In Burkina Faso, protected areas have faced various pressures from local actors over the past decades, resulting in a loss of biodiversity. The PONASI ecological complex, the second-largest wildlife-oriented ecological continuum covering 327,000 hectares in the central west region of Burkina Faso, has experienced severe degradation, particularly due to mining activities. Therefore, it has become crucial to study the biophysical and biochemical impacts of mining effluents on land resources to mitigate their effects on the natural ecosystems and preserve biodiversity within the complex. This is particularly vital in ecologically sensitive areas such as the PONASI complex. Thus, SRTM images from the years 2011 were chosen and processed in order to highlight the contour lines of the environment, from which topographic profiles were drawn in order to determine the direction of the propagation of mining pollutants from the top of the slopes to the level of the lowlands. Also, Landsat satellite images from the years 2022 were processed in order to highlight the land cover units. The combination of these images made it possible to judiciously identify soil sampling sites. A total of 23 soil samples were taken, packaged in indelible bags and transported to the laboratory of the Bureau of Mines and Geology (BUMIGEB), for chemical analyses, in order to determine the levels of cyanide and mercury contained in the soils, and to study their impacts on soil fertility in the research area. The results reveal that soil degradation related to mining activities around the complex. Indeed, the analysis of soil samples in the laboratory revealed the presence of cyanide and mercury at mining sites at values higher than the WHO standard in Burkina Faso, for soil lethality to these heavy metals (<0.5mg/Kg for cyanide, and <50mg/Kg for mercury) in places. These mining pollutants used in the gold extraction process spread through the environment, leading to a reduction in soil organic matter, a decrease in the sums of exchangeable bases, a variation in hydrogen potential (PH) and a loss of soil fertility. In addition, the tracing of the toposequences crossing the mining sites have made it possible to identify the risks of runoff of these mining pollutants in the overall environment of the complex according to the topography, which could contaminate all the ecological entities of this protected area and thus degrade its biodiversity. Therefore, protective actions must be taken to ensure the conservation of biodiversity within the ecological complex.
| Published in | International Journal of Natural Resource Ecology and Management (Volume 10, Issue 1) |
| DOI | 10.11648/j.ijnrem.20251001.14 |
| Page(s) | 42-58 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2025. Published by Science Publishing Group |
Mining Activities, Land Degradation, PONASI Ecological Complex
| [1] | BAMBA O., PELEDE S., SAKO A., KAGAMBEGA N., MININGOU Y. W. M., (2013), Impact of artisanal mining on the soils of a developed agricultural environment in Burkina Faso, in Journal des Sciences / J. Sci. Vol. 13, No. 1 (October 2013) 1-11. URL: |
| [2] | BUNASOLS, (1987), Method of Physical and Chemical Analysis of Soils, Waters and Plants. Technical dot, BUNASOLS, 3, Ouagadougou. 153p. |
| [3] | BUNASOLS (1997), Morphopedological study of the province of Kénédougou. Scale 1: 100,000, 53 p. and appendices. |
| [4] | BUNASOLS (National Soil Bureau) of Burkina Faso. (2003), Morpho-pedological study of the province of Sanguié. Scale 1/100,000. Technical Report n°124, 57 p. |
| [5] | BUNASOLS. (2005), Restoration and maintenance of soil fertility in Burkina Faso, technical paper n°10, 45 p. |
| [6] | BONNIE Campbell (2008), Mining in Africa: Issues of Responsibility and Accountability: Reflecting on Recent Canadian Initiatives on Extractive Sector Regulation and Corporate Responsibility, At the conference entitled "Mining and Sustainable Development in Africa", in Conakry. 09 P. |
| [7] | C. P. C. S. (1967), Soil classification. Publ. ENSA-GRIGNON, France. |
| [8] | DIGBEU M. P. (2017), Monitoring of environmental pollution by cyanide and study of its dynamics on gold panning sites in Burkina Faso: the case of the zougnazagmiline and galgouli sites, Thesis for the obtaining of the master in Water and Environmental Engineering (2IE), water and sanitation option. 65 p. |
| [9] | ENVIRONMENT CANADA, AND HEALTH CANADA (1997), Canadian Soil Quality Guidelines: Environment and Human Health – Cyanide (Free), |
| [10] | FAUCK R. (1973), Contribution of the study of soils in tropical regions: red soils on sand and sandstone of West Africa. Thesis 1971, ORSTOM Memoir, n° 61, pp. 13-66. |
| [11] | FAO, ISRIC (1994), Guidelines for Soil Description. 3rd edition (revised), Soil Resource Service, Management and Conservation, Land and Water Development Division, 78p. |
| [12] | FAO (2006), The State of Food and Agriculture, FAO Series: Agriculture No. 37, Food and Agriculture Organization of the United Nations Viale delle Terme di Caracalla 00153 Rome, Italy. Website: |
| [13] | F. J. P. PALLO & L. THIOMBIANO (1994), Tropical ferruginous soils with concretions leached from Burkina Faso: characteristics and constraints for agricultural use. BUNASOLS - BP 7142 - Ouagadougou - BURKINA FASO, 327 P. |
| [14] | GANSAONRÉ R. N., (2018), Territorial dynamics on the periphery of the W Park in Burkina Faso. Thèse de doctorat unique de géographie, option planification du territoire, Laboratoire d'Études et de Recherches sur les Milieux et les Territoires (LERMIT), Université Ouaga 1 Pr Joseph Ki-Zerbo, 318 p. |
| [15] | GUINKO S. (1984), Vegetation of Upper Volta. Doctoral thesis, University of Bordeaux II, Bordeaux, volumes 1 and 2, 394 p + appendices. |
| [16] | HIEN H. K., (2019), Dynamics of vegetation in gold panning areas in the commune of Gaoua, GIS Master's thesis, option: Environmental Management and Sustainable Development, Geography, University of Ouaga I, Prof. Joseph KI-ZERBO, 68 p. |
| [17] | KABORE O., (2013), Dynamics of land use in savannah ecosystems and agrarian systems of the kompienga watershed (Burkina Faso), Unique Doctoral Thesis in Geography, University of Ouagadougou, Laboratory Dynamics of Spaces and Societies, 281 p. |
| [18] | LASNE G., FERNANDEZ J-M., Laugier T., LETOURNEUR Y., Payri E. C. et al. (2022), Guide for monitoring the quality of the marine environment in New Caledonia. Nickel and its environment, Marine Environment Guide Program. CNRT, Volume 2, Nickel and its environment, 289 P. |
| [19] | MARTIN L, FENJOU Njoya (2011), Mining and Forestry: Challenges for Sustainable Development in Cameroon, 16th International Symposium on Environmental Assessment organized by SIFFE (from 12 to 15 September 2011), Yaoundé-Cameroon, 23p. |
| [20] | MARADAN D., ZEIN K., THIOMBIANO T., OUEDRAOGO B., and THIOMBIANO, N., (2011), Economic Analysis of the Mining Sector: Links to Poverty and the Environment. Study report: Ministry of the Environment and the Living Environment (MECV). 69p. |
| [21] | ROAMBA, J. (2014), Environmental and health risks on gold panning sites in Burkina Faso: Life cycle of the main pollutants and perceptions of gold miners: Case of the gold panning site of Zougnzagmiline in the commune of Bouroum, Centre-Nord [Report]: Thesis at the end of the 2IE cycle, 77 p. |
| [22] | SAMA, A., RAMDE, Z., OUEDRAOGO, P. C., SIKUZANI, Y. U., Salomon, W., DIPAMA, J.-M., et al. (2023), Anthropogenic Actions and Land Use Dynamics around Corridor No. 1 of the Pô-Nazinga-Sissili Ecological Complex in Burkina Faso, Tropicultura 2295-8010, 2200. Article Url: |
| [23] | SAVADOGO A. W., (2015), Land use dynamics in an ecosystem subject to mining: the case of gold in the commune of Sabcé (Burkina Faso). Master's thesis in Environmental Management. Sanghor University. 56p. |
| [24] | SAWADOGO B., YAMEOGO A., ZABRE N., BONKOUNGOUI J., (2022), Impacts of anthropogenic actions on the dynamics of the Tiogo classified forest (TFF) in a context of centralized governance. In International Journal of Progressive Sciences and Technologies (IJPSAT), Vol. 34 No. 1 August 2022, pp. 240-250. |
| [25] | SAWADOGO E. (2021), Discourse, practices and environmental dynamics around gold panning in the commune of Kampti (South-West Burkina Faso), Single doctoral thesis in Geography, LDES Laboratory, Geography. Panthéon-Sorbonne University; University of Ouaga 1 Professor Joseph Ki-Zerbo, Burkina Faso, 340 p. |
| [26] | SAWADOGO E. (2011), The impact of artisanal gold mining: the case of the Fofora site in the province of Poni. Master's thesis. University of Ouagadougou, 115p. Spotted on URL: |
| [27] | TAGNY K. C. E. (2011), Bissa gold project: contribution to the development of a resettlement action plan, Master's thesis in sustainable mine management, 69 p. |
| [28] | THIOMBIANO A.-N, (2008), The induced effects of cotton cultivation on natural resources in the area of the Kaboré Tambi National Park (Nahouri and Zoundweogo provinces), Master's thesis, 122 p. |
| [29] | THIOMBIANO. S. Patrick (2015), State of play of the functionality of the ecological corridor Nazinga Game Ranch - Kaboré Tambi National Park: Achievements, constraints and perspectives, end-of-cycle thesis presented with a view to obtaining the diploma of Inspector of Water and Forests, 75 p. |
| [30] | TRAORE D. (2021), Changes in land use and dynamics of woody plant biodiversity in the commune of Kangala, Burkina Faso. Single doctoral thesis in geography, natural resource management option. Joseph KI-ZERBO University, Ouagadougou, Burkina Faso. |
| [31] | TRAORÉ S-S., DEMBÉLÉ S., DEMBÉLÉ D., DIAKITÉ N. ET DIAKITE C. H., (2019), Dynamics of land use and trajectory of vegetation cover around three mining sites in southern Mali between 1988 and 2019, Open Edition journals Physio-Géo, Géographie physique et environnement, Volume 17 Varia 22 p. 151-166. |
| [32] | USENI SIKUZANI Y., BOISSON S., Sylveste C. K., César N. K., François M., Jean-Marie H., Bogaert J., Kankumbi M. F., (2019), Land use dynamics around mining sites along the urban-rural gradient of the city of Lubumbashi, DR Congo, in Biotechnol. Agron. Soc. Environ. 2020 24(1), 14-27P, |
| [33] | YAMEOGO A. (2021), Characterization of the erosive dynamics in the upper Sissili watershed (Burkina Faso). Single doctoral thesis in geography, physics option. Norbert Zongo University, Koudougou, Burkina Faso, 227P. |
| [34] | YOBO J. and NASSA D D A. (2018), Mining, a factor in the recession of agricultural activity in Hiré watta in Côte d'Ivoire. Université Félix Houphouët-Boigny, Côte d'Ivoire, Revue de Géographie Tropicale et d'Environnement, n°1, 91 -101P. |
| [35] | ZALLE T. (2017), Influence of mining on the living conditions of populations in mining areas in Burkina Faso. End-of-cycle thesis for the diploma of rural development engineer; Nazi University Boni. 50P. |
| [36] | ZOUGMORE W D A. (2022), Challenges and limits of the governance of the PONASI ecological complex: perspectives for a better conservation of forest resources in Burkina Faso in the context of decentralization", unique doctoral thesis in geography, LERMITe Laboratory, Joseph Ki Zerbo University, 261 P. |
| [37] | ZOUNGRANA A., DE CANNIERE C., CISSE M., BABOU A., BATHIONO B., TRAORE S., VISSER M., (2023), Does the social status of farmers determine the sustainable management of agroforestry parkland located near protected areas in Burkina Faso (West Africa), In global ecology conservation, Volume 44, August 2023, e02476; |
APA Style
Ramdé, Z. (2025). Direct Effects of Mining Activities on Land Resources Around the Pô-Nazinga-Sissili Ecological Complex in Burkina Faso. International Journal of Natural Resource Ecology and Management, 10(1), 42-58. https://doi.org/10.11648/j.ijnrem.20251001.14
ACS Style
Ramdé, Z. Direct Effects of Mining Activities on Land Resources Around the Pô-Nazinga-Sissili Ecological Complex in Burkina Faso. Int. J. Nat. Resour. Ecol. Manag. 2025, 10(1), 42-58. doi: 10.11648/j.ijnrem.20251001.14
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Download@article{10.11648/j.ijnrem.20251001.14,
author = {Zonata Ramdé},
title = {Direct Effects of Mining Activities on Land Resources Around the Pô-Nazinga-Sissili Ecological Complex in Burkina Faso
},
journal = {International Journal of Natural Resource Ecology and Management},
volume = {10},
number = {1},
pages = {42-58},
doi = {10.11648/j.ijnrem.20251001.14},
url = {https://doi.org/10.11648/j.ijnrem.20251001.14},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijnrem.20251001.14},
abstract = {In Burkina Faso, protected areas have faced various pressures from local actors over the past decades, resulting in a loss of biodiversity. The PONASI ecological complex, the second-largest wildlife-oriented ecological continuum covering 327,000 hectares in the central west region of Burkina Faso, has experienced severe degradation, particularly due to mining activities. Therefore, it has become crucial to study the biophysical and biochemical impacts of mining effluents on land resources to mitigate their effects on the natural ecosystems and preserve biodiversity within the complex. This is particularly vital in ecologically sensitive areas such as the PONASI complex. Thus, SRTM images from the years 2011 were chosen and processed in order to highlight the contour lines of the environment, from which topographic profiles were drawn in order to determine the direction of the propagation of mining pollutants from the top of the slopes to the level of the lowlands. Also, Landsat satellite images from the years 2022 were processed in order to highlight the land cover units. The combination of these images made it possible to judiciously identify soil sampling sites. A total of 23 soil samples were taken, packaged in indelible bags and transported to the laboratory of the Bureau of Mines and Geology (BUMIGEB), for chemical analyses, in order to determine the levels of cyanide and mercury contained in the soils, and to study their impacts on soil fertility in the research area. The results reveal that soil degradation related to mining activities around the complex. Indeed, the analysis of soil samples in the laboratory revealed the presence of cyanide and mercury at mining sites at values higher than the WHO standard in Burkina Faso, for soil lethality to these heavy metals (<0.5mg/Kg for cyanide, and <50mg/Kg for mercury) in places. These mining pollutants used in the gold extraction process spread through the environment, leading to a reduction in soil organic matter, a decrease in the sums of exchangeable bases, a variation in hydrogen potential (PH) and a loss of soil fertility. In addition, the tracing of the toposequences crossing the mining sites have made it possible to identify the risks of runoff of these mining pollutants in the overall environment of the complex according to the topography, which could contaminate all the ecological entities of this protected area and thus degrade its biodiversity. Therefore, protective actions must be taken to ensure the conservation of biodiversity within the ecological complex.},
year = {2025}
}
TY - JOUR T1 - Direct Effects of Mining Activities on Land Resources Around the Pô-Nazinga-Sissili Ecological Complex in Burkina Faso AU - Zonata Ramdé Y1 - 2025/03/21 PY - 2025 N1 - https://doi.org/10.11648/j.ijnrem.20251001.14 DO - 10.11648/j.ijnrem.20251001.14 T2 - International Journal of Natural Resource Ecology and Management JF - International Journal of Natural Resource Ecology and Management JO - International Journal of Natural Resource Ecology and Management SP - 42 EP - 58 PB - Science Publishing Group SN - 2575-3061 UR - https://doi.org/10.11648/j.ijnrem.20251001.14 AB - In Burkina Faso, protected areas have faced various pressures from local actors over the past decades, resulting in a loss of biodiversity. The PONASI ecological complex, the second-largest wildlife-oriented ecological continuum covering 327,000 hectares in the central west region of Burkina Faso, has experienced severe degradation, particularly due to mining activities. Therefore, it has become crucial to study the biophysical and biochemical impacts of mining effluents on land resources to mitigate their effects on the natural ecosystems and preserve biodiversity within the complex. This is particularly vital in ecologically sensitive areas such as the PONASI complex. Thus, SRTM images from the years 2011 were chosen and processed in order to highlight the contour lines of the environment, from which topographic profiles were drawn in order to determine the direction of the propagation of mining pollutants from the top of the slopes to the level of the lowlands. Also, Landsat satellite images from the years 2022 were processed in order to highlight the land cover units. The combination of these images made it possible to judiciously identify soil sampling sites. A total of 23 soil samples were taken, packaged in indelible bags and transported to the laboratory of the Bureau of Mines and Geology (BUMIGEB), for chemical analyses, in order to determine the levels of cyanide and mercury contained in the soils, and to study their impacts on soil fertility in the research area. The results reveal that soil degradation related to mining activities around the complex. Indeed, the analysis of soil samples in the laboratory revealed the presence of cyanide and mercury at mining sites at values higher than the WHO standard in Burkina Faso, for soil lethality to these heavy metals (<0.5mg/Kg for cyanide, and <50mg/Kg for mercury) in places. These mining pollutants used in the gold extraction process spread through the environment, leading to a reduction in soil organic matter, a decrease in the sums of exchangeable bases, a variation in hydrogen potential (PH) and a loss of soil fertility. In addition, the tracing of the toposequences crossing the mining sites have made it possible to identify the risks of runoff of these mining pollutants in the overall environment of the complex according to the topography, which could contaminate all the ecological entities of this protected area and thus degrade its biodiversity. Therefore, protective actions must be taken to ensure the conservation of biodiversity within the ecological complex. VL - 10 IS - 1 ER -
Department of Geography, Space and Society Dynamics Laboratory, Joseph KI-ZERBO University, Ouagadougou, Burkina Faso
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