TY  - JOUR
AU  - Acemoglu,Daron
AU  - Aghion,Philippe
AU  - Bursztyn,Leonardo
AU  - Hemous,David
TI  - The Environment and Directed Technical Change
JF  - National Bureau of Economic Research Working Paper Series
VL  - No. 15451
PY  - 2009
Y2  - October 2009
UR  - http://www.nber.org/papers/w15451
L1  - http://www.nber.org/papers/w15451.pdf
N1  - Author contact info:
Daron Acemoglu
Department of Economics
MIT, E52-380B
50 Memorial Drive
Cambridge, MA  02142-1347
Tel: 617/253-1927
Fax: 617/253-1330
E-Mail: daron@mit.edu

Philippe Aghion
Department of Economics
Harvard University
1805 Cambridge St
Cambridge, MA 02138
Tel: 617/495-6675
Fax: 617/495-4341
E-Mail: paghion@fas.harvard.edu

Leonardo A. Bursztyn
UCLA Anderson School of Management
110 Westwood Plaza
Los Angeles, CA 90095
E-Mail: bursztyn@ucla.edu

David Hemous
Harvard University
E-Mail: hemous@fas.harvard.edu
AB  - This paper introduces endogenous and directed technical change in a growth model with environmental constraints and limited resources. A unique final good is produced by combining inputs from two sectors. One of these sectors uses "dirty" machines and thus creates environmental degradation. Research can be directed to improving the technology of machines in either sector. We characterize dynamic tax policies that achieve sustainable growth or maximize intertemporal welfare, as a function of the degree of substitutability between clean and dirty inputs, environmental and resource stocks, and cross-country technological spillovers. We show that: (i) in the case where the inputs are sufficiently substitutable, sustainable long-run growth can be achieved with temporary taxation of dirty innovation and production; (ii) optimal policy involves both "carbon taxes" and research subsidies, so that excessive use of carbon taxes is avoided; (iii) delay in intervention is costly: the sooner and the stronger is the policy response, the shorter is the slow growth transition phase; (iv) the use of an exhaustible resource in dirty input production helps the switch to clean innovation under laissez-faire when the two inputs are substitutes. Under reasonable parameter values (corresponding to those used in existing models with exogenous technology) and with sufficient substitutability between inputs, it is optimal to redirect technical change towards clean technologies immediately and optimal environmental regulation need not reduce long-run growth. We also show that in a two-country extension, even though optimal environmental policy involves global policy coordination, when the two inputs are sufficiently substitutable environmental regulation only in the North may be sufficient to avoid a global disaster.
ER  -