Raoul Niangadouma scite author profile

The forests of central Africa are distinct from counterpart forests in Amazonia by having fewer trees ≥ 10 cm dbh ha−1, especially small trees < 20 cm dbh, and in having sapling cohorts with less diversity than canopy trees. We tested four hypotheses to investigate whether herbivory, in particular, browsing by forest elephants, could be a factor in these differences. We found that the density of small saplings and diversity of large saplings were inversely associated with local density of elephants. We then tested the hypothesis that steep slopes might serve as refugia from elephant foraging, but found that elephants routinely forage on slopes with an inclination of less than ca 30 deg. Nevertheless, the diversity of small trees (≥ 10 cm, < 20 cm dbh) was higher on slopes than on paired level‐ground sites. The incidence of break scars on saplings ≥ 2 cm dbh and < 6 cm dbh was greater (107/100 stems) on level ground than on slopes (77/100 stems), although high variability precluded statistical significance. After correcting for background breakage not caused by elephants, an estimated 71% of breaks on level ground and 43% of breaks on slopes were attributable to elephants. Liana loads borne by trees at different sites were highly variable and unrelated to slope. Apparently, disturbances are more critical to liana development than herbivory. Elephants, along with other large mammals such as gorillas, duikers, red river hogs and rodents, appear to act as powerful filters on the tree recruitment process in African forests that still retain intact megafaunal communities.

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The African rainforest: odd man out or megafaunal landscape? African and Amazonian forests compared

Terborgh

Davenport

Niangadouma

et al. 2015

Ecography

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Africa has been called the ‘odd man out’ because the hectare‐scale tree diversity of African equatorial forests is lower than that of forests in other parts of the tropics. Low diversity has been attributed to the smaller area of the African forest and a history of drought, fire and contraction. Several facts shed doubt on this interpretation. The current area of the central African forest is roughly 2 million km2. Even during periods of Pleistocene contraction, numerous moist refugia remained, including 6 posited for Gabon, a country the size of the U. S. state of Colorado. The gamma‐diversity of Gabon is high, implying higher alpha diversities. Finally, tree diversities on small islands in the Solomons and Fiji archipelagos are twice those prevalent in Gabonese forests, suggesting that historical contractions may not have been sufficient to reduce diversity to its current level. To place the African situation in perspective, we compared tree stands in Gabon and the Peruvian Amazon. Peruvian forests contained a mean of 618 trees ≥ 10 cm dbh per ha vs 377 for Gabon, or 64% more. Peruvian forests contained relatively more small trees (≥ 10, <20 cm dbh) and many fewer large trees (≥ 20 cm dbh) than Gabonese forests. These structural differences were consistent across 10 Gabonese and 10 Peruvian sites and transcended local gradients in climate and geology, suggesting that they are intrinsic to the two continents. Tree species diversity in Perú is concentrated in the small tree class (≥ 10, <20 cm dbh), whereas it is highest in the larger tree classes in Gabon. Alpha diversity is apparently lower relative to gamma diversity in Africa than it is in Amazonian Perú , implying higher beta diversity. The densities of small plants (<1 m tall) are similar in Gabonese and Peruvian forests; the observed structural differences develop later at the sapling and small tree stages. Explaining the low hectare‐scale diversity of African forests thus reduces to understanding why the density and diversity of small trees is so anomalously low.

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Sirdavidia, an extraordinary new genus of Annonaceae from Gabon

Couvreur¹,

Niangadouma²,

Sonké³

et al. 2015

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A distinctive new monotypic genus from Gabon is described in the tropical plant family Annonaceae: Sirdavidia, in honor to Sir David Attenborough. Molecular phylogenetic analyses confirm that Sirdavidia, which is very distinct from a morphological standpoint, is not nested in any existing genus of Annonaceae and belongs to tribe Piptostigmateae (subfamily Malmeoideae), which now contains a total of six genera. The genus is characterized by long acuminate leaves, fully reflexed red petals, 16–19 bright yellow, loosely arranged stamens forming a cone, and a single carpel topped by a conspicuous stigma. With just three known collections, a preliminary IUCN conservation status assessment is provided as “endangered” as well as a distribution map. The discovery of Sirdavidia is remarkable at several levels. First, it was collected near the road in one of the botanically best-known regions of Gabon: Monts de Cristal National Park. Second, its sister group is the genus Mwasumbia, also monotypic, endemic to a small area in a forest in Tanzania, some 3000 km away. Finally, the floral morphology is highly suggestive of a buzz pollination syndrome. If confirmed, this would be the first documentation of such a pollination syndrome in Magnoliidae and early-diverging angiosperms in general.

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Two new species of Raphia (Palmae/Arecaceae) from Cameroon and Gabon

Kamga¹,

Niangadouma²,

Stauffer³

et al. 2018

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Raphia (Arecaceae, Calamoideae) is the most diverse genus of African palms with around 20 species. Two new species from Cameroon and Gabon, Raphiagabonica Mogue, Sonké & Couvreur, sp. nov. and Raphiazamiana Mogue, Sonké & Couvreur, sp. nov. are described and illustrated. Their affinities are discussed and the conservation status of each species is assessed. For both species, distribution maps are provided. Raphiagabonica is restricted to two small populations from central Gabon, where it occurs on hillsides on tierra firme soil, and close to small streams. Its preliminary IUCN status is Endangered, being amongst the five most threatened palm species in Africa. Raphiagabonica potentially belongs to the moniliform section. Raphiazamiana is largely distributed from south Cameroon to south Gabon and is very common. It is also a multi-used palm, from which wine, grubs and construction material are extracted and sold. It generally occurs in large stands in a wide range of ecosystems such as swamps, coastal forests on partially inundated sandy soils and inundated savannahs. Its large stature, hard to access habitat (swamps) and abundant presence might have discouraged botanists to collect it until now. Raphiazamiana belongs to the taxonomically complex raphiate section.

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Novitates Gabonenses 80. Additions and Corrections to the Flora of Gabon

et al. 2011

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