Did a savanna corridor open up across the Central African forests 2500 years ago? Jean Maley & Kathy Willis jmaley@univ-montp2.fr ; kathy.willis@ouce.ox.ac.uk In order to reconstruct the vegetation dynamics in Central Africa over the past 3000 years, pollen analyses were collected from a number of sedimentary sequences spread over the Congolian forest domain (Figure 1), from the Atlantic side (South Cameroon, Gabon, Western Congo) to the eastern side of the Congo Basin region and the surroundings of Victoria Lake (Maley & Brenac, 1998). The Rain Forests of central Africa. The main studied sites. Barombi Ossa Mopo Epulu Maridor Lopé Osokari L. Victoria Ngamakala Sinnda Kakamoéka Kitina Old Forest s Young Forest s Swamp Forest s Grass Savannas Wooded Savanas Mount ain Forest s Figure 1. The Congolian forest domain
These records indicate that a significant change in the vegetation occurred throughout the region between 2500 and 2000 BP, wrought by a major disturbance which destroyed or strongly modified the forests. In addition, this disturbance still exerts a major influence on present vegetation formations (Maley, 2001, 2002). In several sites on the western and eastern sides of Congo (e.g. Barombi-Mbo and Mayombe or Osokari and Epulu), a short period of savanna extension was triggered by this event (Figure 2). Synt het ic pollen diagram of Lake Barombi Mbo, west Cameroon Forests Minimum (ca. 2500-2000 BP) Forests minimum during the Last Glacial Maximum (ca. 24000 à 18000 cal. BP) Age 14C (from Maley & Brenac, 1998) Figure 2. Synthetic pollen diagram of Lake Marombi Mbo Then, very rapidly, forests started to re-establish (Ngomanda et al., 2005), with a flush of pioneer taxa appearing in many sites, and in particular the oil palm (Maley, 1999 ; Maley et Chepstow-Lusty, 2001), as was observed in the south of the Central African Republic (CAR) (Figure 3).
Réserves de Nouabalé-Ndoki & de Dzangha-Sangha Maxi. ca. 1600 cal. BP Ent re 1988 et 1995, en parcourant tout le sud de la Centrafrique, qui est act uellement couvert de forêt s complèt ement inhabit ées, le Biologiste américain Mike FAY a collect é de nombreux noyaux fossiles de Palmier à huile dans de nombreuses coupes de sols ravinés par des ruisseaux et dans plus de 100 sit es différent s. Le résult at des dat at ions au radiocarbone effect uées sur plus de 80 échant illons est présent é sur un diagramme de fréquence par t ranches de 100 ans (dat es non calibrées). La forme de ce diagramme est typique d une phase naturelle de développement associée au remplacement progressif d une végétation pionnière par une plus mature. Dans la région du lac Ossa on retrouve un pic d extension maximum du Palmier à huile daté aussi vers 1600 cal. BP, âge similaire à celui obtenu dans ce vaste secteur. (cf. Maley & Chepstow-Lusty, 2001) (Maley, 2009) Figure 3 These pioneer forests persisted until 1000 800 years BP, then the forest recovery continued until the present day, accompanied by an increasing importance of more shade-tolerant taxa. A core was recently collected in Mopo Swamp, located in Congo near the southern frontier of CAR, close to the centre of the CoForChange study area (Brncic, Willis et al., 2009). The dominant pollen taxa found in this record spanning the last 2500 years BP have revealed a vegetation history very similar to that previously outlined from the other sites, with a brief savanna extension episode dated 2500 years BP (Figure 4). This record confirms that there has been a greater spatial extension of the savanna vegetation during this interval in time as previously thought.
Chronology A pollen diagram obtained by T. Brncic & al. (2009), in the Mopo Bai, north of RD.Congo (swampy area south of Dzanga-Ndoki Reserve) was adapted by J. Maley. The pollen spectrum was done on a one meter long core; the chronology based on several radiocarbon (AMS) and thermo-luminescence datations. The bottom of the core dated around 2500 cal. BP corresponds to the beginning of the phase with large perturbation and erosion evidenced in numerous other places of the Congolese Forest Domain (Maley, 2001, 2002; Ngomanda & al. 2005). The variations of the dominant pollen taxa show clearly : 1) to the base, a phase of large perturbation of the habitat characterized by a strong extension of Poaceae (36%) (here not aquatic), related to a short savanna extension. 2) Then rapidly one observe a strong extension of several pioneer taxa, with particularly 40% of Alchornea pollen and already quite 10% of Elaeis guineensis. Importance of Pteridophyta spores are frequently linked to perturbed environments. 3) The peak of these diverse pioneer taxa occurred at ca. 2000 cal. BP, with particularly 20% for the oil palm. This palm tree disappeared in this area at ca. 900 cal. BP, like the kernels dated by M. Fay more to the north. 4) Finally, the upper part of the spectrum show the progressive spread of numerous trees of a more mature type which belong to the present day forest habitat. 5) The present day swampy environment appeared progressively between 2000 and 1500 cal. BP. Mature taxa Pioneer taxa, 2 types Aquatic taxa Figure 4. Pollen Diagram in Mopo Research undertaken in the CoForChange project shall try to validate the hypothesis, proposed by Letouzey in 1968, then precised in 1985, and formalised and dated by Maley in 2001 and 2002 (Figure 5), that a large savanna corridor once opened up across the Central African forests and linked the Northern Sudanian savannas to the Southern Batéké savannas. Figure 5. Map of approximative areas of residual forests Approximative areas of residual forests (blue-shaded areas) during the phase of massive destruction which occurred between 2500 and 2000 years BP. The residual forests were mainly patchworks of pioneer and mature forests. The blank areas were mainly savannas. (Maley, 2001, 2002)
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