2. Exchange Rates and Cocoa Markets

This section provides a detailed discussion of exchange rates and cocoa markets for key U.S. cocoa trading partners. This study focuses on U.S. cocoa imports from Côte d'Ivoire, Ghana, and the Dominican Republic, which together account for more than 90% of all U.S. cocoa imports. Although Ecuador is the third-largest exporter of cocoa to the United States, the Ecuadorian government abandoned the sucre in 2000 and started using the U.S. dollar (USD) as their currency (Wang, Reference Wang2016). Consequently, it is not possible to analyze exchange rate pass-through for U.S. cocoa imports from Ecuador.

Côte d'Ivoire's currency is the West African CAF franc (XOF), which was pegged to the euro on January 1, 1999, at a rate of 655.957 XOF per euro (OANDA, 2017). Therefore, volatility in the XOF is highly correlated to the euro.Footnote ¹ The Ghanaian currency, the cedi (GHS), was pegged to the USD in the 1970s and 1980s. However, with high inflation and dwindling currency reserves, the government converted to a floating exchange rate system starting in 1990 (Ameyibor, Reference Ameyibor2016). The Dominican peso (DOP) was fixed to the USD until 1985, when the government switched to a floating exchange rate system.

The global chocolate market grew by 13% from 2010 to 2015 to top $101 billion (Barnato and Graham, Reference Barnato and Graham2016), which is important for the cocoa industry as cocoa beans are the primary input for chocolate production. Two types of cocoa (Forastero and Crillo)Footnote ² are grown throughout the world (World Agroforestry Centre [ICRAF], 2017). The Forastero variety is most widely grown in West Africa, Brazil, and Southeast Asian countries, whereas Crillo is grown primarily in the Caribbean, Central and South America, and Indonesia. The majority of mass-production chocolate processors utilize the high-yield, lower-quality Forastero bean (85% of all cocoa production), whereas specialty chocolate processors use the low-yield, higher-quality Crillo bean (about 3% of total cocoa production).

The World Bank and International Monetary Fund required cocoa-producing countries in West Africa to institute structural adjustment programs (SAPs) in the mid-1980s (Gilbert, Reference Gilbert2009). The SAPs aimed to improve the linkage between world cocoa prices and cocoa farmers. The Ivorian government implemented SAP between 1998 and 2002, and Ghana partially liberalized its cocoa sector between 1992 and 1993. In Côte d'Ivoire, the Coffee and Cocoa Council still oversees the cocoa market, but charges high export taxes, offers low farm-gate prices, and provides few extension services (Ton et al., Reference Ton, Hagelaars, Laven and Vellema2008). Furthermore, the government loosened its oversight of cocoa the early 1990s, giving private parties the ability to control credit, pricing, and export license. Despite being the largest cocoa-exporting country, Ivorian cocoa farmers still lack sufficient information regarding markets and quality requirements and pay high transport costs (Tsiboe et al., Reference Tsiboe, Dixon, Nalley, Popp and Luckstead2016). The Ghanaian cocoa export market is still controlled by the Ghanaian Cocoa Marketing Board, which is the sole buyer of cocoa from farmers, controls all exports, provides farmers with reduced farm-gate prices,Footnote ³ but does offer some services such as farmer training, input subsidies, and seed distribution (Gilbert, Reference Gilbert2009; Ton et al., Reference Ton, Hagelaars, Laven and Vellema2008; Tsiboe et al., Reference Tsiboe, Dixon, Nalley, Popp and Luckstead2016). SAPs have led to better-functioning markets and higher farm-gate prices for cocoa producers; however, privatization has resulted in a reduction in extension services, agricultural research, and rural banking. Consequently, African cocoa producers have particularly low yields, quality, and prices relative to their American and Southeast Asian counterparts (Nyemeck, Gockowski, and Nkamleu, Reference Nyemeck, Gockowski and Nkamleu2007; Tsiboe et al., Reference Tsiboe, Dixon, Nalley, Popp and Luckstead2016; Wilcox and Abbott, Reference Wilcox and Abbott2006).

In contrast to the African system, the Dominican government has largely stayed out of its cocoa market (Estrella, Reference Estrella2016). The government established the Department of Cocoa in early 2014, which operates as an “autonomous and decentralized state” agency commissioned to protect the interest of the cocoa industry. The Department of Cocoa largely acts as a service agency, assisting with crop development, infrastructure, marketing, market expansion, and diversification.

In summary, Côte d'Ivoire's cocoa industry is a mix of public and private entities governing the cocoa sector. However, in Ghana the government is directly involved in setting prices and exporting cocoa. In contrast, the Dominican cocoa industry is market based, with the government mainly providing extension and marketing services. The regional difference in cocoa bean type and quality and the degree to which government agencies control exports (particularly in Ghana) play an important role in (a) how cocoa exporters respond to exchange rate volatility and (b) the degree of asymmetry in exchange rate pass-through.

3. Econometric Model

Next, the model for estimating the short- and long-run relationship between U.S. cocoa imports and exchange rates and per capita income is discussed in detail. To ensure that these variables have a genuine causal relationship, a test for cointegrationFootnote ⁴ between volume of real U.S. cocoa imports (in USD) with the real exchange rate (USD/local currency units [LCU]) and U.S. domestic demand measured in real per capita income is considered (Engle and Granger, Reference Engle and Granger1987; Johansen, Reference Johansen1988; Nelson and Plosser, Reference Nelson and Plosser1982). Accordingly, the ARDLFootnote ⁵ model (Pesaran and Shin, Reference Pesaran and Shin1998) is defined as

(1) $$\begin{equation} \begin{array}{@{}l@{}} \Delta m_t^k = {\alpha ^k} + {\beta ^k}m_{t - 1}^k + \psi _r^kr_{t - 1}^k + \psi _i^k{i_{t - 1}} \\ \quad \quad \quad +\sum\limits_{n = 1}^N {\phi _n^k} \Delta m_{t - n}^k + \sum\limits_{n = 1}^N {\left( {\rho _{r,n}^k\Delta r_{t - n}^k + \rho _{i,n}^k\Delta {i_{t - n}}} \right)} + \xi _t^k \end{array}, \end{equation}$$

where α^k, β^k, ψ^k_r, ψ^k_i, ϕ^k_n, ρ^k_{r, n}, and ρ^k_{i, n} are coefficients; the k superscript represents country k = Côte d'Ivoire, Ghana, and Dominican Republic; Δ defines the first difference; m^k_t is the log of the real value of U.S. cocoa imports from country k; r^k_t is the log of the real exchange rate (LCU/USD) for country k; i_t is the log of real per capita income representing U.S. domestic demand; and ξ^k_t is a random error term. Analysts commonly apply Akaike information criterion and Bayesian information criterion to determine the lag order N. Equation (1) represents three independent regression equations, one for each country k. As a result, trade elasticities and asymmetry tests (defined subsequently) can be compared across countries.

The error correction term β^k ∈ [ − 1, 0] is key for expressing long-run relationships: if β^k = −1, then instantaneous long-run equilibrium adjustments occur; conversely, if β^k = 0, then no long-run relationship exists between U.S. cocoa imports and USD/LCU exchange rates and income. In addition, if β^k = 0, then the model only estimates short-term dynamics, and no cointegration relationships exist. In the ARDL specification, the coefficients ψ^k_r and ψ^k_i are the product of the long-run elasticities (e^k_r and e^k_i) and the error correction term (β^k). Therefore, the long-run exchange rate and income pass-through elasticitiesFootnote ⁶ are

$$\begin{equation*} e_r^k = - \frac{{\psi _r^k}}{{{\beta ^k}}} \quad {\rm{and}} \quad e_i^k = - \frac{{\psi _i^k}}{{{\beta ^k}}}.\vspace*{-2pt} \end{equation*}$$

Parameters ϕ^k_n and ρ^k_{r, n} and ρ^k_{r, n} characterize the short-term dynamics, with ρ^k_{r, 0} and ρ^k_{i, 0} representing the contemporaneous elasticities of exchange rates and import demand on trade volumes.

To investigate asymmetric reactions of U.S. cocoa imports to changes in exchange rates, the NARDL approach, along with a partial sum decomposition of the explanatory variable, is implemented (Shin, Yu, and Greenwood-Nimmo, Reference Shin, Yu, Greenwood-Nimmo, Sickles and Horrace2014). In doing so, cutting-edge econometric techniques are applied to investigate the existence of short- and long-run asymmetries and test for hidden cointegration, which is not possible using the standard error-correlation or ARDL model. The partial sum decomposition for exchange rate r_t is

(2) $$\begin{equation} r_t^k = r_0^k + r_t^{k - } + r_t^{k + }{\rm{,}}\vspace*{-2pt} \end{equation}$$

where r ₀ is the initial value at t _0, and the negative and positive first-difference partial sums are

$$\begin{equation*} r_t^{k - } = \sum\limits_{n = 1}^t {{\rm{min}}} \left( {\Delta r_n^k,0} \right){\rm{ }}\quad \quad {\rm{and}}\quad \quad r_t^{k + } = \sum\limits_{n = 1}^t {{\rm{max}}} \left( {\Delta r_n^k,0} \right){\rm{.}}\vspace*{-2pt} \end{equation*}$$

Substituting the partial sum decomposition of exchange rates (equation 2) into the ARDL model (equation 1) yields the NARDL model:

(3) $$\begin{eqnarray} \Delta m^k_t &=& \alpha_0^k + \beta^k m^k_{t-1} + \psi ^{k-}_r r^{k-}_{t-1} + \psi^{k+}_r r^{k+}_{t-1} + \psi ^{k}_i i_{t-1} + \sum\limits ^N_{n=1} \phi ^k_n \Delta m^k_{t-n}\nonumber\\ &&+ \sum\limits_{n = 1}^N {\left( {\rho _{r,n}^{k - }\Delta r_{t - n}^{k - } + \rho _{r,n}^{k + }\Delta r_{t - n}^{k + } + \rho _{i,n}^k\Delta {i_{t - n}}} \right)} + \xi _t^k{\rm{,}} \end{eqnarray}$$

where α^k₀ = α^k + r ₀^k + i^k ₀. Similar to the previous discussion, the asymmetric long-run elasticities for the real exchange rate are

$$\begin{equation*} e_r^{k - } = - \frac{{\psi _r^{k - }}}{{{\beta ^k}}}{\rm{ }}\quad {\rm{and}}\quad e_r^{k + } = - \frac{{\psi _r^{k + }}}{{{\beta ^k}}}. \end{equation*}$$

4. Data

For the econometric analysis, the monthly value of U.S. imports from Côte d'Ivoire, Ghana, and the Dominican Republic for HS Code 180100 Cocoa Beans was obtained from the United Nations (2017) for the years 1989–2016. As identified in Section 2, more than 90% of all U.S. cocoa imports originate from these three countries. Nominal values were converted into real terms using the U.S. import deflator collected from the U.S. Department of Labor, Bureau of Labor Statistics (2017). Real import values were seasonally adjustedFootnote ⁷ to account for seasonal trends and differences in harvest times across regions. Data for real LCU/USD were gathered from the U.S. Department of Agriculture, Economic Research Service (2017). Real per capita GDP was assembled from the Federal Reserve Bank of St. Louis (2017). Table 2 provides summary statistics of the import and exchange rate data for Côte d'Ivoire, Ghana, and the Dominican Republic and GDP data for the United States.

Table 2. Summary Statistics

Note: USD GDP, gross domestic product in U.S. dollars.

Figure 2 graphs the logged exchange rate data for each country and the corresponding partial sum decomposition. In Côte d'Ivoire, prior to the start of the 1995 cocoa sector liberalization, the exchange rate increased rapidly from a low of log(352.30) = 5.86 in August of 1992 to a peak of log(807.05) = 6.69 in January of 1995, indicating swift depreciation of the XOF (conversely, appreciation of the USD). This depreciation is seen by the spike in the e ^{k +} _r partial sum decomposition. Since this event, the Ivorian exchange rate has been fairly volatile with periods of depreciation from about 1995 to 2002 followed by appreciation from about 2002 to 2012. For Ghana, two periods of rapid depreciation of the GHS stand out. The first occurred starting in the late 1990s through the early 2000s when the exchange rate rose from log(1.102) = 0.10 in June 1999 to log(2.286) = 0.83 in October 2000. The second started in the mid-2010s when the exchange rate rose from log(1.548) = 0.44 in July 2013 to log(2.612) = 0.96 in August 2014. Both of these episodes of rapid depreciation are seen as spikes in the e ^{k +} _r partial sum decomposition. For the Dominican Republic, the economic crisis of 2003 and 2004, largely attributed to a failed bank bailout, led to a rapid depreciation of the DOP as the exchange rate increased from log(39.576) = 3.68 in December 2001 to log(64.113) = 4.16 in November 2003. The resolution of this crisis resulted in a rapid appreciation as the exchange rate fell to log(35.434) = 3.57 by March 2005. The rapid depreciation and appreciation are readily seen in the e ^{k +} _r and e ^{k −} _r partial sum decompositions. These depreciation and appreciation events are used to create indicator variables, which are included in the analysis where appropriate.

Figure 2. Exchange Rates and Their Partial Sum Decomposition

Figure 3 depicts the log of real U.S. GDP per capita. The three recessions since the late 1980s (July 1990–March 1991, resulting from heightened inflation and 1990 oil price shock; March 2001–November 2001, caused by the collapse of the dot-com bubble; and the great recession, December 2007–June 2009, resulting from the collapse of the housing bubble) are readily observed in the log real GDP per capita data.

Figure 3. Log Real Gross Domestic Product per Capita