The plant needs of city dwellers sometimes force them to make use of the local plant diversity of which the avenue trees are a part. In the municipality of Sèmè-Podji, avenue trees provide social and environmental advantages to residents in daily practices. However, they are poorly valued and subjected to anthropogenic pressures. The objective of this study is to analyze the contribution of avenue trees in the provision of ecosystem services to the populations along roadways of the municipality of Sèmè-Podji. The methodological approach used is based on counting the forms of harvesting from the different species of trees over 26 kilometers of developed streets. Then, semi-structured interviews are carried out with 260 peoples, divided into 4 socio-professional categories. The Pearson correlation test was used to assess the agreement between the opinions of the respondents, then the prioritization matrix and the factorial correspondence analysis were used to assess the involvement of species and organs in the availability of ecosystem services. The results obtained reveal 7 forms of use classified into 4 categories of ecosystem services, confirmed by the opinions of the socio-professional categories with high degree of consensus between traders and craftsmen (r = 0.955; p = 0.001). The usage values vary between 0.53 (regulation service) and 0.04 (support service). However, supply services are the most cited and come from the species Coccoloba uvifera, Terminalia catappa, Cocos nucifera, Manguifera indica and Eleais guineensis. Taking into account the information provided by the populations on ecosystem services could facilitate the integration of alignment plantations in the sustainable development of this city.
Published in | Ecology and Evolutionary Biology (Volume 6, Issue 4) |
DOI | 10.11648/j.eeb.20210604.16 |
Page(s) | 136-143 |
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), 2021. Published by Science Publishing Group |
Avenue Trees, Alignment Plantation, Ecosystem Services, Urban Planning, Sèmè-Podji
[1] | Jim C. Y., & Chen W. Y. (2009). Ecosystem services and valuation of urban forests in China. Cities 26: 187–194. doi: 10.1016/j.cities.2009.03.003. |
[2] | MEA (Millenium Ecosystem Assessment). (2005). Ecosystems and Human well-being: Synthesis. Island press, Washington DC, 266 p. |
[3] | Kouadio Y. J. C., Vroh B. T. A., Goné Bi Z. B., Adou Yao C. Y., & N’guessan K. E. (2016). Évaluation de la diversité et estimation de la biomasse des arbres d’alignement des communes du Plateau et de Cocody (Abidjan - Côte d’Ivoire). Journal of Applied Biosciences, 97: 9141-9151. |
[4] | McPherson E. G. (2006). Urban forestry in North America. Renewable Resources Journal, 24 (3), 8 -16. |
[5] | Kenney W. A, Van Wassenaer P. J, & Satel A. L. (2011). Criteria and indicators for strategic urban forest planning and management. Arboriculture Urban forestry & urban greening, 37 (3), 108-117. |
[6] | Fuwape J., & Onyekwelu J., (2011). Urban forest development in West Africa: benefits and challenges. Journal of Biodiversity and Ecological Sciences, 1 (1), 78-94. |
[7] | Livesley S. J., McPherson E. G., & Calfapietra C. (2016). The Urban Forest and Ecosystem Services: Impacts on Urban Water, Heat, and Pollution Cycles at the Tree, Street, and City Scale. Journal of Environmental Quality, 119-124. https://doi.org/10.2134/jeq2015.11.0567 |
[8] | Calaza P., Cariñanos P., Escobedo F. J., Schwab J., & Tovar G. (2018). Bâtir une infrastructure verte et des paysages urbains. Unasylva, FAO, 69: 11-21. |
[9] | Haase D., Frantzeskaki N., & Elmqvist T. (2014). Ecosystem Services in Urban Landscapes: Practical Applications and Governance Implications. Ambio, 43: 407-412. DOI 10.1007/s13280-014-0503-1. |
[10] | Voigt A., Kabisch N., Wurster D., Haase D., & Breuste J. (2014). Structural diversity: A multidimensional approach to assess recreational services in urban parks. Ambio, 43: 480 491. DOI 10.1007/s13280-014-0508-9. |
[11] | Dobbs C., Escobedo F. J. & Zipperer W. C. (2011). A framework for developing urban forest ecosystem services and goods indicators. Landscape and Urban Planning 99: 196–206. doi: 10.1016/j.landurbplan.2010.11.004. |
[12] | Tratalos J., Fuller R. A., Warren P. H., Davies R. G., & Gaston K. J. (2007). Urban form, biodiversity potential and ecosystem services. Landscape and Urban Planning 83: 308–317. doi: 10.1016/j.landurbplan.2007.05.003. |
[13] | Séhoun L. C., Osseni A. A., Lougbégnon T. O. & Codjia J. C. T. (2021). Specific diversity, structure and carbon stock of urban plant formations in southern Benin. Moroccan Journal of Agricultural Sciences, 2 (3): 147-153. www.techagro.org |
[14] | Barthel S., Folke C., & Colding J., 2010. Social-ecological memory in urban gardens retaining the capacity for management of ecosystem services. Global Environmental Change 20, 255–265. |
[15] | Rodriguez-Potes L. M., Hanrot S., Dabat M. A., & Izard J. L., (2012). Variation des paramètres de plantation des arbres d'alignement dans un milieu urbain et son influence sur la température de l'air: Cas d'Aix-en-Provence, France. In: Action / ambiances en acte(s), Eds Thibaud J. P and Siret D. International Congress on Ambiances, Montréal, Canada, 261-266. |
[16] | Gomgnimbou A. P. K., Ouédraogo W. O., Sanon A., Kone M., Ilboudo D., & Nacro H. B. (2019). Potentiel de séquestration du carbone par les espaces verts aménagés urbains de la ville de Bobo-Dioulasso au Burkina Faso. Journal of Applied Biosciences, 144: 14739 - 14746. |
[17] | Mili M., Boutabba H. & Boutabba S. D. (2019). La nature urbaine: dégradation quantitative et qualitative des espaces verts urbains, cas de la Ville Steppique de M’sila, Algérie. Revista Brasileira de Gestão Urbana, 11: 01-38. |
[18] | Plant l., Rembaldi A., & Sipe N. (2017). Evaluating revealed preferences for street tree cover targets: A business case for collaborative investment in leafier streetscapes in Brisbane, Australia. Ecological Economics, (134): 238-249. |
[19] | Hamel P., & Bryant B. P. (2017). Uncertainty assessment in ecosystem services analyses: Seven challengesand practical responses. Ecosystem Services 24: 1–15. http://dx.doi.org/10.1016/j.ecoser.2016.12.008 |
[20] | Popoola L., & Ajewole O. (2001). Public perceptions of Urban forests in Ibadan, Nigeria: Implications for environmental conservation. Arboricultural Journal, 25 (1), 1-22. https://doi:10.1080/03071375.2001.9747291 |
[21] | INSAE. (2016). Effectifs de la population des villages et quartiers de ville du Bénin. RGPH 4, 88 p. |
[22] | Rakotomalala R. (2015). Analyse de corrélation: Étude des dépendances - Variables quantitatives. Version 1.1, Université Lumière Lyon 2, 105p. |
[23] | Houéhanou D. T., Assogbadjo A. E., Chadare F. J., Zanvo S., & Sinsin B., (2016). Approches méthodologiques synthétisées des études d’ethnobotanique quantitative en milieu tropical. Annales des Sciences Agronomiques, 20: 187-205. |
[24] | Ong H. G., & Kim Y. D. (2014). Quantitative ethnobotanical study of the medicinal plants used by the Ati Negrito indigenous group in Guimaras island, Philippines. Journal of Ethnopharmacology, 157: 228-242. |
[25] | Kosmus M., Renner I., & Ullrich S. (2013). Intégration des services écosystémiques dans la planification du développement: Une approche graduelle destinée aux praticiens et basée sur l’approche TEEB. Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH, 94 p. |
[26] | Ouattara D., Kouamé D., Tiébré M. S., Cissé A., & N’Guéssan K. E. (2016). Diversité floristique et usages des plantes dans la zone soudanienne du Nord-ouest de la Côte d'Ivoire. Journal of Animal and Plant Sciences, 31 (1): 4815-4830. http://www.m.elewa.org/JAPS |
[27] | Hamel J. C. (2017). Collecte des données. Edition Sofard (2ème Edition), Québec 62 p. |
[28] | Houndonougbo J. S. H., Salako V. K., Idohou R., Azihou F. A., Assogbadjo A. E., & Glèlè Kakaï R. (2017). Local perceptions of interactions between elephants and Borassus aethiopum Mart. (Arecaceae) in the Pendjari National Park in Benin. Bois et forêts des tropiques, 331 (1): 33-43. |
[29] | Dossou, M. E., Houessou G. L., Lougbégnon O. T., Tenté A. H. B., & Codjia J. T. C. (2012). Etude ethnobotanique des ressources forestières ligneuses de la forêt marécageuse d’Agonvè et terroirsconnexes au Bénin, Tropicultura, 30 (1): 41- 48. |
[30] | Beichler S. A., (2015). Exploring the link between supply and demand of cultural ecosystem services towards an integrated vulnerability assessment, International Journal of Biodiversity Science, Ecosystem Services & Management, 11 (3): 250-263. |
[31] | Dandy N. (2010). Climate change and street trees project. The social and cultural values, and governance, of street trees. Social Research Report, Research agency of the forest commission, 39 p. |
[32] | Teka O., Togbe E., Djikpo V., Djossa B., Oumorou M., & Sinsin B. (2017). Mise en évidence de l’atténuation des ilots de chaleur par la foresterie urbaine dans la ville de Cotonou en république du Bénin. Journal de la Recherche Scientifique de l’Université de Lomé (Togo), 19, 51-63. |
[33] | Hadonou-Yovo A. G., Houessou L. G., Lougbegnon T. O., Adebi Y., Sinasson G. K. S., Semevo D. F., Lange U. & Boko M. (2019). Diversité et formes d’utilisation des espèces ligneuses de la Réserve de biosphère du Mono (Bénin). VertigO: la revue électronique en sciences de l'environnement, 19 (2), DOI: 10.4000/vertigo.26257. |
[34] | Amontcha AAM, Lougbegnon OT, Tenté B, Djego J, Sinsin BA, 2015. Aménagements urbains et degradation de la phytodiversité dans la Commune d’Abomey-Calavi (Sud-Bénin). Journal of Applied Biosciences, 91. |
[35] | Niemela J., Saarela S. R., Soderman T., Kopperoinen L. Yli-Pelkonen V., Vare S., et al. (2010). Using the ecosystem services approach for better planning and conservation of urban green spaces: A Finland case study. Biodivers Conservation, 19: 3225-3243. |
[36] | Osséni A. A., Sinsin B. & Toko Imorou I. (2015). Analyse des contraintes de viabilité de la végétation urbaine: Cas des arbres d’alignement dans la ville de Porto-Novo au Bénin. European Scientific Journal, 1-15. |
[37] | Décret n°96-271 du 2 juillet 1996 portant code forestier béninois, 1996. Bénin, Décret d’application du régime forestier. Droit-Afrique.com, 12 p. |
[38] | Maris V., (2014). Nature à vendre: Les limites des services écosystémiques pour protéger la biodiversité. Éditions Quæ, 96 p. |
APA Style
Abdel Aziz Osseni. (2021). Contribution of Avenue Trees Planted Along Managed Roadways in the Provision of Ecosystem Services to the Population of the Municipality of Sèmè-Podji in Benin. Ecology and Evolutionary Biology, 6(4), 136-143. https://doi.org/10.11648/j.eeb.20210604.16
ACS Style
Abdel Aziz Osseni. Contribution of Avenue Trees Planted Along Managed Roadways in the Provision of Ecosystem Services to the Population of the Municipality of Sèmè-Podji in Benin. Ecol. Evol. Biol. 2021, 6(4), 136-143. doi: 10.11648/j.eeb.20210604.16
AMA Style
Abdel Aziz Osseni. Contribution of Avenue Trees Planted Along Managed Roadways in the Provision of Ecosystem Services to the Population of the Municipality of Sèmè-Podji in Benin. Ecol Evol Biol. 2021;6(4):136-143. doi: 10.11648/j.eeb.20210604.16
@article{10.11648/j.eeb.20210604.16, author = {Abdel Aziz Osseni}, title = {Contribution of Avenue Trees Planted Along Managed Roadways in the Provision of Ecosystem Services to the Population of the Municipality of Sèmè-Podji in Benin}, journal = {Ecology and Evolutionary Biology}, volume = {6}, number = {4}, pages = {136-143}, doi = {10.11648/j.eeb.20210604.16}, url = {https://doi.org/10.11648/j.eeb.20210604.16}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.eeb.20210604.16}, abstract = {The plant needs of city dwellers sometimes force them to make use of the local plant diversity of which the avenue trees are a part. In the municipality of Sèmè-Podji, avenue trees provide social and environmental advantages to residents in daily practices. However, they are poorly valued and subjected to anthropogenic pressures. The objective of this study is to analyze the contribution of avenue trees in the provision of ecosystem services to the populations along roadways of the municipality of Sèmè-Podji. The methodological approach used is based on counting the forms of harvesting from the different species of trees over 26 kilometers of developed streets. Then, semi-structured interviews are carried out with 260 peoples, divided into 4 socio-professional categories. The Pearson correlation test was used to assess the agreement between the opinions of the respondents, then the prioritization matrix and the factorial correspondence analysis were used to assess the involvement of species and organs in the availability of ecosystem services. The results obtained reveal 7 forms of use classified into 4 categories of ecosystem services, confirmed by the opinions of the socio-professional categories with high degree of consensus between traders and craftsmen (r = 0.955; p = 0.001). The usage values vary between 0.53 (regulation service) and 0.04 (support service). However, supply services are the most cited and come from the species Coccoloba uvifera, Terminalia catappa, Cocos nucifera, Manguifera indica and Eleais guineensis. Taking into account the information provided by the populations on ecosystem services could facilitate the integration of alignment plantations in the sustainable development of this city.}, year = {2021} }
TY - JOUR T1 - Contribution of Avenue Trees Planted Along Managed Roadways in the Provision of Ecosystem Services to the Population of the Municipality of Sèmè-Podji in Benin AU - Abdel Aziz Osseni Y1 - 2021/12/24 PY - 2021 N1 - https://doi.org/10.11648/j.eeb.20210604.16 DO - 10.11648/j.eeb.20210604.16 T2 - Ecology and Evolutionary Biology JF - Ecology and Evolutionary Biology JO - Ecology and Evolutionary Biology SP - 136 EP - 143 PB - Science Publishing Group SN - 2575-3762 UR - https://doi.org/10.11648/j.eeb.20210604.16 AB - The plant needs of city dwellers sometimes force them to make use of the local plant diversity of which the avenue trees are a part. In the municipality of Sèmè-Podji, avenue trees provide social and environmental advantages to residents in daily practices. However, they are poorly valued and subjected to anthropogenic pressures. The objective of this study is to analyze the contribution of avenue trees in the provision of ecosystem services to the populations along roadways of the municipality of Sèmè-Podji. The methodological approach used is based on counting the forms of harvesting from the different species of trees over 26 kilometers of developed streets. Then, semi-structured interviews are carried out with 260 peoples, divided into 4 socio-professional categories. The Pearson correlation test was used to assess the agreement between the opinions of the respondents, then the prioritization matrix and the factorial correspondence analysis were used to assess the involvement of species and organs in the availability of ecosystem services. The results obtained reveal 7 forms of use classified into 4 categories of ecosystem services, confirmed by the opinions of the socio-professional categories with high degree of consensus between traders and craftsmen (r = 0.955; p = 0.001). The usage values vary between 0.53 (regulation service) and 0.04 (support service). However, supply services are the most cited and come from the species Coccoloba uvifera, Terminalia catappa, Cocos nucifera, Manguifera indica and Eleais guineensis. Taking into account the information provided by the populations on ecosystem services could facilitate the integration of alignment plantations in the sustainable development of this city. VL - 6 IS - 4 ER -