Intra-industry Trade between Similar Economies
Read this text on the advantages of intra-industry trading – the international trade of goods within the same industry. Economists call this recent trend in international trade "splitting up the value chain" due to economies of scale, competition, and variety.
Absolute and comparative advantages explain a great deal about global trading patterns. For example, they help to explain the patterns that we noted at the start of this chapter, like why you may be eating fresh fruit from Chile or Mexico or why lower productivity regions like Africa and Latin America are able to sell a substantial proportion of their exports to higher productivity regions like the European Union and North America. Comparative advantage, however, at least at first glance, does not seem especially well-suited to explain other common patterns of international trade.
The Prevalence of Intra-Industry Trade between Similar Economies
The theory of comparative advantage suggests
that trade should happen between economies with large differences in
opportunity costs of production. Roughly half of all U.S. trade involves
shipping goods between the fairly similar high-income economies of
Japan, Canada, and the United States. Furthermore, the trade has an
important geographic component – the biggest trading partners of the
United States are Canada and Mexico (see Table 20.13).
Country | U.S. Exports Go to ... | U.S. Imports Come from ... |
---|---|---|
China | 8.6% | 17.7% |
Canada | 17.6% | 12.6% |
Japan | 4.3% | 4.3% |
Mexico | 15.8% | 13.6% |
South Korea | 3.8% | 3.3% |
Table
20.13
Top Trading Partners (November 2021)
Moreover, the theory of comparative
advantage suggests that each economy should specialize to a degree in
certain products and then exchange those products. A high proportion of
trade, however, is intra-industry trade – that
is, trade of goods within the same industry from one country to
another. For example, the United States produces and exports autos and
imports autos. Table 20.14
shows some of the largest categories of U.S. exports and imports. In
all of these categories, the United States is both a substantial
exporter and a substantial importer of goods from the same industry. In
2021, according to the U.S. Census Bureau, the United States exported
$131 billion worth of autos and imported $317 billion worth of autos.
About 60% of U.S. trade and 60% of European trade is intra-industry
trade.
Some U.S. Exports | Quantity of Exports ($ billions) | Quantity of Imports ($ billions) |
---|---|---|
Autos | $131 | $317 |
Food and beverages | $147 | $167 |
Capital goods | $474 | $695 |
Consumer goods | $201 | $699 |
Industrial supplies | $578 | $589 |
Other transportation | $63 | $113 |
Table
20.14
Some Intra-Industry U.S. Exports and Imports in 2021
Why do similar high-income economies engage
in intra-industry trade? What can be the economic benefit of having
workers of fairly similar skills making cars, computers, machinery, and
other products, which are then shipped across the oceans to and from the
United States, the European Union, and Japan? There are two reasons: (1)
The division of labor leads to learning, innovation, and unique skills, and (2) economies of scale.
Gains from Specialization and Learning
Consider the category of machinery, where the U.S. economy has considerable intra-industry trade. Machinery comes in many varieties, so the United States may be exporting machinery for manufacturing with wood but importing machinery for photographic processing. The underlying reason why a country like the United States, Japan, or Germany produces one kind of machinery rather than another is usually not related to U.S., German, or Japanese firms and workers having generally higher or lower skills. It is just that, in working on very specific and particular products, firms in certain countries develop unique and different skills.
Specialization in the world economy can be very finely split. In fact, recent years have seen a trend in international trade, which economists call splitting up the value chain. The value chain describes how a good is produced in stages. As indicated at the beginning of the chapter, producing the iPhone involves designing and engineering the phone in the United States, supplying parts from Korea, assembling the parts in China, and advertising and marketing in the United States. Thanks in large part to improvements in communication technology, sharing information, and transportation, it has become easier to split up the value chain. Instead of production in a single large factory, different firms operating in various places and even different countries can divide the value chain.
Because firms split up the value chain, international trade often does not involve nations trading whole finished products like automobiles or refrigerators. Instead, it involves shipping more specialized goods like, say, automobile dashboards or the shelving that fits inside refrigerators. Intra-industry trade between similar countries produces economic gains because it allows workers and firms to learn and innovate on particular products – and often to focus on very particular parts of the value chain.
Economies of Scale, Competition, Variety
A second broad reason that intra-industry trade between similar nations produces economic gains involves economies of scale. The concept of economies of scale, as we introduced in Production, Costs and Industry Structure, means that as the scale of output goes up, average costs of production decline – at least up to a point. Figure 20.5 illustrates economies of scale for a plant-producing toaster oven. The horizontal axis of the figure shows the quantity of production by a certain firm or at a certain manufacturing plant. The vertical axis measures the average cost of production. Production plant S produces a small level of output at 30 units and has an average cost of production of $30 per toaster oven. Plant M produces at a medium level of output at 50 units and has an average cost of production of $20 per toaster oven. Plant L produces 150 units of output with an average cost of production of only $10 per toaster oven. Although Plant V can produce 200 units of output, it still has the same unit cost as Plant L.
In this example, a small or medium plant, like S or M, will not be able to compete in the market with a large or a very large plant like L or V because the firm that operates L or V will be able to produce and sell its output at a lower price. In this example, economies of scale operate up to point L. Still, beyond point L to V, the additional scale of production does not continue to reduce average costs of production.
Figure 20.5 Economies of Scale Production Plant S has an average cost of production of $30 per toaster oven. Production plant M has an average cost of production of $20 per toaster oven. Production plant L has an average cost of production of only $10 per toaster oven. Production plant V still has an average cost of production of $10 per toaster oven. Thus, production plant M can produce toaster ovens more cheaply than plant S because of economies of scale, and plants L or V can produce more cheaply than S or M because of economies of scale. However, the economies of scale end at an output level of 150. Plant V, despite being larger, cannot produce more cheaply on average than plant L.
The concept of economies of scale
becomes especially relevant to international trade when it enables one
or two large producers to supply the entire country. For example, a
single large automobile factory could probably supply all the cars
consumers purchase in a smaller economy like the United Kingdom or
Belgium in a given year. However, if a country has only one or two large
factories producing cars and no international trade,
then consumers in that country would have relatively little choice
between kinds of cars (other than the color of the paint and other
nonessential options). Little or no competition will exist between
different car manufacturers.
International trade provides a way to combine the lower average production costs that come from economies of scale and still have competition and variety for consumers. Large automobile factories in different countries can make and sell their products around the world. If General Motors, Ford, and Chrysler were the only players in the U.S. automobile market, the level of competition and consumer choice would be considerably lower than when U.S. carmakers must face competition from Toyota, Honda, Suzuki, Fiat, Mitsubishi, Nissan, Volkswagen, Kia, Hyundai, BMW, Subaru, and others. Greater competition brings with it innovation and responsiveness to what consumers want. America's car producers make far better cars now than they did several decades ago, and much of the reason is competitive pressure, especially from East Asian and European carmakers.
Dynamic Comparative Advantage
The sources of gains from intra-industry trade between similar economies – namely, the learning that comes from a high degree of specialization and splitting up the value chain and from economies of scale – do not contradict the earlier theory of comparative advantage. Instead, they help to broaden the concept.
In intra-industry trade, climate or geography do not determine the level of worker productivity. Even the general level of education or skill does not determine it. Instead, how firms engage in specific learning about specialized products, including taking advantage of economies of scale, determines the level of worker productivity. In this vision, comparative advantage can be dynamic – that is, it can evolve and change over time as one develops new skills and as manufacturers split the value chain in new ways. This line of thinking also suggests that countries are not destined to have the same comparative advantage forever but must instead be flexible in response to ongoing changes in comparative advantage.
Source: Rice University, https://openstax.org/books/principles-macroeconomics-3e/pages/20-3-intra-industry-trade-between-similar-economies
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