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Regeneration capacities of woody species biodiversity and soil properties in Miombo woodland after slash-and-burn agriculture in Mozambique
- Source :
- Forest Ecology and Management
- Publication Year :
- 2021
-
Abstract
- Miombo woodland is the dominant tropical dry forest formation in Africa. Its importance for local populations’ livelihoods and increased pressure has turned the spotlight on this ecosystem, now considered one of the five global wilderness areas prioritized for conservation and restoration. Forest regeneration is a key to restoring ecosystem services, but the characteristics, conditions and dynamics of this specific biome remain largely understudied. The aim of this study was to analyze the current status and evolution of woody species biodiversity, stand structure and soil properties of regrowth plots after slash-and-burn farming in Mozambique. Our survey focused on the area surrounding Gile National Park in Mozambique, which is dominated by a mosaic of vegetation including mature Miombo woodland, grassland, cropland, and land abandoned after slash-and-burn cycles. We sampled 20 plots in mature woodland and 36 plots in a chronosequence of Miombo regrowth from 1 to 35 years old, grouped in four age classes: 4–6, 8–12; 20–25 and 30–35 years. We observed that woody species richness and diversity increased with time after abandonment until similar values to those in mature woodlands were reached between 20 and 25 years later. Despite the presence of the dominant Miombo tree species belonging to the genera Julbernardia and Brachystegia, after 20–35 years of regeneration species composition remained different from that of mature woodlands. Mean DBH, tree height, and carbon stock increased while tree density decreased along the chronosequence. Tree density and tree carbon stocks in 30–35-year-old Miombo regrowth exceeded those of mature woodland. Soil C stock increased during vegetation regeneration after abandonment. Results suggest that two or three decades are necessary to reach values similar to those of mature woodland. Overall, these findings show that the region has a high regeneration capacity in terms of woody species diversity and soil properties but that disturbances have a long term effect on species composition and stand structure, underlining the importance of integrated landscape management to enhance the provision of ecosystem goods and services.
- Subjects :
- 0106 biological sciences
Plante ligneuse
Brachystegia
F40 - Écologie végétale
Chronosequence
Biodiversity
Woodland
Management, Monitoring, Policy and Law
010603 evolutionary biology
01 natural sciences
Écologie forestière
conservation des forêts
Régénération
Ecosystem
Nature and Landscape Conservation
biology
Agroforestry
Species diversity
Forestry
Vegetation
biology.organism_classification
biodiversité forestière
services écosystémiques
Aptitude à la régénération
Geography
Écosystème forestier
peuplement forestier
Species richness
P01 - Conservation de la nature et ressources foncières
Caractéristiques du sol
010606 plant biology & botany
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Journal :
- Forest Ecology and Management
- Accession number :
- edsair.doi.dedup.....7b351e1353beeb7c65d6a39bb28a59d4