Effects of land-use change and disturbance on the fine root biomass, dynamics, morphology, and related C and N fluxes to the soil of forest ecosystems at different elevations at Mt. Kilimanjaro (Tanzania)

Tropical forests are threatened by anthropogenic activities such as conversion into agricultural land, logging and fires. Land-use change and disturbance affect ecosystems not only aboveground, but also belowground including the ecosystems' carbon and nitrogen cycle. We studied the impact of di...

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Bibliographic Details
Published in:Oecologia 2023-04, Vol.201 (4), p.1089-1107
Main Authors: Cornejo, Natalia Sierra, Becker, Joscha N., Hemp, Andreas, Hertel, Dietrich
Format: Article
Language:English
Subjects:
Agricultural land
Agroforestry
Analysis
Anthropogenic factors
Biomass
Biomedical and Life Sciences
Carbon cycle
Community composition
Disturbance
Dynamics
Ecology
Ecosystem
Ecosystems
Environmental aspects
Fires
Fluxes
Forest ecosystems
Forest management
Forests
Global Change Ecology–Original Research
Human influences
Hydrology/Water Resources
Land management
Land use
Life Sciences
Litter
Logging
Morphology
Nitrogen
Nitrogen - analysis
Nitrogen cycle
Plant Sciences
Soil
Soil - chemistry
Soil dynamics
Soils
Species composition
Stand structure
Tanzania
Terrestrial ecosystems
Tropical forests
Turnover rate
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Summary:Tropical forests are threatened by anthropogenic activities such as conversion into agricultural land, logging and fires. Land-use change and disturbance affect ecosystems not only aboveground, but also belowground including the ecosystems' carbon and nitrogen cycle. We studied the impact of different types of land-use change (intensive and traditional agroforestry, logging) and disturbance by fire on fine root biomass, dynamics, morphology, and related C and N fluxes to the soil via fine root litter across different ecosystems at different elevational zones at Mt. Kilimanjaro (Tanzania). We found a decrease in fine root biomass (80–90%), production (50%), and C and N fluxes to the soil via fine root litter (60–80%) at all elevation zones. The traditional agroforestry 'Chagga homegardens' (lower montane zone) showed enhanced fine root turnover rates, higher values of acquisitive root morphological traits, but similar stand fine root production, C and N fluxes compared to the natural forest. The decrease of C and N fluxes with forest disturbance was particularly strong at the upper montane zone (60 and 80% decrease, respectively), where several patches of Podocarpus forest had been disturbed by fire in the previous years. We conclude that changes on species composition, stand structure and land management practices resulting from land-use change and disturbance have a strong impact on the fine root system, modifying fine root biomass, production and the C and N supply to the soil from fine root litter, which strongly affects the ecosystems' C and N cycle in those East African tropical forest ecosystems.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-023-05353-6