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Economic Development, Vertical Intra-Industry Trade and Gains from Trade 1Department of Economics, Tay Nguyen University, Dak Lak Province, Vietnam 2Department of Economics, Chonnam National University, Gwangju, South Korea Email: * Received November 19, 2013; revised December 19, 2013; accepted December 26, 2013 ABSTRACT This paper investigates the impact of economic development on international trade and sources of gains from trade based on a theoretical model that considers consumers’ preference diversity for quality and economies of scale in production. We confirm that both the volume of trade and the share of intra-industry trade increase with increases in the level of economic development in the region. We also find that the intra-industry trade share increases as the technology levels of the two countries become similar. Additionally, we find that both countries can gain from trade and that those gains come from three sources: internal economies of scale, more consumption, and more variety of goods. Keywords:Product Quality; Volume of Trade; Intra-Industry Trade; Economic Development; Gains from Trade 1. Introduction It has been generally accepted that trade is concentrated among the industrialized countries, and trade among industrialized countries is principally vertical intra-industry trade (IIT). For example, Bergoeing and Kohoe [1] found that trade within the OECD countries has increased at a much more rapid rate than OECD trade with the rest of the world. Additionally, Gabrisch and Segnana [2] determined that more than 50% of trade among EU countries was IIT, and that the intra-industry trade among EU countries was composed, in large part, of vertical IIT. In explaining these characteristics of trade, most studies have emphasized economies of scale, product differentiation, and imperfect competition as the determinants of intra-industry trade. For example, seminal papers by Krugman [3] and Lancaster [4] developed this theoretical framework. However, these models pertain to horizontal product differentiation, assuming that these products are identical in quality. Flam and Helpman’s [5] considered a model where the North exports high-quality products and the South exports low-quality products, and they evaluated the effects on trade of factors such as technical progress, income distribution, and population growth. Hallak [6] suggested that Linder’s hypothesis (see Linder [7]) might not be found due to a systematic bias caused by aggregation across sectors, and he proposed that this hypothesis should be formulated at the sector level with a control for inter-sectoral determinants of trade. In the opposite direction, Falvey and Kierzkowski [8] returned to HOS fashion to explain IIT without modifying traditional trade theoretic models. Davis [9] and Bhagwati and Davis [10] showed that IIT can occur in traditional trade models as a consequence of technical differences within an industry. For this reason, they argued whether one should call this kind of trade vertical IIT or just inter-industry trade. Especially, Lüthje [11] stressed that foreign trade is mostly inter-industry trade because what called vertical IIT is in fact not IIT, but inter-industry trade. The contribution of this paper is as follows. First, we considered determinants of the international trade with the assumption that products are vertically differentiated. It is worthwhile to note that Krugman [3] and Lancaster [4] investigated IIT regarding horizontally differentiated products so these models do not provide any explanation to vertical intra-industry trade. Second, our paper does provide an explanation to the gains from vertical IIT while previous works do not. This finding is, at least in the settings of this model, the evidence against the argument that vertical IIT is actually inter-industry trade. Furthermore, this paper proposes a new and simple model to investigate vertical IIT. This paper is organized as follows. Section 2 describes the basic model, and Section 3 derives the determinants of trade volume and vertical IIT share using a theoretical model. Section 4 examines the sources of gains from trade. Section 5 presents empirical implications of our findings. The final section contains our conclusions. 2. The Model We consider a 2 × 2 × 2 model: two countries, two firms, and two varieties of goods. Suppose that there is a world in which only two countries exist. One of them we will call Home, and the other we will refer to as Foreign. Both countries are assumed to be at the same level of economic development, and their per-capita incomes are assumed to be identical. We also assume that their technology levels differ from industry to industry. For example, Home enjoys higher-level technology in some industries, but Foreign has higher-level technology in other industries. As the two countries trade with one another, Home exports higher-quality goods in some industries, but also exports lower-quality goods in other industries. Even though there may be many different industries in a country, we hereinafter focus on the trade of goods in a single industry wherein goods are identical, but can be differentiated by quality. We utilize the term “qualitydifferentiated good” to reference this industry. 2.1. Supply Side Each country has one firm that produces one type of the quality-differentiated good1. Without any loss of generality, we assume that the foreign firm produces high-quality goods and that the home firm produces low-quality goods in the considered industry; this implies that the technology level of the foreign firm is higher than that of the home firm in that industry2. In Grossman and Helpman’s [13] rising product quality model, the quality of each product is determined endogenously with R&D investments. In this paper, we assume that the quality of each product is a consequence of R&D investment; however, this expenditure has been sunk and become a fixed cost in the production process3. For this reason, we consider these qualities to be given and can be used as a proxy for technology level. In producing the goods, two firms have cost functions as follows:
In the cost function (1), we utilize H and L to designate the high and low quality firms, respectively. Thus, the total cost, 2.2. Demand Side The populations of consumers in Home and Foreign are the same and are normalized to 1. In each country, consumers are distributed uniformly between 0 and b according to the preference for quality
This function is an indirect utility function of consumer i, identified by the parameter We denote the corresponding quality level and price level of high-quality and low-quality goods by
Some consumers do not wish to buy any goods at the prevailing prices. We denote by JL a consumer who is indifferent with regard to the purchase of a low-quality product or refraining from buying. In Equation (2), this type of marginal consumer is defined as
All consumers satisfying the condition Ji > JLH will purchase high-quality goods, all consumers having JL < Ji < JLH will purchase low-quality goods, and all consumers having Ji < JL will purchase no goods5. 2.3. Trade between Countries Let us model a game as follows: There is not any trade barrier between Home and Foreign, and the two firms sell their goods to both countries. Thus, the competition is purely Bertrand in price. We also assume that no price discrimination is possible because the goods can move freely without any transportation costs between the two countries. Now, we go back to the two-country world. If countries are in trade, each country exchanges its products with the other country6. Home buys high-quality products from Foreign, and Foreign buys low-quality products from Home. Put differently, home consumers with a higher preference for quality will consume high-quality goods imported from Foreign, whereas foreign consumers with a lower preference for quality will buy low-quality goods from Home. Trade between the two countries can be explained by Figure 1. Home exports low-quality goods to Foreign, and imports high-quality goods from Foreign. 3. Trade Determinants 3.1. Price Competition The optimal price of the two firms can be obtained by using the Nash Equilibrium. Based on Figure 1, demands for low-quality and high-quality goods are:
Using (1), (5) and (6), we can derive the profit functions of low-quality and high-quality firms, as follows:
The first part comes from the revenue of low-quality (or high-quality) firm; the second part is the total cost of low-quality (high-quality) firm. From (7), the best response of the low-quality firm
Similarly, from (8), the best response of the high-quality firm
The Nash Equilibrium is derived by solving (9) and (10) with
Lemma 1: Low-quality firm will not offer any goods if the consumer’s preference diversity for quality is low Proof: A low-quality firm will not produce low-quality goods if the optimal price is lower than the marginal variable cost, which is Lemma 1 implies that low-quality firms will exit the market if the quality preference diversity of consumers is insufficient. In this case, high-quality firms will monopolize the market. In other words, the trade flow of the considered goods is only from Foreign to Home. Preference diversity b, is a measure of differences in the taste for quality among consumers. As conceptualized by Gabszewics and Thisse [17], a preference for quality is dependent on consumers’ income; the more income a consumer has, the more he is willing to pay for a given quality level. Additionally, Sutton [15] also came to a similar conclusion, and determined that the preference for quailty increases with rising income. For this reason, b variable can be seen as a proxy for a country income level7. We allow A region is considered to have a high economic development level if it has high income and a high technology level. For this reason, we utilize bQ as a proxy for regional economic development. It is also worth noting that Proposition 1: Vertical intra-industry trade is unlikely to be observed in a region at very low economic development 3.2. Determinants of Intra-Industry Trade If
Now, replacing optimal prices in (11) and (12) into (13) and (14), and then substituting
Proposition 2: When both trading countries are at a higher level of economic development, the volume of trade between them will be higher. Proof: From (15) and (16), we can conclude directly that X and M both increase in b and Q. Now, note that the imports (M) shown in (16) always exceed the exports (X) shown in (15). Thus, the Grubel-Lloyd index used to compute the IIT index can be written as follows, and is related to the ratio of exports to imports,
We can see that IIT increases directly with R. That is, IIT behaves as R does. Proposition 3: The regional development exerts a positive impact on vertical IIT share. However, when the region achieves a certain level of economic development, vertical IIT share tends to no longer be affected by the development level. Proof: Based on the signs of For the purpose of visually presenting propositions 1 and 3, we draw Figure 2 with
Figure 2. Relationship between economic development and vertical IIT. Proposition 4: The IIT index increases as the technology levels between countries become similar. Proof: We only prove 4. Gains from Trade In this section, we try to identify why countries become better off when they are in trade with each other. We prove that countries in trade are better off for the following three reasons: goods are produced more efficiently, more goods are consumed, and a greater variety of goods are available. All of these findings are derived from analyses of the welfare of both countries before trade and after trade. 4.1. Closed Economy If the two countries are not currently trading with each other, the high-quality firm will be a monopolist in Foreign and the low-quality firm will be a monopolist in Home. For the purposes of our analyses, the following are the optimal prices, the consumers with the lowest preference for quality who can buy goods, and the welfare in both Home and Foreign. The detailed mathematical calculations are presented in the appendix section. 1) The optimal prices established by the high-quality and low-quality firms are
(In Foreign, set by high-quality firm)
(In Home, set by low-quality firm) 2) The marginal consumer with the lowest preference for quality can buy the good:
3) Welfare when countries are closed:
Note that the superscript NF or NH indicates the “notrade” case in Foreign or in Home. 4.2. In Trade If Home and Foreign are currently trading, each country exchanges its products with the other country. Home consumers with a high preference for quality buy highquality products from Foreign, and foreign consumers with low preference for quality buy low-quality products from Home. From section III, we have the following: 1) From (11) and (12), the optimal prices established by high-quality low-quality firms are
(High-quality good)
(Low-quality good) Note that these prices are the same in both countries. 2) Substituting (11) and (12) into (3) and (4), the marginal consumers with the lowest preference for quality can buy the high-quality good and the low-quality good as follows:
(For high-quality goods in both countries)
(For low-quality goods in both countries) 3) Welfares when countries are in trade (see appendix for detailed mathematic calculations). Note that the TF or TH superscript indicates the “trade” case in Foreign or in Home. 4.3. Sources of the Gains By comparing (22) with (28) and (23) with (29), we have
Lemma 3: Both Home and Foreign gain when they are in trade with one another. Lemma 3 demonstrates that both countries gain from trade. Where, though, do the gains come from? If we consider Home and Foreign as a single region, “something better” must occur in the region when countries are in trade. So, what might that be? Intuitively, regional welfare derives from the gross services of good consumption minus the total cost incurred by both firms. Note that the revenues of firms are only a part of these gross services that firms capture from consumers. By comparing (20) and (21) with (27), we have
The inequalities in (31) imply that more consumers can buy the good (regardless of high-quality or lowquality ones) when countries are in trade. Lemma 4: Goods are produced and consumed more if countries are in trade. We note that quality costs of goods are fixed. Two implications can be gleaned from lemma 4. First, goods can be produced more cheaply because the total output of both firms is higher when countries are in trade. Put differently, economies of scale contribute to increases in the total welfare of the region9. Second, greater consumption of goods in both countries implies that more services are generated. Because these additional services are greater than their cost, this consumption results in an increase in the total welfare of the region. Furthermore, when countries trade with each other, we have
which implies that all consumers (in Home) who purchase low-quality goods prior to trading will shift to consuming high-quality goods. Thus, trade provides consumers with more choices of goods. This shifting from “low quality to high quality” provides more services to the region because it results in the consumption of more quality units. This gain derives from the greater variety of goods available when countries are in trade. Proposition 5: Both countries gain from trade and these gains derive from three sources: firm’s economies of scale, more consumption, and more choice of goods. 5. Empirical Implications First, we have demonstrated that the volume of trade and IIT index are positively proportional to a product of Second, the value a shows the convergence of technology levels among countries. When the value Third, proposition 1 shows that intra-industry trade does not occur among countries whose economic development levels are both very low. This means that, if the regional economic development is quite low, the opportunity for two-way flows of trade will be eliminated. This is because high-quality firm will block low-quality firm and monopolize the entire market. This explains why vertical IIT is unlikely to be observed between countries at a very low level of economic development. Finally, our model confirms that gains from vertical IIT come from economies of scale and more varieties, which is similar to the sources of gains from horizontal IIT in Krugman [3]. However, the role of economies of scale is different between our model and Krugman [3]. In Krugman [3], price falls because of economies of scale. In our model, more competition due to trade makes price fall, and the lower price stimulates more consumption as well as total product output. The expansion of this output causes economies of scale that increases in the regional welfare. Furthermore, vertical IIT allows more consumption that makes the region better off. It is important to note that this finding is obtained only in the short-run as firms are not allowed to select different quality levels for their goods. 6. Conclusions In this paper, the determinants of vertical intra-industry trade between two countries have been evaluated. Additionally, gains from trade have also been identified. The principal findings of this study are as follows: First, the economic development of a region, which is defined as a product of the income and the regional technology levels, increases the volume of trade and the intra-industry share. This explains why the IIT index and trade volume are higher among developed countries as compared to developing countries. Second, the IIT share is positively related to the similarity in technology levels between countries. Third, vertical IIT is unlikely to be observed in regions with very low levels of economic development. This finding implies that trade among low-income countries can be characterized purely by inter-industry trade, even if the traded goods are markedly different in quality. Basically, the findings of this study are generally consistent with the previous reports of Bergoeing and Kehoe [1], Schott [18], Hummels and Klenow [19], and Hallak [6]. Finally, we have demonstrated that this kind of trade can improve both countries. Three sources of the gains from trade being identified include internal economies of scale, increased consumption, and greater varieties of goods. Even if this model provides some theoretical explanations for vertical intra-industry trade, it still has a limitation. The model includes quality-differentiated products only in an oligopoly market and product qualities are given. However, we expect that the results will be similar in other market structures and when firms are allowed to select quality levels for their goods. Acknowledgements The first author would like to thank the Vietnam National Foundation for Science and Technology Development (NAFOSTED) for supporting this research under grant number II1.1-2012.17. REFERENCES
Appendix 1) Proof of proposition 3: From (15) and (16), we get the following:
We are using bQ as a proxy for regional economic development. If we let bQ = x, then (A1) can be rewritten as follows:
Differentiating R with respect to x, we obtain:
Let
We note that By solving (A4), we obtain Thus, it can be readily seen that Lemma A1: The ratio of exports to imports R is higher when x increases provided that We have Lemma A2: When
From formula (17), we derive From lemma A1 and Lemma A2, proposition 3 can be proven. 2) Proof of Proposition 4 We rewrite R as follows:
Deriving differential of (A5) with respect to a and then rearranging it, we have
Now, we let:
It is worth noting that (A6) is obtained with the condition that Because
From (A6), (A9), and (A10), we can derive Note that IIT behaves precisely as R does. Thus, IIT will increase if a increases. Put differently, IIT increases with greater similarity of the technology levels between the two countries. Proposition 4 is, therefore, proven. · 3) Welfare in closed economies · In Foreign Because only high-quality firms operate in Foreign, the firm functions as a monopolist. We can express the profit function of high-quality firms as follows:
High-quality firm (the firm in Foreign) will set a price for its goods that maximizes its profit. The optimal response of the firm to price,
The quality of goods given in (A12) is We call the consumer with the lowest preference for quality that can buy a good in Foreign
Welfare in Foreign is calculated as the sum of producer’s surplus,
Profit of high-quality firm
Welfare in Foreign is
· In Home We follow all calculations from (A11) to (A16) to derive the welfare of Home. It is worth noting that the low-quality firm has a fixed cost The optimal price set by the low-quality firm is
· 4) Welfare with trade · In Foreign Welfare in Foreign is the sum of producers’ surplus
Substituting (11) and (12) into (3) and (4) and then replacing
The consumer with his preference for quality
The first part comes from the net consumer’s surplus generated by the consumption of low-quality goods; the second part is the net consumer’s surplus from the consumption of high-quality goods. In (A21), the price of low-quality goods
It is worth noting that the profit of Foreign firm (high-quality firm) can be derived directly from (6), (11), and (12) with the conditions
The welfare of Foreign in trade is
By comparing (A16) and (A24), we have · In Home Similarly, producer’s surplus in Home is calculated as follows:
It can be readily recognized that consumers’ surplus in Home is exactly the same as that in Foreign.
The welfare of Home is
NOTES *Corresponding author. 1We consider our model only in the short-run. Thus, the reason for only one firm operates in each country is a high entry cost. See Beloqui and Usategui for entry blockage and deterrence. 2This assumption is the same as in the study of Flam and Helpman . 3Grossman and Helpman considered product quality changes over time due to R&D investments, but our model addresses a situation in which quality has been determined by R&D, and considers comparative statics with a one-time change in product quality. 4This assumption is widely used in vertical production differentiation studies, such as those of Wauthy , Beloqui and Usategui , and Sutton . 5See Wauthy and Beloqui and Usategui . 6We consider an integrated economy identically to Helpman and Krugman for the two-country world. 7Consumer’s preference diversity is caused by differences in income. Additionally, we assume that consumers are uniformly distributed in [0, b] with regard to their preference. Thus, per-capita income in each country is the average income of all consumers, which is directly proportional to the average of consumer’s preference b/2. For purposes of simplification, we consider b to be a proxy for per-capita income. 8We can readily understand export and import values by using Figure 1. 9This does not mean that economies of scale are always in effect in both firms. It only means that the value of the “sum-up effects” of economies of scale in both firms must be positive. When the tastes and preferences of consumers in different countries are similar this indicates the existence of?Universal needs. Universal needs exist when the tastes and preferences of consumers in different nations are similar if not identical. This is the case for conventional commodity products such as bulk chemicals, petroleum, steel, sugar, and the like.
Is most appropriate where consumer tastes and preferences differs substantially across nations and cost pressures are not too intense?Localization is most appropriate when there are substantial differences across nations with regard to consumer tastes and preferences and where cost pressures are not too intense.
Which strategy makes most sense when there are strong pressures?A transnational strategy makes sense when cost pressures are intense, and simultaneously, so are pressures for local responsiveness.
What is created when different stages of a value chain are dispersed to locations where value added is maximized or where the costs of value creation are minimized?Global web refers to when different stages of the value chain are dispersed to those locations around the globe where value added is maximized or where costs of value are minimized.
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