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Productivity and Growth of Japanese Prefectures Prepared for the 3 rd World KLEMS Conference , Tokyo, May 19-20, 2014. Joji Tokui ( Shinshu University and RIETI) Kyoji Fukao ( Hitotsubashi University and RIETI) Tsutomu Miyagawa ( Gakushuin University and RIETI)
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Productivity and Growth of Japanese PrefecturesPrepared for the 3rd World KLEMS Conference, Tokyo, May 19-20, 2014. Joji Tokui (Shinshu University and RIETI) KyojiFukao(Hitotsubashi University and RIETI) Tsutomu Miyagawa(Gakushuin University and RIETI) Kazuyasu Kawasaki (Toyo University) Tatsuji Makino (Hitotsubashi University)
This presentation is based on our two papers. Joji Tokui, Tatsuji Makino, KyojiFukao, Tsutomu Miyagawa, Nobuyuki Arai, Sonoe Arai, Tomohiko Inui, Kazuyasu Kawasaki, Naomi Kodama and Naohiro Noguchi (2013), “Compilation of the Regional-Level Japan Industrial Productivity Database (R-JIP) and Analysis of Productivity Differences across Prefectures,” The Economic Review, Vol. 64 No. 3, pp.218-239 (in Japanese). Kazuyasu Kawasaki, Tsutomu Miyagawa and Joji Tokui (2014), “Reallocation of Production Factors in the Regional Economies in Japan: Towards an Application to the Great East-Japan Earthquake.”
Contents • Construction of Regional-Level Japan Industrial Productivity (R-JIP) Database • The change in prefectural productivity differences and its causes (1970-2008) • Factor reallocation and its efficiency among prefectures and industries
1.Construction of Regional-Level Japan Industrial Productivity (R-JIP) Database
Main Features of R-JIPDatabase • 47 prefectures in Japan • 23 industries (13 manufacturing + 10 non-manufacturing) • 1970-2008 (annual data) • Value added, capital input, labor input • Input data are constructed taking quality into account. (1) time-series quality change for both capital and labor (2) cross-sectional quality difference for labor
Relationship between R-JIP and JIP • The control totals of regional-level value added, capital, and labor are 2011 JIP data. • The value added deflator for each industry calculated from the 2011 JIP data is used. • The investment deflator and capital depreciation rate for each industry calculated from the 2011 JIP data is used. • The capital cost and capital quality for each industry calculated from the 2011 JIP data are used. • In contrast, we calculate regional-specific working hours, labor costs, and labor quality for each industry.
The R-JIP Database is available on RIETI’s website (in Japanese only at the moment) http://www.rieti.go.jp/jp/database/R-JIP2012/index.html
Construction of relative regional labor quality data • Each prefecture’s relative labor quality is estimated taking its employment structure into account. • The number of employees cross-classified by prefecture, industry, sex, age, and educational background is from the Population Census(1970, 1980, 1990, 2000, 2010). • The data for 2008 are estimated through linear interpolation between 2000 data and 2010 data. • The construction of the prefecture-level labor quality index is based on the cross-sectional index number approach of Caves, Christensen, and Diewert (1982).
The difference in labor quality across prefectures in 1970 (Tokyo=1)
The difference in labor quality across prefectures in 2008 (Tokyo=1)
Differences in regional labor quality have shrunk in the 40 years since 1970. • But they still remain. Labor quality in the prefecture with the highest level is 1.3 times that of that with the lowest level.
2. The change in prefectural productivity differences and its causes (1970-2008)
Some people are commuting across prefectural borders. In that case, the prefecture where they inhabit and where they work are different. • Since in our database value added data are compiled in the prefecture where production is taken place and labor input data are compiled in the prefecture where they work, we focus on labor productivity instead of the per capita income of each prefecture.
Decomposition of factors underlying regional differences in labor productivity We decompose prefectural labor productivity into three factors: prefectural TFP differences, the capital-labor ratio, and labor quality. : Labor Productivity : TFP Difference : Capital-Labor Ratio : Labor Quality
Decomposition of differences in regional labor productivity in 1970 (in logarithm)
Decomposition of differences in regional labor productivity in 2008 (in logarithm)
Results: • Differences in prefectural TFP, capital-labor ratios, and labor quality all contribute to the differences in regional labor productivity. • The most important reason for the decline in regional labor productivity differences in the past 40 years is the narrowing of differences in the capital-labor ratio across prefectures. • In contrast, substantial differences in prefectural TFP levels remain and are now the main cause for differences in labor productivity across prefectures.
Which industries contribute to the decline in regional labor productivity differences in the past 40 years? To do this analysis, first we use following decomposition of each prefecture’s relative factorintensity into share effect and within effect.
where the first term on the right-hand side represents the contribution of the fact that a prefecture has, e.g., above-average labor input shares in industries with a capital-labor ratio that is above the national average (share effect), while the second term represents the contribution of differences between the capital-labor ratios of the industries in a particular prefecture and the national average capital-labor ratios for those industries (within effect).
Next, we define each industry’s contribution based on the covariance between factor intensity and labor productivity in the prefecture as follows. Contribution of the share effect for industry i. Contribution of the within effect for industry i. For capital labor ratio and labor quality we can decompose between share effect and within effect. For TFP we can calculate only within effect.
Summary of the industrial decomposition result • Main causes of the remaining differences of prefectural labor productivity occurred in non-manufacturing sector. • Notable development from 1970 to 2008 are: (1)For Capital labor ratio, the share effect of non-manufacturing increased greatly over time. Particularly, real estate, and transport and communications. These industries concentrated in high labor productivity prefectures. (2)For labor quality, the within effect of non-manufacturing increased greatly over time. Particularly, wholesales and retail trade and non-government services. In these industries labor quality is high in high labor productivity prefectures. (3)For TFP, the within effect of non-manufacturing increased greatly over time. Particularly, construction, wholesales and retail trade and non-government services.
3. Factor reallocation and its efficiency among prefectures and industries
Calculation formula for factor reallocation effect • Our calculation is based on the Sonobe and Otsuka (2001)’s formula, which decompose the prefecture’s growth of labor productivity into four parts. the prefecture’s growth of labor productivity =capital deepening (within effect) + capital deepening (share effect) +capital reallocation effect + labor reallocation effect +TFP (within)
In 1980s capital reallocation effect was negative almost every prefectures in Japan.
In 2000s capital reallocation effect was positive in relatively high labor productivity growth prefectures.
Summary of the factor reallocation effect • Labor reallocation effect was positive almost every prefectures in Japan from 1980s through 2000s. • But, in 1980s capital reallocation effect was negative almost every prefectures in Japan. • In 2000s capital reallocation effect turned to be positive in relatively high labor productivity growth prefectures. • But, in relatively low productivity growth prefectures capital reallocation effect still remained negative in 2000s.