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Kei-Mu Yi, Michael Sposi and Jing Zhang

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Kei-Mu Yi, Michael Sposi and Jing Zhang

This informative research review discusses the most prominent papers within the economics of structural change and growth. This piece focuses on research that investigates the causes and consequences of structural change with either theoretical or calibrated models, mindfully referring to some of the most celebrated literature over the last two decades. The research review analyses literature covering the impact structural change has on an array of economic factors including convergence, per capita income and spatial development. Prefaced by an original introduction from the editors, this collection would be well suited to scholars and macro-development economists wishing to extend their knowledge of this compelling topic.
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Kei-Mu Yi, Michael Sposi and Jing Zhang

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Edited by Thijs ten Raa

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José M. Rueda-Cantuche

It is not easy to transform the input and output tables "produced" by statistical offices into matrices of input-output coefficients. There are commodity-by-commodity and industry-by-industry input-output matrices and each of them can be constructed using different models. This chapter provides a unifying framework for all these alternatives and discusses the theoretical and practical pros and cons of the alternatives in a way that consolidates the vast literature. The chapter is authored by an expert who combines statistical office experience and academic contributions to the interface of input-output statistics and economic-environmental modeling.

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Yasuhide Okuyama

In dynamic input-output analysis investment meets the capital requirements of output growth. The model is linear and the proportionality between type i capital requirements and output j is represented by a capital coefficient. This chapter presents the dynamic input-output model, its solution, and two main issues, namely singularity of the matrix of capital coefficients and causal indeterminacy. Singularity is a mathematical problem that has been solved. Causal indeterminacy is the incompatibility between non-negative output solutions and arbitrary initial conditions, an issue related to the instability of the model. Alternative modifications of the model address the issue. The dynamic input-output model revives in three areas. Human capital formation is modeled to explain endogenous growth. Environmental accounts are added to analyze the depletion of nonrenewable resources. And lagged production and expenditure models are employed in disaster impact analysis.

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Douglas S. Meade

Input-output analysis was invented by Wassily Leontief, who continued to be closely involved with its development, mostly in the United States. This chapter organizes the history in a nice, concrete way, by tracing the input-output tables of the USA from 1939 until 2007, released in 2014. The history is peppered by observations of Leontief's close collaborators Anne Carter and Clopper Almon, shared with the author. The chapter concludes with a clear discussion of the myths of input-output tables, such as consistency and purity.

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Kim Swales and Karen Turner

The basic input-output model is first extended by differentiating industry outputs by region. The consequent interregional input-output matrix accounts for pollution footprints of final consumption, possibly even including household income effects, which further boost output and pollution. Another extension is the internalization of cleansing activities, to account for the social cost of emissions. Attempts at full integration of production and environmental accounting, following the "materials balance principle," are critically examined. Other environmental analyses follow. Water satellite accounts facilitate the analysis of water trade. Waste input-output models integrate waste creation and management options so that waste can be tracked. Energy efficiency improvements reduce costs, which in turn boosts demand for energy: the rebound effect. The rebound effect is related to the input-output multipliers that include the household consumption effects. The extension to general equilibrium analysis is introduced.

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Richard Wood

Direct input-output coefficients reflect the effects of the delivery of goods and services in terms of produced and non-produced inputs and environmental impacts (emissions). Evaluation of the further effects of the produced inputs yields the total input-output coefficients, which thus incorporate the multiplier effects of the final delivery of goods and services. The most concrete examples of these are footprints, which trace the environmental impacts of final consumption through the direct and indirect production requirements. After presenting a short history of environmental accounting in input-output analysis, this chapter discusses five types of footprints: ecological, carbon, material, water and land footprints. The methodology of footprint analysis is Leontief inversion of the matrix of input-output coefficients, where products are differentiated by their locations. The dimension of such a matrix is the number of products times the number of regions and this analysis is called multiregional input-output analysis. Multiregional input-output analysis traces the indirect requirements of final consumption in terms of national and international outputs. Application of environmental pressure coefficients yields the footprints. This combination of multiregional input-output and environmental analyses is also called life-cycle assessment and accounts for the environmental impacts embodied in trade.