TY - JOUR T1 - Functions of farmers’ preferred tree species and their potential carbon stocks in southern Burkina Faso: implications for biocarbon initiatives JF - bioRxiv DO - 10.1101/344408 SP - 344408 AU - Kangbéni Dimobe AU - Jérôme E. Tondoh AU - John C. Weber AU - Jules Bayala AU - Karen Greenough AU - Antoine Kalinganire Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/06/11/344408.abstract N2 - The success of terrestrial carbon sequestration projects for rural development in sub-Saharan Africa lies in the (i) involvement of local populations in the selection of woody species, which represent the biological assets they use to meet their daily needs, and (ii) information about the potential of these species to store carbon. Although the latter is a key prerequisite, there is very little information available. To help fill this gap, the present study was undertaken in four pilot villages (Kou, Dao, Vrassan and Cassou) in Ziro Province, south-central Burkina Faso. The objective was to determine carbon storage potential for top-priority woody species preferred by local smallholders. We used (i) participatory rural appraisal consisting of group discussions and key informant interviews to identify priority species and functions, and (ii) landscape assessment of carbon stocks in the preferred woody species. Results revealed over 79 priority tree and shrub species grouped into six functions, of which medicine, food and income emerge as the most important ones for the communities. For these functions, smallholders overwhelmingly listed Vitellaria paradoxa, Parkia biglobosa, Afzelia africana, Adansonia digitata, Detarium microcarpum, and Lannea microcarpa among the most important tree species. Among the preferred woody species in Cassou and Kou, the highest quantity of carbon was stored by V. paradoxa (1,460.6 ±271.0 kg C ha−1 to 2,798.1±521.0 kg C ha−1) and the lowest by Grewia bicolor (1.6±1.3 kg C ha−1). The potential carbon stored by the preferred tree communities was estimated at 5,766.2 Mg C ha−1 (95% CI: 5,258.2; 6,274.2 Mg C ha−1) in Kou and 6,664.0 Mg C ha−1 (95% CI: 5,810.2; 7,517.8 Mg C ha−1) in Cassou. The findings of this study will help design data-based development of biocarbon projects, which are rare in the West African Sahel despite being considered as one of the most impactful climate change resilient strategies.Author ContributionsConceptualization: Jérôme E. Tondoh, Kangbéni Dimobe, Data curation: Kangbéni Dimobe, Jérôme E. TondohFormal analysis: Kangbéni Dimobe.Funding acquisition: Antoine Kalinganire, Jules Bayala, Jérôme E. Tondoh, John C. Weber, Methodology: Jérôme E. Tondoh, John C. Weber, Kangbéni Dimobe,Software: Kangbéni DimobeWriting - original draft: Jérôme E. Tondoh, Kangbéni Dimobe, Writing - review & editing: Kangbéni Dimobe, Jérôme E. Tondoh, John C. Weber, Jules Bayala, Karen Greenough, Antoine Kalinganire ER -