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Above-ground biomass and structure of 260 African tropical forests.

Authors :
Lewis SL
Sonké B
Sunderland T
Begne SK
Lopez-Gonzalez G
van der Heijden GM
Phillips OL
Affum-Baffoe K
Baker TR
Banin L
Bastin JF
Beeckman H
Boeckx P
Bogaert J
De Cannière C
Chezeaux E
Clark CJ
Collins M
Djagbletey G
Djuikouo MN
Droissart V
Doucet JL
Ewango CE
Fauset S
Feldpausch TR
Foli EG
Gillet JF
Hamilton AC
Harris DJ
Hart TB
de Haulleville T
Hladik A
Hufkens K
Huygens D
Jeanmart P
Jeffery KJ
Kearsley E
Leal ME
Lloyd J
Lovett JC
Makana JR
Malhi Y
Marshall AR
Ojo L
Peh KS
Pickavance G
Poulsen JR
Reitsma JM
Sheil D
Simo M
Steppe K
Taedoumg HE
Talbot J
Taplin JR
Taylor D
Thomas SC
Toirambe B
Verbeeck H
Vleminckx J
White LJ
Willcock S
Woell H
Zemagho L
Source :
Philosophical transactions of the Royal Society of London. Series B, Biological sciences [Philos Trans R Soc Lond B Biol Sci] 2013 Jul 22; Vol. 368 (1625), pp. 20120295. Date of Electronic Publication: 2013 Jul 22 (Print Publication: 2013).
Publication Year :
2013

Abstract

We report above-ground biomass (AGB), basal area, stem density and wood mass density estimates from 260 sample plots (mean size: 1.2 ha) in intact closed-canopy tropical forests across 12 African countries. Mean AGB is 395.7 Mg dry mass ha⁻¹ (95% CI: 14.3), substantially higher than Amazonian values, with the Congo Basin and contiguous forest region attaining AGB values (429 Mg ha⁻¹) similar to those of Bornean forests, and significantly greater than East or West African forests. AGB therefore appears generally higher in palaeo- compared with neotropical forests. However, mean stem density is low (426 ± 11 stems ha⁻¹ greater than or equal to 100 mm diameter) compared with both Amazonian and Bornean forests (cf. approx. 600) and is the signature structural feature of African tropical forests. While spatial autocorrelation complicates analyses, AGB shows a positive relationship with rainfall in the driest nine months of the year, and an opposite association with the wettest three months of the year; a negative relationship with temperature; positive relationship with clay-rich soils; and negative relationships with C : N ratio (suggesting a positive soil phosphorus-AGB relationship), and soil fertility computed as the sum of base cations. The results indicate that AGB is mediated by both climate and soils, and suggest that the AGB of African closed-canopy tropical forests may be particularly sensitive to future precipitation and temperature changes.

Details

Language :
English
ISSN :
1471-2970
Volume :
368
Issue :
1625
Database :
MEDLINE
Journal :
Philosophical transactions of the Royal Society of London. Series B, Biological sciences
Publication Type :
Academic Journal
Accession number :
23878327
Full Text :
https://doi.org/10.1098/rstb.2012.0295