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. 2017 Jun 29;12(6):e0180059.
doi: 10.1371/journal.pone.0180059. eCollection 2017.

Diversity of inland valleys and opportunities for agricultural development in Sierra Leone

Elliott Ronald Dossou-Yovo  1 Idriss Baggie  2 Justin Fagnombo Djagba  1 Sander Jaap Zwart  1
Affiliations

Diversity of inland valleys and opportunities for agricultural development in Sierra Leone

Elliott Ronald Dossou-Yovo et al. PLoS One. .

Abstract

Inland valleys are becoming increasingly important agricultural production areas for rural households in sub-Saharan Africa due to their relative high and secure water availability and soil fertility. In addition, inland valleys are important as water buffer and biodiversity hot spots and they provide local communities with forest, forage, and fishing resources. As different inland-valley ecosystem functions may conflict with agricultural objectives, indiscriminate development should be avoided. This study aims to analyze the diversity of inland valleys in Sierra Leone and to develop guidelines for more precise interventions. Land use, biophysical and socio-economic data were analyzed on 257 inland valleys using spatial and multivariate techniques. Five cluster groups of inland valleys were identified: (i) semi-permanently flooded with high soil organic carbon (4.2%) and moderate available phosphorus (10.2 ppm), mostly under natural vegetation; (ii) semi-permanently flooded with low soil organic carbon (1.5%) and very low available phosphorus (3.1 ppm), abandoned by farmers; (iii) seasonally flooded with moderate soil organic carbon (3.1%) and low available phosphorus (8.3 ppm), used for rainfed rice and off-season vegetables produced without fertilizer application for household consumption and market; (iv) well drained with moderate soil organic carbon (3.8%) and moderate available phosphorus (10.0 ppm), used for rainfed rice and off-season vegetables produced with fertilizer application for household consumption and market; and (v) well drained with moderate soil organic carbon (3.6%) and moderate available phosphorus (11 ppm), used for household consumption without fertilizer application. Soil organic carbon, available phosphorus, hydrological regime, physical accessibility and market opportunity were the major factors affecting agricultural intensification of inland valleys. Opening up the areas in which inland valleys occur through improved roads and markets, and better water control through drainage infrastructures along with an integrated nutrient management would promote the sustainable agricultural use of inland valleys.

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Conflict of interest statement

Competing Interests: The authors have declared that no competing interests exist.

Figures

Fig 1
Fig 1. Location of the study area and inland valley cluster groups.
Fig 2
Fig 2. Projection of crop area on the first two axes of the principal components analysis.
Fig 3
Fig 3. Cropping systems, farmers’ production systems and derived inland valley farm types in the agricultural inland valleys of the study area.
Production objectives are market (M), subsistence (SC) or both (SC&M).
Fig 4
Fig 4
Projection of themes (A) and variables (B) on the factorial axes 1 x 2 of the multiple factorial analyses.
Fig 5
Fig 5. Positioning of inland valley farm types and inland valley characteristics on the first two axes of the correspondence analysis.
Inland valley farm types are presented in black, descriptive variables in gray.
See this image and copyright information in PMC

References

    1. Kiepe P. Characterization of three key environments for integrated irrigation–aquaculture and their local names. In: Halwart M, van Dam A, editors. Integrated Irrigation and Aquaculture in West Africa: Concepts, Practices and Potential. Food and Agriculture Organization of the United Nations, Rome; 2006. pp. 1–5.
    1. Andriesse W. Wetlands in sub-Saharan Africa: Area and distribution. The Wetlands and Rice in Sub-Saharan Africa. Proceedings of an international conference on wetland utilization for rice production in sub-Saharan Africa, 4–8 November 1985, Ibadan, Nigeria; 1986. pp. 15–30.
    1. Windmeijer P, Andriesse W. Inland Valleys in West Africa: An Agro-ecological Characterization of Rice Growing Environments. International Institute for Land Reclamation and Improvement, Wageningen, Netherlands; 1993.
    1. Rodenburg J, Zwart SJ, Kiepe P, Narteh LT, Dogbe W, Wopereis MCS. Sustainable rice production in African inland valleys: Seizing regional potentials through local approaches. Agric Syst. 2014;123: 1–11. doi: 10.1016/j.agsy.2013.09.004 - DOI
    1. Adams WM. Indigenous use of wetlands and sustainable development in West Africa. Geogr J. 1993;159: 209–218. doi: 10.2307/3451412 - DOI