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Research | Open Access

Organic matter quality of forest floor as a driver of C and P dynamics in acacia and eucalypt plantations established on a Ferralic Arenosols, Congo

Lydie-Stella Koutika1,2 ( )Lorenzo Cafiero3Annamaria Bevivino2Agustín Merino4( )
Research Centre on the Durability and the Productivity of Industrial Plantations (CRDPI), Av. Ma Loango Moe Poaty BP 1291, Pointe-Noire, Republic of the Congo
Department for Sustainability, Biotechnologies and Agroindustry Division, Laboratory for AgriFood Sustainability, Quality and Safety, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, ENEA, Casaccia Research Centre, Via Anguillarese, 301 -, 00123 Rome, Italy
Department for Sustainability, Division Resource Efficiency, Laboratory Technologies for the Reuse, Recycling, Recovery and valorisation of Waste and Materials, Italian National Agency for New Technologies, Energy and Sustainable Economic Development, ENEA, Casaccia Research Centre, 00123 Rome, Italy
Department of Soil Science and Agricultural Chemistry, University of Santiago de Compostela, 2702 Lugo, Spain
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Abstract

Background

Land-use change and forest management may alter soil organic matter (SOM) and nutrient dynamics, due in part to alterations in litter input and quality. Acacia was introduced in eucalypt plantations established in the Congolese coastal plains to improve soil fertility and tree growth. Eucalypt trees were expected to benefit from N2 fixed by acacia. However, some indicators suggest a perturbation in SOM and P dynamics might affect the sustainability of the system in the medium and long term. In tropical environments, most of the nutrient processes are determined by the high rates of organic matter (OM) mineralization. Therefore, SOM stability might play a crucial role in regulating soil-plant processes. In spite of this, the relationship between SOM quality, C and other nutrient dynamics are not well understood. In the present study, OM quality and P forms in forest floor and soil were investigated to get more insight on the C and P dynamics useful to sustainable management of forest plantations.

Methods

Thermal analysis (differential scanning calorimetry (DSC) and thermogravimetry (TGA)) and nuclear magnetic resonance (solid state 13C CPMASS and NMR and 31P-NMR) spectroscopy have been applied to partially decomposed forest floor and soils of pure acacia and eucalypt, and mixed-species acacia-eucalypt stands.

Results

Thermal analysis and 13C NMR analysis revealed a more advanced stage of humification in forest floor of acacia-eucalypt stands, suggesting a greater microbial activity in its litter. SOM were related to the OM recalcitrance of the forest floor, indicating this higher microbial activity of the forest floor in this stand might be favouring the incorporation of C into the mineral soil.

Conclusions

In relation with the fast mineralization in this environment, highly soluble orthophosphate was the dominant P form in both forest floor and soils. However, the mixed-species forest stands immobilized greater P in organic forms, preventing the P losses by leaching and contributing to sustain the P demand in the medium term. This shows that interactions between plants, microorganisms and soil can sustain the demand of this ecosystem. For this, the forest floor plays a key role in tightening the P cycle, minimizing the P losses.

Keywords

Mixed-species plantationsSoil chemical stabilityOrganic PForest ecosystemsPotential climate change mitigation

References

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Forest Ecosystems
Volume 7 Issue 3,
September 2020
Article number: 40
DOI: 10.1186/s40663-020-00249-w

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Koutika L-S, Cafiero L, Bevivino A, et al. Organic matter quality of forest floor as a driver of C and P dynamics in acacia and eucalypt plantations established on a Ferralic Arenosols, Congo. Forest Ecosystems, 2020, 7(3): 40. https://doi.org/10.1186/s40663-020-00249-w

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Received: 30 December 2019
Accepted: 02 June 2020
Published: 27 June 2020
© The Author(s) 2020.

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