# I. Introduction

Energy and energy sources have a significant role in the production process since it is accepted as an input for manufacturing. Moreover, energy conservation policies can affect the production level and the economic growth of the country directly. Turkey is an energy-dependent country and meets its energy demand mostly through energy imports. This energy dependency is a burden on the Turkish economy. Thus, policymakers should take into consideration some economic measures regarding energy use. The key question in this regard is: is it possible to conduct energy conservation policies in Turkey?

In the energy economics literature, it is possible to determine the applicability of energy conservation policies through a Granger causality test between energy consumption *conservation*, b) *neutrality*, c) *growth*, and d) *feedback* hypotheses. According to the conservation and neutrality hypotheses, economic development is not affected negatively by the reduction in energy consumption level, while the growth and feedback hypotheses claim the opposite effects^{[1]} (Gorus & Aydin, 2019).

The main goal of this study is to examine the causal linkages between sectoral energy consumption (industry, residential, services, and transport) and economic growth in Turkey for the 1971-2017 period. A recent study conducted by Gorus et al. (2019) considers Fourier terms in the causal linkages between oil imports and manufacturing production index using Turkish data. However, to our knowledge, our study is the first to consider the Fourier approximation in the relationship between sectoral energy use and income level for the Turkish economy.

The remaining part of this paper includes the following sections. Section II summarizes the related empirical literature while Section III introduces the dataset and methods utilized. Section IV exhibits the empirical findings of this paper, and Section V concludes the study.

# II. Literature Review

There is an extensive literature on the relationship between energy use and economic growth for both developed and developing countries (see Omri, 2014; Ozturk, 2010; Tiba & Omri, 2017). However, there is a limited study on this issue regarding the sectoral analysis for the Turkish energy market.

There are several papers on the relationship between sectoral energy/electricity consumption and economic growth regarding the Turkish economy. However, these studies mostly ignore the effects of structural breaks both in the unit root testing and causality analysis. Among the preliminary studies, Terzi (1998) finds a bidirectional causal relationship between income and electricity consumption for commercial and industrial levels in the Turkish energy market. Furthermore, Jobert & Karanfil’s (2007) findings suggest support for the neutrality hypothesis for the aggregate and industrial level of energy consumption. Moreover, Kar & Kınık (2008) show that electricity consumption Granger causes economic growth at the sectoral level.

Şahbaz & Yanar (2013) find a one-way causality running from economic growth to total energy consumption, while sectoral level analysis provides mixed results. Besides, Usta & Berber (2017) employ the Toda-Yamamoto Granger causality test and show evidence for the feedback hypothesis for Turkey’s transport and industry sectors, Their results further support the neutrality hypothesis for agriculture and residential sectors. Apart from these studies, Gorus et al. (2019) take into consideration the Fourier terms in testing the causal linkages between oil prices, oil imports, and income level in Turkey. They find that the income level Granger causes energy imports, thus supporting the conservation hypothesis.

# III. Data and Methodology

This study utilizes an annual dataset covering the period 1971-2017 for the Turkish economy. Sectoral energy consumption data and GDP data are taken from the International Energy Agency and United Nations’ datasets, respectively. All the series are in natural logarithm form. Descriptive statistics of the series are displayed in the following table.

Enders & Jones (2016) state that ignoring structural breaks in a VAR (vector autoregression) model can lead to biased results. As a result, the Granger causality test results can be misleading. In this study, we follow the methodology of Enders & Jones (2016) to determine the causal link between the variables that consider the gradual shifts instead of sharp breaks. They incorporate the Fourier terms into the standard VAR model (Eq. 1) and obtain the following form [Eq. 2]:

In the above equation, is a vector of intercepts, denotes a coefficient matrix, is the error term, and is lag length.

where while denotes the deterministic term, and depends on the *n* Fourier frequencies:

denotes the number of observations and

# IV. Empirical Results

This study utilizes an annual dataset and employs the Fourier approximation to detect the causal relationship among different types of energy use and income level at the sectoral level. Empirical results from our analysis are presented in Tables 2 and 3. Table 2 displays the unit root properties of the series based a model that accommodates both a constant and a time trend term –the Fourier ADF model proposed by Enders & Lee (2012). The ADF unit root test is also provided. Table 3, on the other hand, exhibits the Fourier Granger causality test results for aggregated and disaggregated levels of energy use and GDP.

We employ two unit root tests, namely the ADF and the Fourier ADF. Since the *F*-statistics are lower than the critical value, it is revealed that the Fourier terms are insignificant in the unit root analysis. Thus, this study takes into consideration the ADF unit root test results instead of the Fourier ADF test. According to the findings, GDP from transport, final energy consumption, industrial energy consumption, and residential energy consumption series have mean-reverting behavior, while the remaining series are nonstationary. We take the first differences of the nonstationary series and then conduct the Fourier Granger causality analysis between the aforementioned variables. The empirical results are presented in Table 3.

Empirical results gathered from the causality test show that there is a one-way causal relationship from economic growth to energy consumption (conservation hypothesis) regarding aggregated data. Also, there is a unidirectional Granger causality from economic growth to energy consumption in the industrial sector. However, there is no causal linkage between these series (neutrality hypothesis) in residential, services, and transport sectors in the Turkish economy during the period 1971-2017. Overall, one can state that energy conservation policies will not affect the economic growth of this country negatively. So, the government can design and implement energy conservation policies to decrease energy consumption at the sectoral level.

Our results are in line with the empirical findings of Jobert & Karanfil (2007), Şahbaz & Yanar (2013) and Gorus et al. (2019) in terms of the applicability of energy conservation policies.

# V. Conclusion

This paper explores the causal linkage between energy use and GDP level at the aggregated and disaggregated level for the Turkish economy covering the period 1971-2017. For this purpose, we employ the Fourier Granger causality analysis that captures gradual structural shifts instead of sharp breaks. The empirical findings suggest that the conservation hypothesis is valid for the total energy consumption-GDP nexus. A similar kind of relationship is found for the industrial sector. However, we do not detect any causal link for the residential, services, and transport sectors, which support the neutrality hypothesis. Overall, our findings show that it is possible to decrease the energy consumption level for the Turkish economy. Policymakers should design policies that decrease energy consumption and increase energy efficiency at the national level.

and denote the*unidirectional*,*bidirectional*, and*no*Granger causality, respectively.