Leaf litter breakdown in natural and plantation forests of the Lama forest reserve in Benin

The Lama forest reserve in southern Benin, West Africa, comprises timber and fuelwood plantations as well as some of the country’s last vestiges of semi-deciduous lowland forest. The reserve is intended to protect the fauna and flora and to promote the sustainable use of tree plantations. An importa...

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Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment ecosystems & environment, 2004-10, Vol.27 (2), p.109-124
Main Authors: Attignon, Serge Eric, Weibel, Daniel, Lachat, Thibault, Sinsin, Brice, Nagel, Peter, Peveling, Ralf
Format: Article
Language:English
Subjects:
Afzelia africana
Agronomy. Soil science and plant productions
Biochemistry and biology
Biological and medical sciences
Ceiba pentandra
Chemical, physicochemical, biochemical and biological properties
deciduous forests
degradation
forest litter
forest plantations
forest reserves
forest trees
forests
fuelwood
Fundamental and applied biological sciences. Psychology
invertebrates
Lama forest reserve
Litter breakdown
Litter-dwelling invertebrates
Natural forest
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Plantation forests
Senna siamea
soil chemical properties
soil physical properties
Soil science
Tectona grandis
tropical forests
Zoology (interactions between soil fauna and agricultural or forest soils)
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Summary:The Lama forest reserve in southern Benin, West Africa, comprises timber and fuelwood plantations as well as some of the country’s last vestiges of semi-deciduous lowland forest. The reserve is intended to protect the fauna and flora and to promote the sustainable use of tree plantations. An important aspect in its management is the preservation of soil quality, which in turn is related to key ecosystem processes such as decomposition. In the present study, we examined the breakdown of leaf litter from two indigenous species Afzelia africana ( A. africana) and Ceiba pentandra ( C. pentandra), and two exotic tree species Tectona grandis ( T. grandis) and Senna siamea ( S. siamea), using the litterbag technique (1920 litterbags altogether). We also studied the relationship between litter breakdown and the relative abundance (frequency of occurrence) of litter-dwelling invertebrates. The study was conducted over a 140-day period, focusing on four different forest types: semi-deciduous natural forest, young teak, old teak and fuelwood (mainly S. siamea) plantations. Both main factors, litter species and forest type, had a significant effect on litter breakdown. The residual litter weight was lowest in A. africana, intermediate in S. siamea and C. pentandra and highest in T. grandis. Differences were significant for all but one pairwise comparison ( A. africana versus S. siamea). With regard to forest type, the breakdown was highest in natural forest, followed by young teak, old teak and firewood plantations. Except for teak plantations (young versus old teak), all comparisons were significant. We also found a significant litter × forest interaction, indicating dissimilar changes in litter breakdown across forest types. With the exception of teak, decay rate coefficients ( k) were higher than in most tropical forests, ranging from k = 1.3 ( T. grandis in firewood plantations) to k = 4.7 ( A. africana in natural forest). The frequency of occurrence of invertebrates differed among leaf litters and forests, while there was no significant litter × forest interaction. Higher frequencies were observed in indigenous than in exotic litter. Likewise, litterbags in natural forest attracted more invertebrates than those in forest plantations. We found a significant inverse linear relationship between invertebrate frequency and residual litter weight, indicating that the breakdown of litter was strongly related to the activity of invertebrates. Our study concludes that man
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2004.05.003