[Botany • 2019] Pre‐Pleistocene Origin of Phylogeographical Breaks in African Rain Forest Trees: New Insights from Greenwayodendron (Annonaceae) Phylogenomics

Greenwayodendron sp.

in Migliore, Kaymak, Mariac, Couvreur, et al., 2019.

 DOI: 10.1111/jbi.13476    twitter.com/TLPCouvreur

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Abstract

Aim: 

Palaeoecological records indicate that Pleistocene glaciations affected the African rain forest, probably causing its fragmentation, which could explain phylogeographical breaks documented in many tree species. This refuge hypothesis was further tested through species distribution models, hindcasting persistence during the Last Glacial Maximum. However, previous studies failed to estimate with sufficient precision the divergence time between phylogeographical entities to confirm their Pleistocene origin. Developing genomic tools on a representative tree of mature rain forests, we test if parapatric genetic clusters documented in widespread tree species can be interpreted as the legacy of past population fragmentation during the last glacial period(s).

Location: Tropical Africa, Guineo‐Congolian forests.

Taxon: Greenwayodendron (Annonaceae).

Methods:

To further test the Pleistocene refuge hypothesis by molecular dating, we sequenced the plastome of 145 individuals of the shade‐tolerant rain forest tree Greenwayodendron suaveolens and congeneric species, and genotyped the same samples using nuclear microsatellites to identify genetic clusters.

Results: 

Five plastid phylogroups of G. suaveolens occur in parapatry throughout Central Africa, following a spatial pattern generally congruent with genetic clusters. Four of them diverged 3.5–4.5 Ma, whereas the fifth one, located in the Cameroon volcanic line (CVL), diverged 8.3 Ma, in the range of divergence times between Greenwayodendron species, highlighting the key role of the CVL in hosting ancient lineages. Within phylogroups, most nodes were dated from 0.9 to 3.2 Myr and a correlation between haplotype divergence and spatial distance was still perceptible, indicating a slow population dynamic.

Main conclusions: 

The phylogeographical structures of Central African trees probably established during the Pliocene or early Pleistocene, and while they might have been reinforced during subsequent glacial–interglacial cycles, interglacial phases did not lead to genetic homogenization. Therefore, interpreting phylogeographical patterns of African trees must account for a much deeper past than previously assumed, and cannot be limited to the last glacial period.

Keywords: African rain forests, evolutionary history, Greenwayodendron, High‐throughput sequencing, molecular dating, nuclear microsatellites, phylogeography, plastome captures, Pleistocene glaciations

CONCLUSIONS: 

The well‐resolved plastome phylogeny of Greenwayodendron species challenges the accepted view of Central African forest historical dynamics by showing that phylogeographical patterns of mature forest trees can have a very ancient origin, pre‐dating the Pleistocene. Our results call for a reassessment of the reference time‐scale traditionally used to interpret phylogeographical patterns in African rain forest trees, earlier than the last glacial cycle. The long generation time of shade‐tolerant tree species, their limited dispersal capacity and their incapacity to colonize open habitats probably explain their slow spatial dynamics, which in turn induces genetic signatures of very ancient historical or biogeographical events.

    

Jérémy Migliore, Esra Kaymak, Cédric Mariac, Thomas L. P. Couvreur, Brandet‐Junior Lissambou, Rosalía Piñeiro and Olivier J. Hardy. 2019. Pre‐Pleistocene Origin of Phylogeographical Breaks in African Rain Forest Trees: New Insights from Greenwayodendron (Annonaceae) Phylogenomics. Journal of Biogeography.  DOI: 10.1111/jbi.13476  

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[Botany • 2014] Revision of the African genus Uvariastrum (Annonaceae)

Figure 2. Species of Uvariastrum.
a Uvariastrum insculptum, Ivory Coast (photo O. Lachenaud, no specimen) b Uvariastrum pierreanum, fruit, Gabon (photo: TLP Couvreur, (Sosef 2034)) c U. pierreanum, Cameroon (photo: TLP Couvreur; Couvreur 454)
d Uvariastrum zenkeri; cauliflorous flowers; Cameroon (photo: XM van der Burgt (van der Burgt 590)) e U. zenkeri, flower bud; Cameroon (photo Sonneck, no specimen) f U. zenkeri, mature flower; Cameroon (photo Sonneck, no specimen) g U. zenkeri, detail of receptacle; Cameroon (photo Sonneck, no specimen).

doi: 10.3897/phytokeys.33.5907

Abstract

The genus Uvariastrum (Annonaceae) is restricted to continental Africa and is characterized by sepals with folded margins, few carpels and numerous stamens. The genus is mainly found in the tropical lowland rain forests of Africa, with one species growing in a drier woodland habitat. The species name Uvariastrum pynaertii De Wild is reduced into synonymy with Uvariastrum zenkeri Engl. & Diels. Uvaraistrum neglectum Paiva and Uvariastrum modestum Dielsare transferred to the genus Uvaria leading to two new combinations: Uvaria modesta (Diels) Couvreur, comb. nov. and Uvaria paivana Couvreur, nom. nov. Five species are currently recognized in Uvariastrum. The present revision, the first of the genus for over 100 years, provides an overview of previously published information and discussions on morphology, taxonomy and palynology. Preliminary conservation status assessments are provided for each species, as well as diagnostic keys for fruiting and flowering material as well as detailed species descriptions. Furthermore, all species are illustrated by line drawings and all species are mapped.

Keywords: Taxonomy, IUCN conservation, Monodoreae, Uvaria

Thomas L.P. Couvreur. 2014. Revision of the African genus Uvariastrum (Annonaceae).

PhytoKeys. 33: 1-40. doi: 10.3897/phytokeys.33.5907

[Botany • 2009] Mwasumbia alba • Molecular and Morphological Characterization of A New Monotypic Genus of Annonaceae from Tanzania

Mwasumbia alba Couvreur & D.M.Johnson

Photos: TLP Couvreur | Annonaceae.myspecies.info 

Abstract

The coastal lowland rain forests of eastern Africa are well known for their high levels of plant endemism. A new genus of Annonaceae, Mwasumbia, is described from Tanzania, underscoring this high biodiversity and represented by a single species, Mwasumbia alba. The new genus presents several morphological characters suggesting a close relationship to two other African genera, Greenwayodendron and Polyceratocarpus. Maximum parsimony and Bayesian molecular phylogenetic analyses based on two plastid markers, rbcL and the trnLtrnF region, strongly support the close relationship of these three genera to one another as well as to two other African genera, Annickia and Piptostigma. Together these five genera form a moderately supported clade within the so-called short-branch clade of Annonaceae. A detailed morphological and palynological comparison between Mwasumbia and the four other genera shows that this new genus exhibits a combination of features unique within this group: intermediate tertiary leaf venation, exclusively bisexual flowers, slightly imbricate sepals, valvate petals, outer and inner petals equal in length, numerous stamens, four carpels, few and uniseriate ovules, few and sessile monocarps, and verrucate sulculate pollen grains. Phylogenetic analyses also suggest the genus Piptostigma, as currently circumscribed, to be paraphyletic. An IUCN conservation status of VU D2 is proposed, reflecting the narrow distribution of the single species.

Keywords: Annonaceae, biodiversity hotspot, coastal forest, East Africa, Kimboza Forest Reserve, pollen, Tanzania, taxonomy, Uluguru Mountains

T.L.P Couvreur, R. W. J. M. Van der Ham, Y.M. Mbele, F. M. Mbago and D. M. Johnson. 2009. Molecular and Morphological Characterization of A New Monotypic Genus of Annonaceae, Mwasumbia, from Tanzania. Systematic Botany. 34:266-276. DOI: 10.1600/036364409788606398