This paper examines the impact of global productivity shocks in selected regions (Shanghai Group Countries) on Iranian agriculture sector applying framework of computable general equilibrium model. Needed data obtained from 2007 Social Accounting Matrix and GTAP8 data base. The results show that increase of 3 and 7 percent productivity in Shanghai Group countries' industrial sector increase agricultural production by 0.048 and 0.12 percent respectively.Thus,the positive changes of productivity due to spillover technology in Shanghai Group countries can influence all production sectors including agriculture.
برفیشر، ماری (1955). مقدمهای بر مدلهای تعادل عمومی قابل محاسبه. ترجمه: فاطمه بزازان و مریم سلیمانی موحد (1392). تهران: انتشارات نشر نی.
ذوالنور، سیدحسین، (1382)، الگوی تعادل عمومی کاربردی برای تحلیل اثر وضع مالیاتها در ایران، تهران، انتشارات وزرارت امور اقتصادی و دارایی، معاونت امور اقتصادی.
سلامی، حبیبالله. (1376). تجزیه و تحلیل اثر توسعه تکنولوژی در بخش صنعت بر رشد و توسعه بخش کشاورزی ایران در یک الگوی تعادل عمومی. اقتصاد کشاورزی و توسعه، 17: 7-24.
سیدزاده، سیامک. (1385)، اثر جهانیشدن اقتصاد بر توسعه بخش کشاورزی: مورد محصولات دامی، مجله توسعه و بهرهوری، 2: 10-20.
شاکری، عباس و موسوی، میرحسین، (1382)، بررسی عوامل مؤثر بر سرمایهگذاری خصوصی و دولتی در بخش کشاورزی، فصلنامه اقتصاد و توسعه کشاورزی، 89-116.
نجاتی، مهدی؛ مرزبان، حسین. (1391). ارزیابی اثر ناشی از سر ریز سرمایهگذاری مستقیم خارجی بخش صنعت بر اقتصاد ایران با استفاده از یک مدل تعادل عمومی. فصلنامه علمی- پژوهشی مطالعات اقتصادی کاربردی در ایران، 4: 151-181.
Brockmeier, M., (2001). A Graphical Exposition of The GTAP Model, GTAPTechnical Paper No.8.
Carneiro F,G and Arbache J.S. (2003). The Impacts of Trade on the Brazilian Labor Market: A. CGE Model Approach, World Development, 31:1581-1595.
Deng, Z., A. Blake and R. Falvey (2009). Quantifying Foreign Direct Investment Productivity Spillovers: A Computable General Equilibrium Framework for China’, GEP Research Paper 2009/18, University of Nottingham, 12: 307-326.
Faulkner, D. and K. Makrelov (2009). Productivity-Raising Interventions for the South African Economy: A CGE analysis, the EcoMod, University of Ottawa. 275-296.
Gradzewicz, M and Hagemejer, J and Zbigniew, Z (2008). Globalization and the Polish economy: stylized facts and simulations using a Computable General Equilibrium Model. Bank i Kredyt , 39:3-13.
Hertel, T.W, (1997). Global Trade Analysis: Modeling and Applications, Cambridge, MA, Cambridge University Press.
Javorcik, b.c (2004). Does foreign direct investment increase the productivity of domestic firms? In search of spillovers through backward linkage. American economic review, 4: 605-627.
Kinoshita, Y. (2000). R&D and technology spillovers via FDI. Innovation and absorptive capacity working papers series Wiham Davidson Institute at the University of Mishigan Stephen M.Ross school, 349.
Kinyondo, G and Mabugu, M. (2008). The general equilibrium effects of a productivity increase on the economy and gender in South Africa”. South African Journal of Economic and Management.University of Pretoria, Department of Economics, Working Papers 01/2008.
Lejour, A., Rojas-Romangosa, H. and Verweij, G. (2008). Opening Services Markets Within Europe: Modeling Foreign Establishments in a CGE Framework, Economic Modeling, 25:1022-1039.
McDougall, R.A. (1995). Computable General Equilibrium Modeling: Introduction and Overview, Asia Pacific Economic Modeling, 1: 88-91.
Sherman, R., Dirk, W., Hashim, A and Pual, D. (2010). Implications of food production and price shocks for household welfare in Ethiopia: A general equilibrium analysis international. MPRA paper, No.39533.
Shimizu, M. & et al. (1997). Value Added Productivity Measurement and its Practical Applications, Japan Productivity Center for Sosio-Economic Development.
Tanaka, T., &Hosoe, N. (2011). Does agricultural trade liberalization increase risks of supply-side uncertainty? Effects of productivity shocks and export restrictions on welfare and food supply in Japan. Food policy 3: 368-377.
Zhang, X. g., &Verikios, G. (2006). Armington parameter estimation for a computable general equilibrium model: A database consistent approach. Series economics Discussion, Working Paper, 06-10.
J, A., J, A., N, M., & J, M. (2015). The Impacts of Global Economic Productivity Shock on Iran,s Agricultural Production : Application of Computable General Equilibrium Approach. Agricultural Economics Research, 7(26), 163-178.
MLA
A.M J; A.M J; M. N; M. J. "The Impacts of Global Economic Productivity Shock on Iran,s Agricultural Production : Application of Computable General Equilibrium Approach". Agricultural Economics Research, 7, 26, 2015, 163-178.
HARVARD
J, A., J, A., N, M., J, M. (2015). 'The Impacts of Global Economic Productivity Shock on Iran,s Agricultural Production : Application of Computable General Equilibrium Approach', Agricultural Economics Research, 7(26), pp. 163-178.
VANCOUVER
J, A., J, A., N, M., J, M. The Impacts of Global Economic Productivity Shock on Iran,s Agricultural Production : Application of Computable General Equilibrium Approach. Agricultural Economics Research, 2015; 7(26): 163-178.
)
