Trees Diversity and Species with High Ecological Importance for a Resilient Urban Area: Evidence from Cotonou City (West Africa)

IF 3 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Climate Pub Date : 2023-08-30 DOI:10.3390/cli11090182
Assouhan Jonas Atchadé, Madjouma Kanda, Fousséni Folega, H. Yédomonhan, Marra Dourma, K. Wala, K. Akpagana
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Abstract

Rapid urbanization and climate change effects may cause dramatic changes in ecosystem functions in cities, thereby inevitably affecting the growth performance of old trees. Few studies have explored species diversity and spatial differentiation in Benin urban areas. This study aims to explore this dimension of urban ecology in order to build resilience to climate change in the city of Cotonou. Its objective was to determine the predominant level of tree diversity in the city’s land use units. The urban green frame was subdivided into six land use units, namely, establishments, residences, green spaces, commercial areas, administrative areas, and roads. The forest inventories were carried out in 149 plots with surfaces evaluated at 2500 m2 each. The IVI, an index that highlights the relative density, relative dominance, and relative frequency of species, has been used to characterize the place occupied by each species in relation to all species in urban ecosystems. This shows ecological importance through the diversity and quality of ecosystems, communities, and species. A total of 62 tree species in 55 genera and 27 families were recorded. The results show that the flora of the city of Cotonou is characterized by a strong preponderance of exotic species with some differences in species presence. The most abundant species with high ecological importance (IVI) in the different types of land use of the city are Terminalia catappa (IVI = 121.47%), Terminalia mantaly (IVI = 90.50%), Mangifera indica (IVI = 64.06%), and Khaya senegalensis (IVI = 151.16%). As the use of ecosystem services is recommended to tackle urban climate hazards, this study shows that direct development of this urban vegetation could improve the resilience of urban life to climate hazards through the provision of urban ecosystem services, potential ecological infrastructure foundations, and urban nature-based solutions.
弹性城市地区具有高度生态重要性的树木多样性和物种:来自西非科托努市的证据
快速的城市化和气候变化效应可能会导致城市生态系统功能的急剧变化,从而不可避免地影响老树的生长性能。很少有研究探讨贝宁城市地区的物种多样性和空间分化。本研究旨在探索城市生态的这一维度,以建立科托努市应对气候变化的能力。其目的是确定该市土地利用单位的主要树木多样性水平。城市绿地框架被细分为六个土地利用单元,即机构、住宅、绿地、商业区、行政区和道路。对149个地块进行了森林清查,每个地块的面积评估为2500平方米。IVI是一个突出物种相对密度、相对优势和相对频率的指数,已被用于表征每个物种相对于城市生态系统中所有物种所占据的位置。这通过生态系统、群落和物种的多样性和质量显示了生态重要性。共记录了27科55属62种。结果表明,科托努市的植物区系以外来物种的强烈优势为特征,但在物种存在方面存在一些差异。在城市不同类型的土地利用中,生态重要性最高的物种(IVI)是卡塔帕Terminalia catappa(IVI=121.47%)、曼塔利Terminalia mantaly(IVI=90.5%)、印度芒果(IVI=64.06%)和塞内加尔卡亚树(IVI=551.16%)。由于建议利用生态系统服务来应对城市气候危害,这项研究表明,通过提供城市生态系统服务、潜在的生态基础设施基础和基于城市自然的解决方案,直接开发这种城市植被可以提高城市生活对气候灾害的抵御能力。
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来源期刊
Climate
Climate Earth and Planetary Sciences-Atmospheric Science
CiteScore
5.50
自引率
5.40%
发文量
172
审稿时长
11 weeks
期刊介绍: Climate is an independent, international and multi-disciplinary open access journal focusing on climate processes of the earth, covering all scales and involving modelling and observation methods. The scope of Climate includes: Global climate Regional climate Urban climate Multiscale climate Polar climate Tropical climate Climate downscaling Climate process and sensitivity studies Climate dynamics Climate variability (Interseasonal, interannual to decadal) Feedbacks between local, regional, and global climate change Anthropogenic climate change Climate and monsoon Cloud and precipitation predictions Past, present, and projected climate change Hydroclimate.
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