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Lessons learned from the long-term analysis of cacao yield and stand structure in central Cameroonian agroforestry systems

Author

Listed:
  • Saj, Stéphane
  • Jagoret, Patrick
  • Etoa, Louis Essola
  • Eteckji Fonkeng, Eltson
  • Tarla, Justin Ngala
  • Essobo Nieboukaho, Jean-Daniel
  • Mvondo Sakouma, Kenneth

Abstract

In Sub-Saharan Africa, cacao cultivation is a major driver of deforestation and cacao-producing countries are among the poorest in the world. Two different production schemes compete today: a “land-sharing” strategy supports cacao based agroforestry systems (cAFS) while a “land-sparing” approach advocates for the intensification of these systems. Yet, we believe that a path exists between these two options which could be fruitful, sustainable and ecologically sound for the regions in which cacao is grown. To prove our point we investigated the competition balance, stand structure and accessible yields of 144 cacao-producing plots in cAFS of Central Cameroon. A 100-year chronosequence and a large array of situations, ranging from very simple systems to very complex cAFS were used. We used basal area (BA) ratios of different components of the systems to gauge interspecific competition. We found that yields were highly dependent on the age of the plot, the BA of associated tree community and the structure of the cacao stand. We found that very long-term sustainability could be achieved if the BA share of the cacao stand does not exceed 40% of the total BA of the cAFS. While interspecific competition prevailed, some associated functional groups of woody species were consistently related to higher cacao yields. This may underline putative synergistic - or less damageable - effects on yields for a given range of plantation age and interspecific competition level. The BA of the cacao stand steadily increased with age yet yields did not similarly rise. Hence, our results show that while rejuvenation and densification practices permitted the maintenance of a “baseline” production, these practices needed to be better studied and improved in order to get higher yields - especially for cAFS which are over 40years old. Finally, the high accessible yields found underlined the good production potential of cAFS that is to be reached if a better knowledge of how cAFS function is acquired and if intensification in terms of inputs and/or manpower is undertaken. Such intensification would not compulsorily include cAFS simplification and therefore would, at least partly, facilitate the preservation of the ecosystem services that cAFS support.

Suggested Citation

  • Saj, Stéphane & Jagoret, Patrick & Etoa, Louis Essola & Eteckji Fonkeng, Eltson & Tarla, Justin Ngala & Essobo Nieboukaho, Jean-Daniel & Mvondo Sakouma, Kenneth, 2017. "Lessons learned from the long-term analysis of cacao yield and stand structure in central Cameroonian agroforestry systems," Agricultural Systems, Elsevier, vol. 156(C), pages 95-104.
    • Handle: RePEc:eee:agisys:v:156:y:2017:i:c:p:95-104
    DOI: 10.1016/j.agsy.2017.06.002
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    References listed on IDEAS

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    1. Götz Schroth & Arzhvaël Jeusset & Andrea Gomes & Ciro Florence & Núbia Coelho & Deborah Faria & Peter Läderach, 2016. "Climate friendliness of cocoa agroforests is compatible with productivity increase," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 21(1), pages 67-80, January.
    2. Jill Belsky & Stephen Siebert, 2003. "Cultivating cacao Implications of sun-grown cacao on local food security and environmental sustainability," Agriculture and Human Values, Springer;The Agriculture, Food, & Human Values Society (AFHVS), vol. 20(3), pages 277-285, September.
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    1. Pérez-Neira, David & Schneider, Monika & Armengot, Laura, 2020. "Crop-diversification and organic management increase the energy efficiency of cacao plantations," Agricultural Systems, Elsevier, vol. 177(C).

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