace
country España
countrycode ES
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region Europa del Sur
libraryname Biblioteca del INIA España
language eng
description The impact of the Pleistocene climate oscillations on the structure of biodiversity in tropical regions remains poorly understood. In this study, the forest refuge theory is examined at the molecular level in Milicia excelsa, a dioecious tree with a continuous range throughout tropical Africa. Eight nuclear microsatellites (nSSRs) and two sequences and one microsatellite from chloroplast DNA (cpDNA) showed a deep divide between samples from Benin and those from Lower Guinea. This suggests that these populations were isolated in separate geographical regions, probably for several glacial cycles of the Pleistocene, and that the nuclear gene pools were not homogenized despite M. excelsa's wind-pollination syndrome. The divide could also be related to seed dispersal patterns, which should be largely determined by the migration behaviour of M. excelsa's main seed disperser, the frugivorous bat Eidolon helvum. Within Lower Guinea, a north-south divide, observed with both marker types despite weak genetic structure (nSSRs FST = 0.035, cpDNA GST = 0.506), suggested the existence of separate Pleistocene refugia in Cameroon and the Gabon/Congo region. We inferred a pollen-to-seed dispersal distance ratio of c. 1.8, consistent with wide-ranging gene dispersal by both wind and bats. Simulations in an Approximate Bayesian Computation framework suggested low nSSR and cpDNA mutation rates, but imprecise estimates of other demographic parameters, probably due to a substantial gene flow between the Lower Guinean gene pools. The decline of genetic diversity detected in some Gabonese populations could be a consequence of the relatively recent establishment of a closed canopy forest, which could negatively affect M. excelsa's reproductive system. © 2010 Blackwell Publishing Ltd.
format journal article
author Daïnou, K.
Bizoux, J. P.
Doucet, J. L.
Mahy, G.
Hardy, O. J.
Heuertz, M.
spellingShingle Daïnou, K.
Bizoux, J. P.
Doucet, J. L.
Mahy, G.
Hardy, O. J.
Heuertz, M.
Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
author_facet Daïnou, K.
Bizoux, J. P.
Doucet, J. L.
Mahy, G.
Hardy, O. J.
Heuertz, M.
author_sort Daïnou, K.
title Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
title_short Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
title_full Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
title_fullStr Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
title_full_unstemmed Forest refugia revisited NSSRs and cpDNA sequences support historical isolation in a wide-spread African tree with high colonization capacity, Milicia excelsa (Moraceae)
title_sort forest refugia revisited nssrs and cpdna sequences support historical isolation in a wide-spread african tree with high colonization capacity, milicia excelsa (moraceae)
publishDate 2010
url http://hdl.handle.net/20.500.12792/6030
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AT bizouxjp forestrefugiarevisitednssrsandcpdnasequencessupporthistoricalisolationinawidespreadafricantreewithhighcolonizationcapacitymiliciaexcelsamoraceae
AT doucetjl forestrefugiarevisitednssrsandcpdnasequencessupporthistoricalisolationinawidespreadafricantreewithhighcolonizationcapacitymiliciaexcelsamoraceae
AT mahyg forestrefugiarevisitednssrsandcpdnasequencessupporthistoricalisolationinawidespreadafricantreewithhighcolonizationcapacitymiliciaexcelsamoraceae
AT hardyoj forestrefugiarevisitednssrsandcpdnasequencessupporthistoricalisolationinawidespreadafricantreewithhighcolonizationcapacitymiliciaexcelsamoraceae
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