key: cord-1041653-c41pmhnc authors: Jian, Li; Chuimin, Kong; Jijian, Zhang; Yusheng, Kong; Ntarmah, Albert Henry title: The relationship between economic growth and environmental degradation: could West African countries benefit from EKC hypothesis? date: 2022-05-26 journal: Environ Sci Pollut Res Int DOI: 10.1007/s11356-022-21043-x sha: 5f10dbbe4d7fbd28af8dd22f41325d178da8b064 doc_id: 1041653 cord_uid: c41pmhnc There are growing concerns about environmental degradation and economic expansions in West Africa. Although there are several growth-environmental studies in Africa, there is limited empirical research exploring West African countries’ potential of benefiting from the environmental Kuznets curve (EKC) hypothesis, with the few studies on this subject reporting diverse results based on selected West African countries. To fill this gap, this study explored the relationship between economic growth and environmental degradation within the EKC framework using 16 West African countries sub-grouped into low-income countries (LICs) and lower-middle-income countries (LMICs) between 1990 and 2018. This study implemented second-generation panel econometric estimators that are robust to cross-sectional dependent and parameter heterogeneity. The empirical results revealed that the data is cross-sectionally dependent, heterogeneous, integrated of order one, 1(1), and cointegrated. Controlling for other environmental determinants, panel estimates from the Augmented Meant Group and Common Correlated Effect Mean Group estimators revealed that economic growth accelerates environmental degradation in West African countries, with a greater impact on LMICs, followed by LICs in West Africa. The results also showed that West African countries especially LMICs could benefit from the EKC hypothesis. On the other hand, growth-environmental degradation among LICs in West Africa shows a monotonous increasing relationship. We found strong evidence to support for feedback hypothesis between economic growth and environmental degradation in LMICs, LICs, and West Africa as a whole. Based on the findings, policy recommendations that consider both LMICs and LICs and West Africa as a whole were offered to policymakers. GRAPHICAL ABSTRACT: [Image: see text] Growth and environmental consequences continue to be a major concern to researchers and policymakers at large. West Africa, a resource-dependent region (with each nation endowed with diverse resources) and one of the world's fastest-growing regions, is receiving growth-environmental attention (Bazilian et al. 2013; USAID 2021) . With the increasing economic growth (GDP) in West Africa, there are concerns regarding environmental degradation (ED). According to the World Bank Data, GDP in West Africa increased from US$ 211.30 billion in 1990 to US$ 700.93 billion (constant 2010 US$) in 2019 (World Bank 2021) representing a 331.73% increase over a period of 30 years. Within the same period, the GDP of low-income countries (LICs) grew from US$ 21.84 to US$ 72.29 billion, while lower-middle-income countries (LMICs) grew Responsible Editor: Ilhan Ozturk from US$ 189.45 to US$ 628.64 billion. Similarly, carbon emissions (CO 2 ) in West Africa increased from 81,730 kt in 1990 to 199,860 kt in 2018 (World Bank 2021 representing a 244.54% increase in a period of 29 years. Within the same period, the CO 2 of LICs and LMICs in West Africa grew from 4730 kt and 77,000 kt to 20,780 kt and 179,080 kt, respectively. Although worldwide carbon emissions decreased during the novel coronavirus 2019 disease pandemic (Wang et al. 2022a, b; Wang and Zhang 2021) , this was described as a temporary effect owing to the economic slowdown caused by the lockdown/shutdown (Hu et al. 2022; Ray et al. 2021 ). This draws more attention to post-pandemic economic activities and carbon emission connections, a major concern to policymakers and academics working towards environmental sustainability in West Africa. The general notion that an increase in GDP increases CO 2 Rahman and Vu 2020; Mensah et al. 2021) implies that economic expansion in West Africa will continually escalate CO 2 in the region. However, the environmental Kuznets curve (EKC) hypothesis provides a framework for examining growth-environmental relationships through three channels: (1) scale effect (increased GDP adversely affects the environment), composition effect (structural changes could worsen or improve the environment), and technique effect (economic advancement promote environment by shifting toward more environmentally friendly technologies and regulations) (Mitić et al. 2019) . Thus, EKC is one of the most well-known hypotheses that explain the relationship between GDP and ED (Apergis 2016; Dogan and Inglesi-Lotz 2017; Mitić et al. 2019; Ntarmah et al. 2022) . It represents an important model that enables policymakers to deliver quality information-based decisions. EKC theory argues that the growth-environmental relationship is an inverted U-shaped, such that economic development initially leads to ED until a certain threshold where further economic development reduces ED through either composition or technical effects. This implies that growth-environmental relationships in West Africa should not be viewed solely from an adverse relationship perspective since there could be a potential for West African countries to benefit from EKC theoretical arguments. Although there are many growth-environmental studies across the world, the results are diverse. Some scholars established a linear/monotonic relationship (Akadiri et al. 2019; Destek and Sinha 2020; Khan et al. 2021; Dimnwobi et al. 2021; Mensah et al. 2021 ), but no significant relationship (Omri et al. 2015; Bekhet et al. 2017; Charfeddine and Kahia 2019) , U-shaped (Xu et al. 2020) , inverted U-Shaped-EKC (Al-Mulali et al. 2016; Halliru et al. 2020; Ntarmah et al. 2021) , N, or inverted N shape (Mitić et al. 2019; Sarkodie and Strezov 2019) . From the perspective of selected countries in West Africa, Halliru et al. (2020) found a U-shaped relationship, while Omojolaibi (2010) found an inverted-U shaped with OLS but FE regression revealed no significant relationships between GDP and environment. The mixed results found in the literature are largely attributed to the different sample, periods, methodological frameworks, and analytical approaches. Interestingly, only a few studies (Omojolaibi 2010; Adu and Denkyirah 2017; Halliru et al. 2020 ) have examined growth-environmental relationships in West Africa within the EKC framework. Many scholars focus on SSA or Africa as a whole with West Africa treated as a sub-region in their studies. As such, the sub-regional analysis conducted by these scholars (Wasiu and Alasinrin 2015; Coulibaly 2016; Halliru et al. 2020) only focuses on West Africa as a whole ignoring heterogeneity (LICs and LMICs) among the West African countries. Considering the income heterogeneity in West Africa, the whole sample analysis may mislead policy directions since the outcomes suffer from heterogeneity problems (Apergis 2016; Musah et al. 2020) . To address this gap in the literature, this study seeks to examine the relationship between GDP and ED in West Africa within the EKC framework. The objective is divided into four specific objectives. First, it examines the growthenvironmental relationships of West African countries as a whole. Second, it analyzes growth-environmental relationships from the perspectives of LICs and LMICs in West Africa. Third, it tests the possibility of the EKC hypothesis in West Africa from the perspectives of LICs, LMICs, and all sampled countries. Finally, it investigates feedback mechanisms between GDP and ED. This study contributes to EKC theoretical argument and environmental studies in many ways. First, limited studies have empirically examined the EKC hypothesis in West Africa with a few studies relying on selected West African countries to investigate the topic, which has yielded mixed results. We address this gap by drawing data from all the 16 West African countries to explore possible EKC existence to aid policy decisions in the region. Second, among the limited studies that have attempted to examine EKC in West Africa, the main focus is on whole sample analysis, ignoring heterogeneity in the region. Therefore, we decompose the 16 West African countries into their respective income levels (LICs and LMICs) based on World Bank categorization to address heterogeneity problems found in earlier studies. This may clarify the mixed results of the EKC literature in West Africa. Finally, in contrast to Keho (2015) , Ogundipe et al. (2015) , Wasiu and Alasinrin (2015) , and Omojolaibi (2010) who used "first-generational" econometric approaches (to examine the topic in West Africa), which cannot perform well in heterogeneous and cross-sectional dependence, we use "second-generational" econometric techniques, which are robust to cross-sectional dependence and slope heterogeneity and provide reliable results. The remainder of the paper was set out as follows: "Literature" focused on the literature review. "Methodology" dealt with methodology, while "Results" presented the results and discussion. Finally, "Conclusions" presented the conclusions. The quest for economic advancement and reducing global warming and climate change continues to attract attention. Djellouli et al. (2022) explored the relationship between renewable energy consumption (REC), non-REC, GDP, and foreign direct investment (FDI) on CO 2 using 20 selected African countries from 2000 to 2015. The authors employed pooled mean group (PMG), dynamic fixed effect (DFE), and mean group (MG) estimators to investigate the topic. GDP, non-REC, and FDI had a significant positive influence on CO 2 , while REC had a negative influence on CO 2 among the selected African countries. Their findings were consistent with Akadiri et al. (2019) , Mensah et al. (2019) , Destek and Sinha (2020) , Khan et al. (2021) , and Dimnwobi et al. (2021) findings that found a positive and monotonic relationship between GDP and CO 2 . A recent study by Xue et al. (2022) also found that GDP increases CO 2 in France. It is important to note that while these studies are consistent in their findings, they fail to explore the possible existence of the EKC hypothesis in their data. While GDP is expected to increase CO 2 at some point, further economic expansion may reduce CO 2 due to changes in lifestyle and the quest for improvement in the environment . Thus, the EKC hypothesis cannot be ignored in current environmental studies. Since Grossman and Krueger (1991) expounded the EKC hypothesis to explain that the relationship between income and environment exhibits an inverted U-shaped curve, many scholars have attempted to explore this argument further (Adu and Denkyirah 2017; Ahmad, et al. 2020; Liang and Yang 2019; Li et al. 2022 ). Using panel data from 30 provinces in China from 2006 to 2015, Liang and Yang (2019) established an inverted U-shaped relationship between GDP and environmental pollution. Although Liang and Yang (2019) established that EKC exists in China, their sample period is too short (lacks a time element), which is consequential to policy decisions. Hence, the results may change using a relatively large sample period, which is usually recommended. Using a long panel data of 24 Organisation for Economic Co-operation and Development (OECD) countries, Destek and Sinha (2020) established a U-shaped relationship between GDP and EF, thus rejecting the EKC hypothesis. To understand the contradictions reported by Liang and Yang (2019) and Destek and Sinha (2020) , Li et al. (2022) explored the EKC hypothesis among 89 Belt and Road Initiative (BRI) countries from 1995 to 2017. The study found that BRI collectively exhibits an inverse U-shaped relationship (EKC) between GDP and ED. However, in the region-specific results, EKC was valid in Asia, Pacific, and Latin American countries but invalid in MENA and SSA countries. Using a global sample, Wang et al. (2022a, b) applied a threshold regression model on panel data from 134 countries from 1996 to 2015 to study the effect of URB, natural resource rents, population aging, REC, trade openness, and GDP on environmental quality. The study found that whereas trade openness and natural resource rents worsen environmental quality, population aging and REC improve it. Furthermore, URB strengthens the positive link between GDP, CO 2 , and EF. GDP had a more beneficial impact on CO 2 and EF. Accounting for heterogeneity in their study, an inverted U-shape was established in LMICs, while a U-shaped relationship was established in high-income countries. Additionally, Li et al. (2021a, b) investigated the impact of structural changes on CO 2 emissions from the economy, trade, energy, and society using cointegration regressions on a panel data set of 147 nations from 1990 to 2015. The findings revealed that on a worldwide scale, GDP and economic structure had positive and negative effects on CO 2 . At the income group level, consistent with the global results, GDP and energy intensity increased escalated CO 2 , whereas REC reduced it. These divergent results suggest that EKC should be best viewed from regional perspectives. From a single-country perspective, Alshehry and Belloumi (2017) reported a monotonically increasing relationship between GDP and ED in Saudi Arabia. In Indonesia, Saboori et al. (2012) used the ARDL model using annual data from 1971 to 2007 to study the dynamic link between CO 2 , GDP, EC, and foreign trade in Indonesia. The study, contrary to the EKC theory, discovers a U-shaped association between GDP and ED. Twerefou et al. (2016) studied the link between GDP and CO 2 in Ghana using the autoregressive distributed lag (ARDL) bound testing technique using yearly data from 1970 to 2010. The authors discovered a U-shaped association between per capita GDP and CO 2 , showing that the EKC hypothesis for CO 2 does not exist in Ghana. Minlah and Zhang (2021) used vector autoregressive models to test the presence of the EKC hypothesis for CO 2 in Ghana. The empirical data demonstrated an upward sloping link between GDP and CO 2 in Ghana. Aiyetan and Olomola (2017) looked at the link between CO 2 , GDP, population growth, and energy consumption (EC) in Nigeria. The authors applied the ARDL bounds testing technique to a time series data set spanning 1980 to 2012. The empirical data demonstrated that in the long term, EC and population growth increased CO 2 emissions, but the EKC hypothesis was not validated. In contrast, Bekun, Agboola, and Joshua (2020) used yearly data from 1971 to 2015 to investigate the trade-off between GDP and CO 2 in Nigeria. According to the ARDL regression, EC and GDP increase CO 2 emissions in Nigeria. The current analysis verifies the EKC hypothesis in the Nigerian situation. Sarkodie and Ozturk (2020) examined the validity of EKC for CO 2 in Kenya from 1971 to 2013 using the ARDL, statistically inspired modification of partial least squares (SIMPL) regression, and U test method confirmed EKC in Kenya. In a recent study, Liu et al. (2022) investigated the EKC hypothesis for ecological footprint and tourism-led-growth in Pakistan. Using time-series data from 1980 to 2017 and the ARDL bound model, the empirical analysis revealed an inverted U-shaped relationship supporting the EKC hypothesis for ecological footprint. The results from the ARDL model and the U test estimation validated the EKC hypothesis for CO 2 in Kenya. Destek and Sarkodie (2019) also validated the EKC hypothesis in Singapore. In West Africa, the few studies that have investigated the existence of the EKC hypothesis have been inconclusive. Halliru et al. (2020) used annual data from 1970 to 2017 to explore the relationship between GDP and CO 2 . The quantile regression results revealed a U-shaped relationship between GDP and CO 2 , rejecting EKC among selected West African countries. Similarly, Keho (2015) and Ogundipe et al. (2015) revealed that EKC is not valid in West Africa. On the contrary, Wasiu and Alasinrin (2015) supported the EKC hypothesis, while Omojolaibi (2010) found evidence of the EKC hypothesis from pooled OLS regression but not FE regression among selected West African countries. Similarly, Leonard and David (2016) used fixed effect and rand effect models to investigate the relationship between GDP and the environment for the period 1980-2012. The study provided evidence to support the EKC hypothesis in the region. Additionally, Oshin and Ogundipe (2014) found the validity of the EKC theory in West Africa for the period 1980-2012. The empirical results from the random effect model supported the theory of EKC theory in West Africa. The diversity of EKC results in West Africa could be due to different methodological frameworks such as selective sample, period, econometric modeling, and failure to account for heterogeneous growth patterns in West Africa. For example, the FE and RE models do not account for stationarity and cointegration that are present in growth-environmental studies. As a result, the validity and reliability of the FE and RE findings without considering stationarity and order of integration are not guaranteed. Another important weakness found in these studies is that West Africa consists of heterogeneous countries -LMICs and LICs. However, studies testing EKC in West Africa overlook these two heterogeneous groups, thus resulting in a heterogeneity problem in earlier studies. To address this gap, our study considers all the 16 West African countries while accounting for the heterogeneous groups in the region. In addition, our study uses up-to-date data on the variables to provide fresh insight into the topic in the West African region. Globally, research outcomes on growth-environmental relationships can be categorized into a monotonic relationship (Bekhet et al. 2017; Mensah et al. 2021; Xue et al. 2022) , U-shaped relationship (Destek and Sinha 2020; Xu et al. 2020) , inverted U-shaped relationship (Jebli et al. 2016; Dogan and Inglesi-Lotz 2017; ), N or inverted N-shaped relationship (Halkos and Polemis 2017; Zeraibi et al. 2021) , bi-directional relationship (Gorus and Aydin 2019; Gyamfi et al. 2021) , and mixed outcomes in studies where the samples are decomposed into sub-samples (Ntarmah et al. 2022) . Table 1 summarizes growth-environmental studies in terms of sample/study area, period, methods, variables, and key findings. The literature summary in Table 1 brings to light why there is growing interest in growth-environmental studies. Before setting out the econometric framework for exploring the relationship between GDP and ED, we provide a theoretical rationale guiding the selection of the variables of the study. ED which is the outcome variable is widely measured using CO 2 (Akadiri et al. 2019; Ntarmah et al. 2020; Kong et al. 2020; Aslam et al. 2021; Shabani et al. 2021; Ntarmah et al. 2021) . GDP is selected for the study due to the theoretical proposition of EKC that put forward three channels (scale, composition, and technique effects) through which GDP affects ED (Kurznets 1955; Mitić et al. 2019; Halliru et al. 2020) . The scale effect indicates that GDP increases ED due to higher production volumes that require greater exploitation of natural resources and harmful emissions (Owusu and Asumadu-Sarkodie 2016; Sarkodie and Strezov 2019).). The composition effect implies that GDP could improve or worsen the environment, subject to the structural changes in the economy (Mitić et al. 2019) . As a country's income rises, a structural shift in the economy from agricultural to industrial activity raises ED, whereas a shift from energy-intensive industries to services and knowledgebased innovations and technologies lowers ED. Finally, the technique effect suggests that GDP reduces ED because higher income levels lead to more investment in research and development, which results in new and environmentally friendly technologies that replace old and highly polluting technologies, as well as strict environmental regulations and industry standards (Komen et al. 1997) . The empirical findings of Dogan and Inglesi-Lotz (2017) Theoretically, growth-environmental studies require certain key determinants to be controlled to minimize model uncertainties. According to the literature (Ntarmah et al. 2021; Ullah et al. 2021) , ED decreases when people shift away from consumption of traditional energy sources to renewable energy sources such as wind and solar power, biomass, and hydropower. This is because the production of these energy sources creates little or no greenhouse gas emissions. According to the International Renewable Energy Agency (IRENA 2022), West Africa possesses sufficient renewable energy reserves to assist the region's transition to a low-carbon growth path. As a result, there is a gradual shift from traditional energies, which are highly pollutant to renewable energies. Among many renewable energy initiatives, the Economic Community of West African States (ECOWAS) enacted the ECOWAS Renewable Energy Policy (EREP) in 2012, to increase the region's entire electricity mix's contribution to renewable energy to 35% by 2020 and 48% by 2030 (IRENA 2022; Karin 2014 ). In addition, there is a strong collaboration between ECOWAS's Centre for Renewable Energy and Energy Efficiency (ECREEE), the ECOWAS Regional Electricity Regulatory Authority (ERERA), and the West African Power Pool (WAPP) to promote the development and integration of utility-scale renewable power into West African power systems (IRENA 2022). In keeping with West Africa's clean energy corridor and the global need for alternative energy sources rather than traditional fossil-based ones, we chose REC as a determinant (2022). Based on the theoretical arguments put forward, we proposed a function to estimate ED in a multivariate framework as: where ED (environmental degradation) is the outcome variable and GDP (economic growth), REC (renewable energy consumption), URB (urbanization), and IND (industrialization) are the explanatory variables. Eq. 1 can be represented in a linear and panel data time series form as: where 1 , 2 , 3 , and 4 are the coefficients of GDP it , REC it , URB it , and IND it , respectively. i denotes the time-invariant country-specific impact; it is the stochastic white noise error term; i and t represent individual countries and periods respectively. We can log-linearize Eq. 2 as: where ln ED it , ln GDP it , ln REC it , ln URB it , and ln IND it represent the log transformation of the variables of this study. Based on the theoretical argument presented by the EKC hypothesis, we can modify Eq. 3 to reflect the EKC hypothesis as follows: The EKC model is represented by Eq. 4, where lnGDP 2 is the quadratic form of GDP. For EKC to be validated, the coefficients 1 and 2 must be significantly positive and negative, respectively. (1) This study used annual data from 16 West African countries (comprising nine LICs and seven LMICs) for all the variables available from 1990 to 2018. The study sourced data (see Table 2 ) from World Bank through World Development Indicators (WDI). Since the dataset for this study across the panel exhibits long panel data properties (time, T, is greater than the number of countries, N, in each dataset), a long panel data estimation procedure is recommended for estimating the results. This panel estimation procedure consists of the following six steps: (1) cross-sectional dependence (CD) testing, (2) slope homogeneity testing, (3) panel unit root estimation, (4) panel cointegration testing, (5) panel regression estimates, and (6) Granger causality test (Le and Sarkodie 2020; Ntarmah et al. 2021 ). Studies Mensah et al. 2021 ) have shown that there is a strong possibility that data from different countries will exhibit cross-sectional interdependence due to socioeconomic activities among them. Therefore, testing for CD and parameter heterogeneity serves as a reference for selecting appropriate panel econometric tests for estimating the findings. Ignoring cross-sectional associations may result in inaccurate calculations and conclusions (Li et al. 2021a, b) . As a result, the study used CD among the Pesaran (2004) CD tests to identify the presence or absence of dependencies in the panels. Second, because the lack of knowledge about heterogeneity might lead to inaccurate estimations and extrapolations (Musah et al. 2021) , the researchers examined the heterogeneity assumption using the Pesaran-Yamagata method (2008) . This study utilized the Pesaran (2007) CIPS and CADF unit root test to test for the presence of unit roots in the data. The CIPS and CADF are second-generation unit root tests for heterogeneous panels with cross-section dependence (Le and Sarkodie 2020) . Due to their appropriateness, the tests have been widely accepted and used to determine unit roots in several panel data studies (Ssali et al. 2019; Musah et al. 2020) . In this study, we used two-panel cointegration tests to test for cointegration. The first test is Persyn and Westerlund (2008) cointegration test. The test implements Westerlund's (2007) four error correction-based tests. The second test is the Durbin-Hausman Panel Cointegration test by Westerlund (2008) . This test implements two different tests -Durbin-Hausman panel (DH p ) and Durbin-Hausman group (DH g ) (Westerlund 2008) . Both Westerlund's (2007; 2008) tests were considered appropriate due to their suitability in handling CD and slope heterogeneity. In addition, the tests have proven to be reliable in panel cointegration estimation (Persyn and Westerlund 2008; Ntarmah et al. 2021) . To provide valid and reliable estimates, it is appropriate we consider panel data estimators that are robust to crosssectional dependence, slope heterogeneity, unit roots, and cointegration in the data. Therefore, this study employed the Augmented Mean Group (AMG) and Pesaran (2006) and advanced by Kapetanios et al. (2011) . Pesaran (2006) developed the CCEMG estimator based on the common correlated effect (CCE) function to be estimated then becomes: where the dependent and independent variables are represented as y it and x it , respectively. i and i represent the slope and the heterogeneous fixed effects of each unit, respectively. f t and i represent the unobserved common effects and the heterogeneous factor loadings, respectively. The error term is represented as it . Because our desire is in i , the estimates of coefficients, Pesaran and Smith (1995) and Pesaran (2006) indicated that the CCEMG estimator is the mean of the CCE estimator ̂ CCE,i which can be expressed as: where ̂ i is the cross-sectional (or individual) coefficient computed from Eq. 5. The AMG estimator was developed by Eberhardt and Bond (2009) . Although both CCEMG and AMG are similar, the AMG estimator uses a 2-step calculation method. First, the AMG estimator introduces (1) the time dummies (D) and (2) (5) the unobserved common factor in the first-difference OLS equation. This is expressed as: where D and ∆ are the time dummies and first difference operator respectively. represents the coefficients of the time dummies. Second, the AMG estimates the slopes in each unit following the CCEMG mean estimation procedure outlined in Eq. 6, which is expressed as: where ∼ i represent the estimates i in Eq. 7. While CCEMG and AMG estimators are both robust to cross-sectional dependent and parameter heterogeneity, Bond and Eberhardt (2013) demonstrate that AMG estimator is unbiased and efficient for various combinations of cross-section and time dimensions (Le and Sarkodie 2020) . We employed the Dumitrescu and Hurlins (2012) (D-H) test to estimate the directional causal link between CO 2 , GDP, REC, URB, and IND across the panels. The D-H causality test was employed because it performs very well in the presence of slope heterogeneity and cross-sectional reliance (Dumitrescu and Hurlins 2012; Gyamfi et al. 2021 ). Using bootstrap options, the suggested D-H test is appropriate for assessing causalities in panel data. The test is based on the null hypothesis of no causation. The D-H panel Granger causality test's underlying regression is expressed as: where y i,t and x i,t are inter-related variables. The coefficients ( ik and ik ) vary across individual observations under the time-invariant assumption. The lag order is denoted as K. Taking into consideration the income heterogeneity among West African countries and the need to provide valid and reliable results, we used the following approaches to minimize heterogeneity problems in our study. First, we transformed the data into a natural log to decrease heteroscedasticity and improve statistical accuracy. Second, we sub-grouped the countries into their respective income levels -LICs and LMICs according to the World Bank categorization of countries into income levels. This does not only allow us to perform in-depth analysis but also conditions (7) countries into their respective income levels to produce valuable results. Third, we implemented two second-generation panel data estimators that are verified to be reliable and suit the characteristics of the data as identified by the preliminary results. Thus, consistency between the two estimators proves the reliability of our results. Finally, we performed diagnostic statistics -the Wald chi 2 and the RMSE checked the validity of the estimates. Table 3 shows the descriptive statistics for the entire sample as well as the sub-samples. Table 3 Africa. This shows that LMICs in West Africa are relatively at an advanced stage in terms of GDP, REC, URB, and IND than LICs in West Africa. Similarly, it is clear from the descriptive statistics that LMICs highly pollute the West African environment than LICs. These descriptive depict that growth-environmental outcomes in West Africa vary among LMICs and LICs. Consequently, it is important when studying this topic, authors consider the respective income levels in West African countries to avoid misleading results. Concerning skewness, GDP is positively skewed in LMICs and the whole sample, while it is negatively skewed in LICs. ED and REC are negatively skewed across the samples. While URB and IND are negatively skewed in LICs and the whole sample, it is positively skewed in LMICs. Regarding kurtosis, the results show that the data is leptokurtic (kurtosis value greater than 3) except ED, which is platykurtic (kurtosis value less than 3) for all samples. The descriptive results generally show that the data is not normally distributed. This is further confirmed by the Jacque-Bera and probability results. Hence, heterogeneous panel data models will be appropriate for estimating the results (Li et al. 2021a, b) . In addition to the descriptive statistics, this study per for med multicollinear ity analysis to detect possible multicollinearity problems. Table 4 presents Under the null hypothesis of no CD, Table 5 shows that all variables have significant, suggesting CD across West African countries as well as LICs and LMICs in the region. In addition, the Pesaran and Yamaga (2008) test results in Table 5 reject the null hypothesis of homogeneity in slope coefficient for all countries, LMICs, and LICs in West Africa. Based on the results, econometric methods implemented in this study must be robust to cross-sectional dependence and slope heterogeneity to account for any potential distortions in the series (Musah et al. 2020; Mensah et al. 2021 ). In this study, we used CIPS and CADF, which are robust to the series' established CD. According to the CIPS and CADF results in Table 6 , the variables are not stationary at a level across the countries and income levels. However, they are stationary at first differences in all unit root test specifications. This indicates that all of the variables utilized in the estimation are of order one integration, I(1). Table 7 presents Westerlund's (2007; 2008) cointegration results of the relationship for all countries, LMICs, and LICs in West Africa. Westerlund (2007; 2008) test the null hypothesis of no cointegration. Table 7 shows that the null hypothesis is rejected, indicating that cointegration exists Table 7 further support the use of panel econometric models that account for cointegration. For consistency of the estimates, the AMG and CCEMG estimators were used to estimate the results. In Table 8 (2020), Khan et al. (2021) , and Dimnwobi et al. (2021) who revealed higher GDP dampens the environment. This usually happens when the scale effect is in place such that increasing GDP requires higher volumes of natural resource extraction associated with high pollution, which damages the quality of the environment (Gill et al. 2018; Mensah et al. 2019; Ntarmah et al. 2021 ). According to the results, regardless of the country's income status (i.e., LMIC or LIC) in West Africa, the increase in production and use of goods, as well as changes in peoples' consumption (e.g., Nonrenewable energy sources), is associated with high pollution (Sarkodie and Strezov 2019) . On the other hand, REC had a significant negative effect on ED for all West African countries as a whole, as well as LICs and LMICs in the region. This finding indicates that REC decreases ED in West Africa by reducing CO 2 in the region. This is consistent with Destek and Sinha (2020) and Ullah et al. (2021) who found REC improves the environment. Thus, the quality of the West African environment improves as people shift toward renewable energy sources such as wind power, solar power, biomass, and hydropower, which generate little or no greenhouse gas emissions as against traditional energy sources that are highly pollutants (Ehigiamusoe and Dogan 2022). As a result, growthenvironmental improvement through emissions reduction involves a paradigm shift from non-renewable energy to renewable energy technologies such as renewables, carbon capture, and improving energy efficiency, among other things (Owusu and Asumadu-Sarkodie 2016) . According to Liobikienė and Butkus (2018) , one of the most significant climate policy potentials for mitigating ED is to promote renewable and improved energy efficiency. Furthermore, URB and IND had significant positive controlling effects on ED across the panels, suggesting URB and IND expansions are detrimental to the West African environment. The study provides evidence to support Wang and Su (2019) and Wang et al. (2018) who found IND and URB upsurges in ED in China and India. Thus, pollution rises rapidly through industrialization and urbanization that focus on increasing material production and conversing of the earth's surface into urban places with little to its effects on the environment (Dasgupta et al. 2002; Xue et al. 2022) . In terms of diagnostic statistics, the Wald chi 2 values are significant at the 1% level, suggesting that the distribution of the variables fits well with the CO 2 model. Similarly, the RMSE values ranging from 0.026 to 0.049 are far lower than the recommended 0.08 (Hair et al. 2017) . Thus, the RMSE results show that the models have high predictive power. Table 9 presents the EKC results from the AMG and CCEMG estimators. Using the West African countries as a whole, the results in Table 9 show that the coefficient of the linear term of GDP is positive and significant, while the coefficient of the quadratic term of GDP (GDP 2 ) is negative and significant. This indicates an inverted U-shaped relationship between GDP and ED, validating the EKC hypothesis in West Africa. Similarly, the results from the perspective of LMICs in West Africa show that the coefficient of GDP is significant and positive, while GDP 2 is significant and negative. Thus, the EKC hypothesis is validated among LMICs in West Africa. While this finding contradicts the outcomes of Keho (2015) and Ogundipe et al. (2015) who could not reveal evidence to support EKC's existence in West Africa, it supports Wasiu and Alasinrin (2015) and Omojolaibi (2010) that supported EKC in West Africa. The evidence of the EKC hypothesis among West African countries especially LMICs implies that ED caused by economic expansion through scale effect can be corrected in later stages of economic expansion by composition and technique effect (Adu and Denkyirah 2017; Halliru et al. 2020; Ntarmah et al. 2021 ). Thus, air pollution initially increases with a country's income level until a certain point where further increase in income level leads to strict environmental regulations, industry standards, and investment in research and development resulting in new, cleaner, and environmentally friendly technologies to replace old technologies that emit large quantities of pollution. Although GDP in West Africa is at its early stages of growth, West African countries have introduced several policies in line with global efforts in achieving environmental sustainability and carbon neutrality. Sorgho et al. (2020) , for example, discovered that 15 countries have at least one national policy document on climate change and that 19 policy documents cover seven key sectors (health, agriculture, infrastructure, water resources, forestry, energy, and education) and eight thematic areas (research and development, community resilience, industry development, disaster risk management, institutional development, policymaking, and education). At this point, integrating environmental awareness in economic expansion and demand for a quality and sustainable environment increases (Beckerman 1992; Komen et al. 1997; Liang and Yang 2019; Li et al. 2022 ) is a major concern to LMICs in West Africa. In contrast, the coefficients of GDP and GDP2 in LICs in West Africa are both positive, suggesting a monotonic positive relationship. Thus, there is a monotonic increasing curve established in LICs. The monotonic relationship between GDP and ED among LICs implies that further economic expansion causes more environmental harm for LICs, sometimes at a decreasing rate (Mitić et al. 2019 ). The EKC hypothesis may not apply to the LICs in West Africa since their early stages of economic growth were defined by the dominance of agriculture and labor-intensive techniques of production, which is associated with lower ED (Halliru et al. 2020 ) as compared to developed nations. However, these nations are increasingly becoming more urbanized and industrialized, signaling a shift toward the second stage of economic expansion and its consequence on ED. This shows that continuously increasing ED is associated with increasing income, suggesting that new sources of ED will keep emerging along with economic development creating pressure on the environment (Stern 2004) . Countries at these stages of economic advancement are too poor to invest in improving the environment and neglect the consequences GDP has on the environment (Sarkodie and Strezov 2019) . Generally, the findings of this study support He et al. Ntarmah et al. (2022), and Tachega et al. (2021) who revealed mixed results in terms of EKC existence. Particularly, the results support Li and Li's (2021) findings that established EKC in high-income countries but not LICs. The likeness of AMG and CCEMG shows that the results are reliable. The Wald chi 2 and RMSE values suggest that the distribution of the variables fits well with the CO 2 model and has high predictive power. As indicated earlier, the D-H Granger causality test was conducted to explore the causalities among the variables. The study explored causalities for the whole sample and the respective income groups. Table 10 presents the results of the Granger causality tests. The D-H causality results in Table 10 show that there are bidirectional causal links between GDP and ED in all countries, LMICs, and LICs in West Africa. This implies that while GDP influences ED depending on the economic structure and stages of economic development, increased pollution could bring down productivity, reducing crop yield and influencing biodiversity and ecosystems health. The findings support the Gorus and Aydin (2019), Gyamfi et al. (2021) , and Rahman and Vu (2020) studies that established a bidirectional relationship between GDP and environmental variables. Similarly, there are bidirectional causal links between ED and IND for all countries, LMICs, and LICs in West Africa, suggesting that negative externalities such as pollution from IND have an impact on the future growth of industries in West Africa. On the other hand, a unidirectional causal link from REC to ED and URB to ED exists among all countries, LMICs, and LICs in West Africa. Thus, renewable energy sources such as wind power, solar power, biomass, and hydropower decrease ED (Destek and Sinha 2020) , while the conversion of the Earth's surface into urban forest damages the environment (Dimnwobi et al. 2021; Xue et al. 2022) . However, the feedback from ED to URB and REC was inconsequential. Generally, the findings of this study support Ntarmah et al. (2022) , Mensah et al. (2021), and Musah et al. (2020) who found mixed causal links between environmental variables and their determinants. Furthermore, bidirectional causal links exist between REC and GDP in all countries, LMICs, and LICs in West Africa. Accordingly, REC is a significant driver of GDP, however, an increase in GDP inspires higher REC from renewable sources. Similarly, bidirectional causal links between GDP and URB exist across all the samples. While bidirectional causal links exist between IND and GDP among the whole West African countries and LMICs in West The global concern about the relationship between growth and the environment, as well as the need to understand country growth models and their consequences on the environment, continues to interest scholars and policymakers. In West Africa, a few studies have examined the potential of the countries benefiting from the EKC proposition, but the results have been mixed due to different methodological frameworks such as selective sample, time span, econometric modeling, and failure to account for heterogeneous growth patterns in West Africa. Addressing this gap, this study investigates the relationship between GDP and ED and establishes whether West African countries could benefit from the theoretical argument put forward by the EKC hypothesis. REC, IND, and URB are controlled in this study to understand their roles in environmental degradation in West Africa as well as minimizing their impacts on the growth-environmental studies. We selected panel data from all the 16 West African countries for the period 1990-2018. We applied heterogeneous panel data approaches and second-generational econometric techniques (AMG and CCEMG estimators) that are robust to cross-sectional dependence and slope heterogeneity. We established that the data from the West African countries are cross-sectionally dependent, heterogeneous, integrated of order one, I(1), and cointegrated. Our empirical results from AMG and CCEMG revealed the following. First, GDP upsurges ED in West Africa. These positive effects of GDP on ED exist in both LICs and LMICs in West Africa. However, the impact is greater in LMICs than LICs suggesting a stronger connection between GDP and ED in LMICs than LICs in West Africa. Second, the EKC hypothesis is valid in West Africa implying that West African countries collectively could benefit from EKC arguments. By comparison, EKC is valid only in LMICs of West Africa but not LICs in West Africa. Rather, an adverse monotonic relationship between GDP and ED in LICs in West Africa. This comparison is very useful to guide policy directions for the two income groups in West Africa. Third, REC reduces ED in West Africa as well as LICs and LMICs in the region, supporting the global shift from non-renewable energy to renewable energy as a means to curb ED. Fourthly, both URB and IND had detrimental effects on ED across the panels. Finally, there are bidirectional relationships between GDP and ED. This feedback mechanism exists in both LICs, and LMICs in West Africa supporting the view that GDP and the West African environment are interconnected. We can conclude that West African countries could collectively benefit from the EKC proposition when the region's growth model integrates environmental mitigation approaches and eco-friendly initiatives. Based on the findings, the following recommendations focusing on improving the relationships between the environment and its determinants are offered. • To start with GDP and ED, GDP was a substantial positive predictor of ED in West Africa. This conclusion implies that the nations' economic activities have contributed to increasing ED. As a result, if governments do not work to deploy alternative energy sources and energy-saving technology, their goal of achieving both economic development and an environmentally friendly economy would be thwarted. This study recommends ECOWAS and country-level policymakers in the region that increasing GDP should be backed by environmentally friendly policies to mitigate against ED associated with economic expansion. While LMICs are encouraged to further strengthen environmentally friendly policies within the growth-environmental framework, LICs are encouraged to engage in restructuring economic expansion towards more environmentally friendly initiatives to put them on EKC pathways to the growth-environmental outcome. This will ensure that the feedback mechanism between GDP and the environment will be mutually beneficial. • REC reduces ED, implying that a shift from traditional energy sources to renewable energy sources will improve the environment of West Africa. This finding throw more support to the West African countries policy shifts from traditional energy to renewable energy as a means to improve the environment. We urge that governments in West Africa increase their investments in renewable energy sources. The investment could be infrastructure investment via green job creation for the clean production process and a shift from electricity consumption to hydropower, wind energy, and solar energy leading to the transition to renewable energy. Uniform policies to promote REC should be formulated in the region and regulated by ECOWAS. • URB had a positive influence on ED. This implies that URB spanning rural-urban migration and anthropogenic activities such as the flying of a large number of automobiles, the conversion of Earth's land surface to urban usage, and industrial activities increase ED in West Africa. This study recommends that policymakers should focus on redeveloping rural areas to curb ruralurban migration. The concept of green and sustainable urbanization could help minimize the adverse influence of urbanization on the environment. A sustainable urban concept that incorporates eco-friendly practices, green spaces, and supporting technology into the urban environment to reduce ED and enhance air quality. • The positive influence of IND on ED implies that the activities of highly polluting companies such as steel emit smoke, thermal power plants, gases, and dust destroying the West African environment. However, this should not suggest that industrialization should be stopped. The industry could restructure its production processes to minimize ED by focusing on energy efficiency, fuel switching, combined heat and power, renewables, and more efficient use and recycling of materials. Reuse materials, such as production scrap or shop towels, rather than putting them into the waste stream. Governments should encourage industry standards and have an environmental compliance plan that promotes environmentally-friendly industrial practices. Alternatively, the introduction of the Carbon Tax and other environmental taxes such as "polluter pay tax" to deter highly environmentally damaging businesses could contribute to reducing ED. Although the findings are robust and consistent, this study has some limitations. First, while inferences may be derived from this study to other jurisdictions, it is vital to note that the findings of this study are only applicable to West African countries because the sample only included West African countries. Second, it is important to recognize that the sub-sample analyses considered LMICs and LICs in West Africa; they did not consider the individual countries in the region. Therefore, policy decisions based on the study should take into account the aggregate growth of West African countries as well as specific income groups, rather than individual countries. Finally, the analysis failed to establish the turning point for West African countries concerning the EKC concept. As a result, future studies should seek to define thresholds at which GDP begins to improve the West African environment and compare it with other economic regions in Sub-Saharan Africa. Author contribution LJ contributed to all aspects of the project, including conceptualization, methodology, formal analysis, and writing. KC contributed to all aspects of the project, including conceptualization, methodology, formal analysis, and writing. ZJ contributed to conceptualization, leadership, and writing. YK was involved in conceptualization, leadership, and writing. AHN contributed to all aspects of the project, including conceptualization, data extraction, methodology, formal analysis, writing, and proofreading. Funding We acknowledge the funding support of the National Natural Science Foundation (grant numbers 71973054; 71371087; 20BGL099). 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