Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools

Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools

Afforestation of savannah with cocoa agroforestry systems (cAFS) is a common farmer practice in Cameroon previously described as a sustainable production option. Nevertheless, the effects of afforestation of savannah with cAFS on C turnover and content, and the factors controlling C accumulation and stabilization are unknown. Different systems settled on savannah were compared: cropland (≈ 5 years old), cocoa monoculture (≈10 years old) and cAFS (from 20 to 60 years old) shaded by different tree species (Albizia adianthifolia, Canarium schweinfurthii, Dacryodes edulis, Milicia excelsa, Ceiba pentandra). We used savannah and nearby forest patches as controls. Soils were orthic ferralsols with 9-15% of clay content. Soil analysis was performed on the 0-10 cm soil layer for: organic C content, C distribution in soil particle size fractions (0-20 µm, 20-50 µm, and 50-2000 µm), and nutrient contents. Soil delta13C was analysed for studying how the change from savannah grasses (C4 plants) to other vegetation (C3 plants) affected soil C turnover. The amount of annual litter input and its nutrient content were also analysed. Conversion of savannah to cAFS significantly increased soil C to the same level as soil C under nearby forests (Figure 1). Conversion of savannah to annual cropland or cocoa monoculture resulted in a non-significant decrease in soil C. After conversion of savannah to other land uses, more than 70% of soil C derived from C4 plants was lost within 10 years and then remained almost unchanged. Contrastingly, soil C derived from C3 plants increased significantly in cAFS. The C accumulation occurred both in the 50-2000 µm and 0-20 µm soil fractions, and was linked to cumulative higher litter inputs in cAFS than in other systems. Soil C under the different shade tree species was positively linked to soil pH, exch. Ca2+ and litter Ca content. Afforestation of savannah with cAFS appears as a valuable option for soil carbon sequestration.

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Main Authors: Eteckji Fonkeng, Eltson, Chevallier, Tiphaine, Enock, Seguy, Rakotondrazafy, Nancy, Chapuis-Lardy, Lydie, Sauvadet, Marie, Oben Tabi, Fritz, Harmand, Jean-Michel
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Published: Université de Laval
Online Access:http://agritrop.cirad.fr/601934/
http://agritrop.cirad.fr/601934/1/ID601934.pdf
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spelling dig-cirad-fr-6019342022-09-06T13:32:28Z http://agritrop.cirad.fr/601934/ http://agritrop.cirad.fr/601934/ Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools. Eteckji Fonkeng Eltson, Chevallier Tiphaine, Enock Seguy, Rakotondrazafy Nancy, Chapuis-Lardy Lydie, Sauvadet Marie, Oben Tabi Fritz, Harmand Jean-Michel. 2022. In : En transition vers un monde viable. Québec : Université de Laval-IUAF-ICRAF, Résumé, 1 p. Congrès mondial d'agroforesterie. 5, Québec, Canada, 17 Juillet 2022/20 Juillet 2022.https://www.agroforestry2022.org/fr <https://www.agroforestry2022.org/fr> Researchers Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools Eteckji Fonkeng, Eltson Chevallier, Tiphaine Enock, Seguy Rakotondrazafy, Nancy Chapuis-Lardy, Lydie Sauvadet, Marie Oben Tabi, Fritz Harmand, Jean-Michel eng 2022 Université de Laval En transition vers un monde viable Afforestation of savannah with cocoa agroforestry systems (cAFS) is a common farmer practice in Cameroon previously described as a sustainable production option. Nevertheless, the effects of afforestation of savannah with cAFS on C turnover and content, and the factors controlling C accumulation and stabilization are unknown. Different systems settled on savannah were compared: cropland (≈ 5 years old), cocoa monoculture (≈10 years old) and cAFS (from 20 to 60 years old) shaded by different tree species (Albizia adianthifolia, Canarium schweinfurthii, Dacryodes edulis, Milicia excelsa, Ceiba pentandra). We used savannah and nearby forest patches as controls. Soils were orthic ferralsols with 9-15% of clay content. Soil analysis was performed on the 0-10 cm soil layer for: organic C content, C distribution in soil particle size fractions (0-20 µm, 20-50 µm, and 50-2000 µm), and nutrient contents. Soil delta13C was analysed for studying how the change from savannah grasses (C4 plants) to other vegetation (C3 plants) affected soil C turnover. The amount of annual litter input and its nutrient content were also analysed. Conversion of savannah to cAFS significantly increased soil C to the same level as soil C under nearby forests (Figure 1). Conversion of savannah to annual cropland or cocoa monoculture resulted in a non-significant decrease in soil C. After conversion of savannah to other land uses, more than 70% of soil C derived from C4 plants was lost within 10 years and then remained almost unchanged. Contrastingly, soil C derived from C3 plants increased significantly in cAFS. The C accumulation occurred both in the 50-2000 µm and 0-20 µm soil fractions, and was linked to cumulative higher litter inputs in cAFS than in other systems. Soil C under the different shade tree species was positively linked to soil pH, exch. Ca2+ and litter Ca content. Afforestation of savannah with cAFS appears as a valuable option for soil carbon sequestration. conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/601934/1/ID601934.pdf text Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html https://www.agroforestry2022.org/fr info:eu-repo/semantics/altIdentifier/purl/https://www.agroforestry2022.org/fr info:eu-repo/semantics/reference/purl/https://conferium.com/Clients/226_web/index.lasso?lang=fr
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country Francia
countrycode FR
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libraryname Biblioteca del CIRAD Francia
language eng
description Afforestation of savannah with cocoa agroforestry systems (cAFS) is a common farmer practice in Cameroon previously described as a sustainable production option. Nevertheless, the effects of afforestation of savannah with cAFS on C turnover and content, and the factors controlling C accumulation and stabilization are unknown. Different systems settled on savannah were compared: cropland (≈ 5 years old), cocoa monoculture (≈10 years old) and cAFS (from 20 to 60 years old) shaded by different tree species (Albizia adianthifolia, Canarium schweinfurthii, Dacryodes edulis, Milicia excelsa, Ceiba pentandra). We used savannah and nearby forest patches as controls. Soils were orthic ferralsols with 9-15% of clay content. Soil analysis was performed on the 0-10 cm soil layer for: organic C content, C distribution in soil particle size fractions (0-20 µm, 20-50 µm, and 50-2000 µm), and nutrient contents. Soil delta13C was analysed for studying how the change from savannah grasses (C4 plants) to other vegetation (C3 plants) affected soil C turnover. The amount of annual litter input and its nutrient content were also analysed. Conversion of savannah to cAFS significantly increased soil C to the same level as soil C under nearby forests (Figure 1). Conversion of savannah to annual cropland or cocoa monoculture resulted in a non-significant decrease in soil C. After conversion of savannah to other land uses, more than 70% of soil C derived from C4 plants was lost within 10 years and then remained almost unchanged. Contrastingly, soil C derived from C3 plants increased significantly in cAFS. The C accumulation occurred both in the 50-2000 µm and 0-20 µm soil fractions, and was linked to cumulative higher litter inputs in cAFS than in other systems. Soil C under the different shade tree species was positively linked to soil pH, exch. Ca2+ and litter Ca content. Afforestation of savannah with cAFS appears as a valuable option for soil carbon sequestration.
format conference_item
author Eteckji Fonkeng, Eltson
Chevallier, Tiphaine
Enock, Seguy
Rakotondrazafy, Nancy
Chapuis-Lardy, Lydie
Sauvadet, Marie
Oben Tabi, Fritz
Harmand, Jean-Michel
spellingShingle Eteckji Fonkeng, Eltson
Chevallier, Tiphaine
Enock, Seguy
Rakotondrazafy, Nancy
Chapuis-Lardy, Lydie
Sauvadet, Marie
Oben Tabi, Fritz
Harmand, Jean-Michel
Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
author_facet Eteckji Fonkeng, Eltson
Chevallier, Tiphaine
Enock, Seguy
Rakotondrazafy, Nancy
Chapuis-Lardy, Lydie
Sauvadet, Marie
Oben Tabi, Fritz
Harmand, Jean-Michel
author_sort Eteckji Fonkeng, Eltson
title Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
title_short Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
title_full Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
title_fullStr Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
title_full_unstemmed Conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic C pools
title_sort conversion of savannah to cocoa agroforestry systems or other land uses: medium and long-term impacts on different soil organic c pools
publisher Université de Laval
url http://agritrop.cirad.fr/601934/
http://agritrop.cirad.fr/601934/1/ID601934.pdf
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