To what extent are pollutant emission intensified by international tourist arrivals? Starling evidence from G7 Countries
Abstract
A large volume of environmental science and pollution research has focused on the contributions of various forms of energy consumption to emissions. However, little attention is
given to the impact of human activities such as tourism. Hence, this study investigates the
impact of tourist arrivals, energy use, and economic growth on CO2 emissions in the G7
countries for the period 1995–2018. The study employed the use of dynamic panel estimations, namely dynamic ordinary least square, fully modifed ordinary least squares and
panel pooled mean group-autoregressive distributed lag model (PMG-ARDL) estimation
techniques to establish long-run and short-run relationships between the study variable of
interest, while the Dumitrescu Hurlin non-causality test was used to test for causality direction among the variables outlined. Empirical fndings from the regression revealed that
economic growth, tourism and energy use are strong drivers of emission levels in the G7
bloc, while the causality analysis revealed that there is unidirectional causality from CO2 to
energy use, CO2 to economic growth (GDP) and GDP to tourist arrivals. These outcomes
imply that tourism, energy use and economic growth have no direct efect on emissions,
but rather emissions predict economic growth and energy use. Furthermore, tourist arrivals predict energy use; economic growth predicts tourism. Overall based on the study of
empirical outcomes, we suggest that to achieve more signifcant results in reducing emissions, governments of the G7 countries should continue to emphasize green tourism as
well as increase the share of renewable energy in their regional energy mix. More policy
direction was outlined in the concluding section of this study.
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24Issue
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