Monday, January 27, 2020
Business Cycle Synchronization in Latin America
Business Cycle Synchronization in Latin America Business cycles synchronization in Latin America:à A TVTPMS Approach Introduction: Over the last decades, there has been a growing interest in the business cycle transmissions among countries and interdependencies. The design of regional co-operations and integrations, such as Mercosur or Latin America countries, has the purpose to reduce poverty, amplify society welfare and enhance macroeconomic stability. However, it is crucial to understand the influence of regional integration and the role of external factors on regional business cycle synchronization. Fiess (â⬠¦..) find that a relatively low degree of business cycle synchronization within Central America as well as between Central America and the United States. Grigoli (2009) analyzed the causation relations among business activities of the Mercosur countries to determine which cycles are dependent on others, considering trade intensity, trade structure and the influences of the EU and US as well. He find some causation relations among the South-American countries; however, the EU and US do not play a relevant role in determining the fluctuations of their cycles. Gutierrez and Gomes (â⬠¦..) use the Beveridge-Nelson-Stock-Watson multivariate trend-cycle decomposition model to estimate a common trend and common cycle. Aiolfi et al. (2010) identify a sizeable common component in the LA countriesââ¬â¢ business cycles, suggesting the existence of a regional cycle Caporale and Girardi (2012) show that the LA region as a whole is largely dependent on external developments and the trade channel appears to be the most important source of business cycle co-movement. They report that the business cycle of the individual LA countries appears to be influenced by country-specific, regional and external shocks in a very heterogenous way. In order to investigate the degree of synchronization of the business cycles among the six major LA economies[1] (namely, Argentina, Brazil, Chile, Mexico, Colombia and Venezuela) as a whole, we consider the presence of a regional cycle by estimating the common growth cycle with the aim of testing its effect on each country-specific cycle. Besides this introduction, this paper is organized as follows. Section 2 contains the model and describes the data. Section 3 presents the empirical results and finally, section 4 concludes. Data and Methodology : We use quarterly data of the real GDP growth rate of the LAC countries, extracted from Penn World Table , namely â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦, covering the period from the first quarter of â⬠¦Ã¢â¬ ¦ to the last quarter of â⬠¦Ã¢â¬ ¦. We focus on whether the economic activity in the LAC countries is driven by a joint business cycle. We first look at the engine of growth lies within the LA countries. We therefore firstly begin by studying the existence of a common cycle among the economies studied. Second, we attempt to find the influence of a common factor referred to as the LACââ¬â¢s business cycle extracted from the estimation of a dynamic common factor model. We employ a measure of business cycles synchronization based on Hamiltonââ¬â¢s (1989) original Markov-switching model and the timeââ¬â varying Markovââ¬âswitching model developed by Filardo (1994) and reconsidered recently by Kim et al. (2008) to investigate the regional common factor in dating the regional business cycles. This study analyzes whether the synchronization pattern of business cycles in a country has systematically changed with the expansion or recession phases of regional business cycle. In this context, we assumed business cycles in a particular country are driven by regional cycles proxied by the common dynamic factor in real GDP growth of the LA countries, thus we use a dynamic factor model to extract the regional cycle. The main interest of the analysis is that a latent dynamic factor drives the co-movement of a high-dimensional vector of time-series variables which is also affected by a vector of mean-zero idiosyncratic disturbances, à µt (Stock, 2010) . The common factors are assumed to follow a first-order autoregressive process. This linear state-space model can be written as follows: (1) (2) where L1,t,â⬠¦,Lk,t are common to all the series, à µ and à · are independent Gaussian white noise terms. The L matrix of factor loadings measures the instantaneous impact of the common factors on each series. There are two growth phases or regimes with a transition between them governed by a time-varying transition probability matrix. The advantage of such a model is that the regimes can be easily interpreted as regimes of recession and expansion. The estimated equation is the following[2]: , (3) where and The endogenous variable, yt (the real growth rate in a given country at time t) is assumed to visit the two states of a hidden variable, st, that follows a first-order Markov chain, over the T observations[3]. à ¼st, ÃÆ', à â⬠¢ are real coefficients to be estimated. Denoting zt the leading variable (the regional common factor at time t), we want to know whether zt causes yt+k, k= 1,2, â⬠¦.Under the assumption that both y and z have ergodic distributions, we define the following transition probability functions: (4) where and are elements of the following transition probability matrix: (5) with Pij the probability of switching from regime j at time t âËâ 1 to regime i at time t and i, j =1, 2 with for all i,jâËË{1,2. k is a lag. In order to estimate the coefficients of equation (1), we need to maximize the log-likelihood of the unconditional density function of yt: (6) The unconditional density function is the product of the conditional density function and the unconditional probability of st. This is written as[4]: (7) Transition probabilities indicate that the states of expansion and recession are equally persistent, and this persistency is very strong. These probabilities aim to provide information about the likelihood of staying or switching from a given regime of k periods after a regime change in z. If the estimate of à ¼1 is positive and à ¼2 is negative, then regime 1 can be interpreted as one of expansion and regime 2 as one of contraction. Furthermore, assume that in eq. (â⬠¦) à ³1,2 is positive. This indicates that while any increase in leading indicator (z) increases P11, probability that y stays in regime 1, any decrease in z increases 1-P11, probability that y switches from regime 1 k periods later; that is, an expansion (recession) in z leads to an expansion (recession) in another country. Similarly, a negative à ³1,2 means that an expansion in z leads to a recession in another country. Additionally, a negative à ³2,2 means that any decrease (increase) in leading indicator in creases the probability of staying in regime 2 (switching from regime 2). If both à ³1,2 and à ³2,2 are insignificant, this would mean that there is no statistically meaningful impact of the occurrence of expansions or recessions in a leading market on the growth regime of the other markets[5]. Empirical Results Fig. 1 refers to the common factor, i.e. the regional growth cycle of the Latin America countries. As we can see, the common factor easily captures the well-known common features of the LA business cycle such as the 1994ââ¬â95 Mexican crisis and the Tequila crisis. To test the hypothesis of a joint business cycle in the LA, we estimate the TVTPMS model given by Eqs. (1) and (2) with the variable z referring to the common factor (regional cycle). Fig. 1. Common factor in real GDP growth of the Latin America countries The estimation results for the regional cycle as leading variable are reported in Table 1. We find significantly positive à ¼1 and negative à ¼2 which correspond to a situation of distinct expansion and contraction regimes. Our main findings are based on the significance of the estimated coefficients à ³1,2 and à ³2,2. When looking at the significance of the coefficient à ³1,2 , it is found that the common factor exerts direct effects on Mexico and Venezuela, implying that a high growth rate in regional cycle is informative of GDP expansion phases in these countries. That is, an expansion in common factor increases the probability that Mexico and Venezuela will continue to evolve in an expansion regime (i.e. P11). However, we see that à ³2,2 is never significant for these countries. This suggests that the regional cycle can never be considered as a leading indicator of the future state of the cycle in Mexico and Venezuela when they are already in the contraction regime (i.e. P2 2 and P1-22). Conversely, our results show that regional cycle is sensitive to economic fluctuations in Colombia, Chile and Brazil because à ³2,2 is significant, thereby implying that any change in regional factor does help predict whether these economies will stay into or escape from contractions. Table 1 Estimation results for the regional cycle as leading variable. The numbers in bold indicate that a high growth rate in Mexico, Venezuela, Colombia, Chile, and the Brail has an impact on the expansion and recession phases of the regional cycle. The evidence presented here indicates that Latin America countriesââ¬â¢ increasing economic interdependence has strengthened both interregional business cycles synchronization. A regional cycle could provide significant informational content in predicting the future state of Mexico and Venezuela only when they are already into the expansionary state and the future state of Colombia, Chile and Mexico when they are already in the contraction regime. That is, the high level of integration reached within the region has enabled Mexico and Venezuela to emerge as a pole of economic growth where their business cycles are mutually reinforced during expansions. In other words, while this increasing economic interdependence tends to strengthen output co-movements when these countries are already in the expansionary state, the shift from contractions to recovery, opposed to Colombia, Chile and Mexico, do not depend on the recovery in other countries. For Argentina, both à ³1,2 and à ³2,2 is insignificant, implying any change in the regional cycle regional cycle is not sensitive to economic fluctuations in this country. Conclusion The papers other main finding is that a regional cycle could provide significant informational content in predicting the future state of the five of the largest Latin American economiesââ¬âArgentina, Brazil, Venezuela, Chile, and Mexico. However, the amplitude and duration of the business cycle are asymmetric, indicating that nonlinearities are important in the growth process. Thus, since the Latin America countriesââ¬â¢ business cycles are well-tied together through a regional cycle, the costs of joining a monetary union would be reduced if a deeper regional economic cooperation, including intra-exchange rate stability and macroeconomic policy coordination, before turning on to a full-fledged monetary union. Since the Latin American economies have historically been highly dependent globalization process and demand from outside trading partners it would be interesting repeating a similar exercise with interest rates and cyclical output in advanced countries. References Hamilton, J.D., 1989. A new approach to the economic analysis of nonstationary timeà series and the business cycle. Econometrica 57, 357ââ¬â384. Filardo, A.J., 1994. Business cycle phases and their transitional dynamics. J. Bus. Econ. Stat.à 12, 299ââ¬â308. [1] These countries have accounted for some 70 percent of the regionââ¬â¢s GDP over the past half century (Maddison, 2003, pp. 134ââ¬â140) [2] The lag structure has been tested with standard AIC, HQ and SC criteria. [3] The occurrence of a regime is referred by a variable st that takes two values: 1 if the observed regime is 1 and 2 if it is regime 2 [4] The lags in the model are chosen using the Akaike information criterion. Moreover, we perform the Ljungââ¬âBox (LB) test to check that there is no residual autocorrelation [5] In this case, The TVPMS model converges to the Hamilton fixed probability model
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