Give Credit Where Credit is Due: Tracing Value Chains in Global Production Networks

Give Credit Where Credit is Due: Tracing Value Chains in Global Production Networks Robert Koopman, William Powers and Zhi Wang United States International Trade Commission Shang-Jin Wei Columbia University, CEPR, and NBER The views expressed in this presentation are solely those of the presenter. It is not meant to represent in anyway the official views of the USITC, or of any other organization that the authors are or have been affiliated with. 1

Motivation Conceptual Framework Presentation Outline Transparent: block matrix formulation, only three matrixes Complete: decompose gross exports and imports into value-added components, full consistent with official trade statistics Comprehensive: integration of all existing measures in the literature Empirical Results Highlight regional differences in supply chain participation Demonstrate different patterns of integration in three world major trading blocs Show differences in trade costs from multistage production Database improvement and Limitations Why end-use classification is better than proportion assumption What end-use classification can help, what it can t 2

Objective of This Paper Help national and international government agencies to find a feasible and cost effective way to remedy the problems in current official trade statistics; Bridge current custom trade statistical system and national account, to make measure of trade consistent with SNA standard. Develop a unified conceptual framework that incorporates all measures of value-added trade in the literature; Completely decompose each country's gross exports to and imports from the world into its value-added components, thus establishing a formal relationship between value-added measures of trade and officially reported trade statistics; Apply the new measure to evaluate the differences in economies participation in global production chain, regional economic integration and trade cost of multi-stage production. 3

Exports/GDP % Gross Exports to GDP ratio is a misleading indicator of export dependence Gross export/gdp for large economies in the world, 1977-2006 40 30 20 10 0 1977 1979 1981 1983 1985 1987 1989 1991 1993 1995 1997 1999 2001 2003 2005 China Brazil India Japan USA EU15 Mexico

Messages from National and International Policy Makers Traditional measurement of foreign trade alone no longer suffices to explain how the country fits into the world economy. The time has come to explore new channels so that accounting and statistical systems can take account of the new geography of international trade in an economy which has flattened under the influence of globalization and internationalization of production relations. The challenge is to find the right statistical bridges between the different national accounting systems in order to ensure that international interactions resulting from globalization are properly reflected and to facilitate cross border dialogue between national decision makers The challenge is not only for statisticians, but also for the decision makers responsible for ensuring the proper conduct of domestic and international policy. By Pascal Lamy, Oct. 15, 2010 5

Value Chain in Production Network from a product view to a global view What is a global value chain? A system of value-added sources and destinations within a globally integrated production network Literature Single product: Dedrick, Kraemer, and Linden (2008), ADB(2011) Single country: Hummels, Ishii, Yi (2001), Koopman et al (2008) Asian regional production network: Asian IO table (IDE-JETRO, 2000), Pula and Peltonen (2009); Wang, Powers, and Wei (2009) Global snapshot: Daudin, Rifflart, and Schweisguth (2009); Johnson and Noguera (2009) Global time series: WIOD (2010); Wang et al. (2010) 6

Value-added Contents of Trade: Existing measures Hummels, Ishii, and Yi (2001) measures of vertical trade VS: imported contents embodied in a country s exports VS1: Intermediate exports sent indirectly through other countries to final destination Newer measures VAX: Ratio of domestic value-added in gross exports (Johnson and Noguera, 2009) VS1*: domestic value-added in intermediates first exported then returns home (Daudin et al., 2009) reflected exports Not unified in a fully specified transparent framework 7

Production and trade in a two-country world All output is used as an intermediate or final good at home or abroad X r A rr with N goods X r A rs X X r : (N 1) Gross output of country r s A rs : (N N) IO Coefficient matrix giving use in country s for intermediate inputs from country r Y rs : (N 1) Final demand: Country s s use of final goods and services from country r Y rr Y rs 8

Production and trade in a 2-country world In block matrix notations X X 1 2 A A 11 21 A A 12 22 X X 1 2 Y Y 11 21 Y Y 12 22 Rearranging, X X 1 2 I A A 11 21 A I A 12 22 1 Y Y 11 21 Y Y 12 22 B B 11 21 B B 12 22 Y Y 1 2 where B sr : (N N) block Leontief inverse matrix, denoting the amount of total output in s required for a one-unit increase in final demand in country r Y r : (N 1) vector of global use of r s final goods 9

Value added Share Matrix in a 2-country world Direct domestic value added in production: V1 u[i A11 A21] and V2 u[i A12 A22] where V r : (1 n) domestic value-added coefficient vector; element v ri = 1 intermediate input share from all countries u: (1 n) vector of ones Value-added shares matrix (2 2N) decomposes value added in production of each sector in all countries VAS VB V1B V 2B 11 21 V B V 1 2 B 12 22 V V 1 0 0 V 2 10

Value-added in gross exports Exports (2N 2) include both intermediate and final goods E E 0 1 0 E 2 Value-added exports matrix (2 2) VAS_E V1 B VBE V2B 11 21 E E (See paper for value-added exports at the product level) 1 1 V B 1 V B 2 12 22 E E 2 2 Fully generalizable to a many-country world X ( I A) 1 Y VAS VB VAS _ E VBE BY (G G) 11

Unified all existing value-added measures Vertical specialization: both direct (VS) and indirect (VS1) Domestic value added in exports (VAX) Domestic value added in exports that returns home (VS1*) Domestic value added in exports (VAX ratio plus VS1*) VAS_E VBE Diagonal elements: domestic VA in exports Off-diagonal elements: foreign value added in exports Each column sum to unity V1B V2B V3B Direct (VS): Foreign value added from 2 and 3 embodied in country 1 s exports 11 21 31 E E E 1 1 1 V B V V 1 2 3 B B 12 22 32 E E E 2 2 2 V B V V 1 2 3 B B 13 23 33 E E E 3 3 3 Indirect (VS1): Country 1 s value added embodied in 2 s and 3 s exports 12

Gross exports decomposition in a 3-country world Exports (N 1 matrix) include both intermediate and final goods Er Ers s(arsxs Yrs) s r Some intermediates are consumed in s; some are sent elsewhere by s --sent elsewhere-- E rs Y rs Finalgoods ArsX ss Finished in s ArsX sr Processedin s; Consumedin s send back tor A t r, s rsx st Processedin s; send to third countries (1) 13

Further decomposition of Value-added Exports DV measures the total domestic value-added embodied in country r's exports: DV r V Further decomposition of value-added exports: combine (1) and (2) r B rr E r (2) DV rs V r B rr V r E B r V rr sr r B A rr sr rs X sr Y rs V V r B r B rr sr rr sr ts, r A rs A X rs ss X st 14

Complete Decomposition of Gross Exports Gross exports Domestic value added in exports (VAX) Domestic value added that returns from abroad (VS1*) Foreign value added in exports (VS) Exports consumed by direct importer Indirect exports sent to third countries Final goods Intermediate inputs Final goods Intermediate inputs Final goods Intermediate inputs Indirect valueadded exports (VS1) Further downstream Further upstream in GVCs 15

Gross imports at any geographical location should be able to decomposed to the sum of value-added from all sources Complete Decomposition of Gross Imports Value-added in final goods direct from source Value added from source country Gross imports Domestic value added that returns to home (VS1*) Value-added in intermediate goods direct from source Value added from other countries Final goods Intermediate inputs Consumed by the importing country Produce final goods consumed at home Produce final goods reexport to third countries Produce intermediates re-export to third countries Re-export to third countries 16

Value-added Exports: Key differences by region Australia, New Zealand Japan EU 15 United States EFTA Canada India South Asia Rest of East Asia Indonesia China Vietnam Thailand Malaysia Philippines Hong Kong Korea Taiwan Russian Federation Brazil Rest of Americas Rest of the world South Africa EU accession countries Mexico World average Advanced economies South Asia Emerging East Asia E. Asia NICs Other emerging 0 20 40 60 80 100 Share of Gross Exports Japan sends much of its VA exports to final suppliers indirectly through third countries (see table 3) US uses lots of imported inputs in its exports; imported VA supplied by Canada, Mexico, and US itself E. Asia has the longest chains little of its VA exports is absorbed by direct importer (see table 3) East Asia has the most foreign content in its own exports Integration in NAFTA makes Mexico an outlier among non-asian economies Domestic VA Foreign VA Domestic VA returned 17

Further Decomposition of Value-added Exports, 2004 Advanced economies South Asia Emerging East Asia Asia NICs East Asia has less VA in intermediates sent directly to consumer, involve longer production chains than other countries Other emerging

Manufacturing Export Destination of the 3 Trading Blocks - Intermediates, final goods and value-added exports, 2004, % 60 50 40 30 East Asia value-added exports depend more on external market than gross trade data show Share of world total East Asia is the world largest destination of intermediate exports 20 10 0 Easia-int Easiafinal East Asia = ASEAN + 3 + Taiwan + Hong Kong Easia-va NAFTAint NAFTAfinal NAFTAva EU-int EU-final EU-va World- Intsh EAsia NAFTA EU Data Source: Value-added trade ROWestimate by the author based on version 7 GTAP database Worldfinalsh Worldvash

Manufacturing Import Sources of the 3 Trading Blocks - Intermediates, final goods and value-added imports, 2004, % 60 50 40 Both EU and NAFTA are less depend on East Asia as supply source in valueadded term than gross trade data show Share of World East Asia is the world largest import source of final goods 30 20 10 0 Easia-int Easiafinal East Asia = ASEAN + 3 + Taiwan + Hong Kong Easia-va NAFTAint NAFTAfinal NAFTAva EAsia NAFTA EU ROW EU-int EU-final EU-va World- Intsh Worldfinalsh Worldvash Data Source: Value-added trade estimate by the author based on version 7 GTAP database

The integration pattern of East Asia is different from NAFTA & EU Three Major Trading Blocks In the World (1) - Manufacturing exports dependence, 2004, % Final Goods Intermediates Philippines Taiwan Singapore Thailand Hong Kong Indonesia Japan Malaysia Korea China Viet Nam Rest of EAsia Aus & NZL EU 12 EU 15 EFTA Russia Mexico Canada USA Rest of America South Africa Brazil India South Asia Rest of World Intra-East Asia Intra-EU Intra-NAFTA Taiwan Philippines Indonesia Viet Nam Korea Hong Kong Malaysia Thailand Japan Singapore Rest of EAsia China Aus & NZL EU 12 EU 15 EFTA Russia Mexico Canada USA Rest of America South Africa India Brazil South Asia Rest of World Intra-East Asia Intra-EU Intra-NAFTA 0 20 40 60 80 100 0 20 40 60 80 100 EAsia EU NAFTA ROW

Three Major Trading Blocks In the World (2) - Manufacturing imports dependence, 2004, % Final Goods Intermediates Rest of EAsia Philippines Hong Kong Indonesia Malaysia China Korea Thailand Taiwan Singapore Japan Viet Nam Aus & NZL EU 12 EU 15 EFTA Russia Intra-East Asia Intra-EU Viet Nam Philippines Rest of EAsia China Malaysia Hong Kong Thailand Taiwan Indonesia Singapore Korea Japan Aus & NZL EU 12 EU 15 EFTA Russia Intra-East Asia Intra-EU Canada Mexico USA Rest of America Intra-NAFTA Mexico Canada USA Rest of America Intra-NAFTA South Asia Brazil South Africa Rest of World India India South Asia South Africa Brazil Rest of World 0 20 40 60 80 100 0 20 40 60 80 100 EAsia EU NAFTA ROW

Three Major Trading Blocks In the World (3) - Manufacturing value-added trade dependence, 2004, % Exports by destination Imports by source Indonesia Hong Kong Philippines Taiwan Malaysia Viet Nam Thailand Korea Rest of EAsia Singapore Japan China Aus & NZL EU 12 EU 15 EFTA Russia Intra-East Asia Intra-EU Rest of EAsia Hong Kong Philippines Viet Nam Malaysia Taiwan Thailand Indonesia China Korea Singapore Japan Aus & NZL EU 12 EU 15 EFTA Russia Intra-East Asia Intra-EU Mexico Canada USA Rest of America Intra-NAFTA Canada Mexico USA Rest of America Intra-NAFTA South Africa Brazil India South Asia Rest of World India South Asia Brazil South Africa Rest of World 0 20 40 60 80 100 0 20 40 60 80 100 EAsia EU NAFTA ROW

What is Special for East Asia as a Trading Bloc Very high intra-regional dependence on intermediate trade in manufacturing sectors About 70% final manufacturing exports depend on external demand Two major hubs in the production network: Japan and China, one upstream and one downstream, at very different stage of economic development Deeply integrated with vertical specialized or segmented global production chain 24

Trade costs of multistage production Trade costs (tariff + transport), as a share of export value Canada EFTA EU Japan United States Hong Kong Korea Taiwan China normal China processing Malaysia Thailand Vietnam India Brazil EU accession Mexico normal Mexico processing Russian federation Trade costs on exports Trade costs on imported inputs 0 5 10 15 20 25 30 35 East Asia pays a price for its long chains and relatively high tariffs Advanced economies have low foreign content and, hence, low costs 25

Broad Sector Structure of Value-added Exports VS1/VS Ratios 26

Data Base Improvement: MRIO to IRIO Start with 2004 GTAP global trade and production database Add additional detail on source and use of intermediate inputs and final goods, Use end-use categories of detailed trade data (HS6) to improve imported intermediate use coefficients Add detail on processing imports for Mexico and China U.S. imports of electronics from China Apply BEC to 6-digit HS trade data to separate final goods and intermediates Electronics final products Electronics components Allocate its use to each industry based on import source structure Electronics Autos etc. 27

Database Construction: MRIO to IRIO Tables MRIO table from GTAP database BEC classification and bilateral trade data at 6 digit HS to separate final and intermediate goods trade Quadratic programming model Processing trade information from China and Mexico IRIO table for global value chain analysis 28

Why BEC is Better than Proportional Assumption Intermediate share of U.S. electronic machinery imports, by source Proportion method Japan EU 15 EFTA Canada India Rest of East Asia Indonesia China Vietnam Thailand Philippines Hong Kong Korea Taiwan Russian Brazil EU accession Mexico BEC is able to identify the heterogeneity by sources based on 6- digit HS trade data Proportion method applies share from US import use table (54.2%) to all sources 0 10 20 30 40 50 60 70 80 90 100 29

What end-use classifications can help Intermediate goods identified from gross trade flows are the row sum of each block matrix A rs in the IO coefficient matrix A. End use classification such as BEC distinguishes intermediate inputs from final goods in imports from each source in each sector, thus can help improve the accuracy of IO coefficients in IRIO table by giving better row total control for each block matrix in A. End-use classifications improve estimates of intermediate inputs entering the importing country from each sources, therefore is better than the alternative: Proportional method assumes the intermediate share in imports from each source country are the same so it will bias the value-added estimates from each source country, even in aggregate. 30

What end-use classifications can t help Still have to assume proportionality to allocate intermediate inputs to each industry within the importing country Required data not reported by most national statistical agencies Problem noted by Committee on Economic Statistics of the American Economic Association (Feenstra et al., 2010) Industry-level estimates of value-added trade based on such IRIO table may be unreliable with unknown biases, despite their theoretical tractability More reliable data collected by national and international agencies are needed to overcome this limitation. 31

Conclusions New trade measure in value-added framework Generalizes and harmonizes all measures in the literature Accounts for the entirety of gross trade, establishing a formal relationship between value-added measures of trade and official trade statistics. Provides new detail on regional differences in supply chain activity and trade costs It is now possible to measure trade in value-added terms consistent with official statistics, this will open the possibility for SNA to accept the concept of value-added trade without dramatically change current Custom trade data collection practice. 32

Limitations By design, this study is an ex post accounting exercise, we use IRIO table not as a model but as an accounting framework to decompose gross trade. The bias caused by fixed coefficient assumption will be smaller than that in a simulation exercise. It does not examine the causes and the consequences of valueadded trade and global production network. Although an accurate accounting of value added by source country is a necessary step toward a better understanding of these issues. We hope the new measure could be widely used in analytical work in comparison with gross trade data. 33

Ê Model Setup and Notations G countries, N industry world Production System : X ( I A) 1 VAS VB Y VAS _ E VBEˆ BY Value-added Share Matrix: Value-added Trade Matrix: Notation Matrix Name Dimension X Gross output GN 1 Y Final demand GN 1 A IO coefficient GN GN Ê Gross exports GN GN B Leontief inverse GN GN Direct value-added V coefficient G GN VAS Value-added share G GN VAS_E Value-added exports G GN 34

Malaysia Singapore Hong Kong Viet Nam Rest of east asia Thailand Taiwan Philippines EFTA ROW EU 12 Russian Korea Indonesia China South Africa Canada Rest of America Brazail Mexico South Asia AUS & NZL India EU 15 Japan USA Exports Dependence - Gross and value-added exports as % of GDP, 2004 0 20 40 60 80 100 120 140 Gross exports Value-added exports Data Source: Value-added trade estimate by the author based on version 7 GTAP database

Net Value Added Contribution by Source to Electronics Products Made in East Asia Sold at the U.S. Market 1990 2000 Source: Author s estimate based on Asian IO table compiled by IDE of Japan 36

Net Value Added Contribution by Source to Wearing Apparel Made in East Asia Sold at the U.S. Market 1990 2000 Source: Author s estimate based on Asian IO table compiled by IDE of Japan 37