1. Coping with increasing tides: Evolving agglomeration dynamics and technological change under exacerbating hazards. (2022). Roventini, Andrea ; Filatova, Tatiana ; Lamperti, Francesco ; Taberna, Alessandro.
   In: Ecological Economics.
   RePEc:eee:ecolec:v:202:y:2022:i:c:s0921800922002506.

   Full description at Econpapers || Download paper

1. Acemoglu, D., Carvalho, V. M., Ozdaglar, A., and Tahbaz-Salehi, A. (2012). The network origins of aggregate fluctuations. Econometrica, 80(5):1977–2016.

2. Aerts, J. C. (2020). Integrating agent-based approaches with flood risk models: A review and perspective. Water Security, 11:1–9.
   Paper not yet in RePEc: Add citation now
   

3. Aerts, J. C., Botzen, W. J., Clarke, K. C., Cutter, S. L., Hall, J. W., Merz, B., Michel-Kerjan, E., Mysiak, J., Surminski, S., and Kunreuther, H. (2018). Integrating human behaviour dynamics into flood disaster risk assessment. Nature Climate Change, 8(3):193–199.

4. Anas, A. and Liu, Y. (2007). A regional economy, land use, and transportation model (relu-tran): formulation, algorithm design, and testing. Journal of Regional Science, 47(3):415–455.

5. Anbarci, N., Escaleras, M., and Register, C. A. (2005). Earthquake fatalities: the interaction of nature and political economy. Journal of Public Economics, 89(9-10):1907–1933.

6. Angus, S., Parris, B. W., and Mahmooei, B. H. (2009). Climate change impacts and adaptation in bangladesh: An agent-based approach. In International Congress on Modelling and Simulation 2009: Interfacing Modelling and Simulation with Mathematical and Computational Sciences, pages 2720–2726. Modelling and Simulation Society of Australia and New Zealand (MSSANZ).
   Paper not yet in RePEc: Add citation now
   

7. Balint, T., Lamperti, F., Mandel, A., Napoletano, M., Roventini, A., and Sapio, A. (2017). Complexity and the economics of climate change: a survey and a look forward. Ecological Economics, 138:252– 265.

8. Baqaee, D. R. and Farhi, E. (2020). Productivity and misallocation in general equilibrium. The Quarterly Journal of Economics, 135(1):105–163.

9. Bardoscia, M., Battiston, S., Caccioli, F., and Caldarelli, G. (2017). Pathways towards instability in financial networks. Nature communications, 8(1):1–7.

10. Barro, R. J. (2006). Rare disasters and asset markets in the twentieth century. The Quarterly Journal of Economics, 121(3):823–866.

11. Barro, R. J. (2009). Rare disasters, asset prices, and welfare costs. American Economic Review, 99(1):243–64.

12. Barrot, J.-N. and Sauvagnat, J. (2016). Input specificity and the propagation of idiosyncratic shocks in production networks. The Quarterly Journal of Economics, 131(3):1543–1592.

13. Battiston, S., Gatti, D. D., Gallegati, M., Greenwald, B., and Stiglitz, J. E. (2012). Liaisons dangereuses: Increasing connectivity, risk sharing, and systemic risk. Journal of economic dynamics and control, 36(8):1121–1141.

14. Belasen, A. R. and Polachek, S. W. (2009). How disasters affect local labor markets the effects of hurricanes in florida. Journal of Human Resources, 44(1):251–276.

15. Berger, T. and Troost, C. (2014). Agent-based modelling of climate adaptation and mitigation options in agriculture. Journal of Agricultural Economics, 65(2):323–348.

16. Boehm, C. E., Flaaen, A., and Pandalai-Nayar, N. (2019). Input linkages and the transmission of shocks: Firm-level evidence from the 2011 tōhoku earthquake. Review of Economics and Statistics, 101(1):60–75.

17. Böhringer, C. and Rutherford, T. F. (2008). Combining bottom-up and top-down. Energy Economics, 30(2):574–596.

18. Bosetti, V., Carraro, C., Galeotti, M., Massetti, E., and Tavoni, M. (2006). A world induced technical change hybrid model. The Energy Journal, 27:13–37.

19. Botzen, W. W., Deschenes, O., and Sanders, M. (2019). The economic impacts of natural disasters: A review of models and empirical studies. Review of Environmental Economics and Policy, 13(2):167– 188.

20. Boustan, L. P., Kahn, M. E., and Rhode, P. W. (2012). Moving to higher ground: Migration response to natural disasters in the early twentieth century. American Economic Review, 102(3):238–44.

21. Carrera, L., Standardi, G., Bosello, F., and Mysiak, J. (2015). Assessing direct and indirect economic impacts of a flood event through the integration of spatial and computable general equilibrium modelling. Environmental Modelling & Software, 63:109–122.
    Paper not yet in RePEc: Add citation now
    

22. Carvalho, V. M., Nirei, M., Saito, Y. U., and Tahbaz-Salehi, A. (2021). Supply chain disruptions: Evidence from the great east japan earthquake. The Quarterly Journal of Economics, 136(2):1255– 1321.

23. Castro, J., Drews, S., Exadaktylos, F., Foramitti, J., Klein, F., Konc, T., Savin, I., and van den Bergh, J. (2020). A review of agent-based modeling of climate-energy policy. Wiley Interdisciplinary Reviews: Climate Change, 11(4):e647.
    Paper not yet in RePEc: Add citation now
    

24. Cavallo, E. and Noy, I. (2009). The economics of natural disasters: A survey. Research Department Publications 4649, Inter-American Development Bank, Research Department.

25. Cavallo, E., Galiani, S., Noy, I., and Pantano, J. (2013). Catastrophic natural disasters and economic growth. Review of Economics and Statistics, 95(5):1549–1561.

26. Cavallo, E., Noy, I., et al. (2011). Natural disasters and the economy—a survey. International Review of Environmental and Resource Economics, 5(1):63–102.

27. Cavallo, E., Powell, A., and Becerra, O. (2010). Estimating the direct economic damages of the earthquake in haiti. The Economic Journal, 120(546):F298–F312.

28. Caverzasi, E. and Godin, A. (2015). Post-keynesian stock-flow-consistent modelling: a survey. Cambridge Journal of Economics, 39(1):157–187.

29. Cerra, V. and Saxena, S. C. (2008). Growth dynamics: the myth of economic recovery. American Economic Review, 98(1):439–57.

30. Cho, J., Gordon, P., Moore II, J. E., Pan, Q., Park, J., and Richardson, H. W. (2015). Transniemo: economic impact analysis using a model of consistent inter-regional economic and network equilibria. Transportation Planning and Technology, 38(5):483–502.
    Paper not yet in RePEc: Add citation now
    
31. Coates, G., Li, C., Ahilan, S., Wright, N., and Alharbi, M. (2019). Agent-based modeling and simulation to assess flood preparedness and recovery of manufacturing small and medium-sized enterprises. Engineering Applications of Artificial Intelligence, 78:195–217.
    Paper not yet in RePEc: Add citation now
    

32. Coffman, M. and Noy, I. (2012). Hurricane iniki: measuring the long-term economic impact of a natural disaster using synthetic control. Environment and Development Economics, 17(2):187–205.

33. Colon, C., Hallegatte, S., and Rozenberg, J. (2021). Criticality analysis of a country’s transport network via an agent-based supply chain model. Nature Sustainability, 4(3):209–215.

34. Coronese, M., Lamperti, F., Keller, K., Chiaromonte, F., and Roventini, A. (2019). Evidence for sharp increase in the economic damages of extreme natural disasters. Proceedings of the National Academy of Sciences, 116(43):21450–21455.
    Paper not yet in RePEc: Add citation now
    

35. Coronese, M., Occelli, M., Lamperti, F., and Roventini, A. (2021). Agrilove: agriculture, land-use and technical change in an evolutionary, agent-based model.

36. Crespo Cuaresma, J., Hlouskova, J., and Obersteiner, M. (2008). Natural disasters as creative destruction ? evidence from developing countries. Economic Inquiry, 46(2):214–226.

37. Crowther, K. G. and Haimes, Y. Y. (2005). Application of the inoperability input—output model (iim) for systemic risk assessment and management of interdependent infrastructures. Systems engineering, 8(4):323–341.
    Paper not yet in RePEc: Add citation now
    

38. De Alwis, D. and Noy, I. (2019). Sri lankan households a decade after the indian ocean tsunami. Review of Development Economics, 23(2):1000–1026.

39. Deryugina, T., Kawano, L., and Levitt, S. (2018). The economic impact of hurricane katrina on its victims: Evidence from individual tax returns. American Economic Journal: Applied Economics, 10(2):202–33.

40. Diaz, D. and Keller, K. (2016). A potential disintegration of the west antarctic ice sheet: implications for economic analyses of climate policy. American Economic Review, 106(5):607–11.

41. Dosi, G. (1982). Technological paradigms and technological trajectories: a suggested interpretation of the determinants and directions of technical change. Research policy, 11(3):147–162.

42. Dosi, G. and Virgillito, M. E. (2021). In order to stand up you must keep cycling: Change and coordination in complex evolving economies. Structural Change and Economic Dynamics, 56:353– 364.

43. Dosi, G., Fagiolo, G., and Roventini, A. (2010). Schumpeter meeting keynes: A policy-friendly model of endogenous growth and business cycles. Journal of Economic Dynamics and Control, 34(9):1748– 1767.

44. Duarte, R., Feng, K., Hubacek, K., Sánchez-Chóliz, J., Sarasa, C., and Sun, L. (2016). Modeling the carbon consequences of pro-environmental consumer behavior. Applied Energy, 184:1207–1216.

45. duPont IV, W. and Noy, I. (2015). What happened to kobe? a reassessment of the impact of the 1995 earthquake in japan. Economic Development and Cultural Change, 63(4):777–812.

46. Entwisle, B., Williams, N. E., Verdery, A. M., Rindfuss, R. R., Walsh, S. J., Malanson, G. P., Mucha, P. J., Frizzelle, B. G., McDaniel, P. M., Yao, X., et al. (2016). Climate shocks and migration: an agent-based modeling approach. Population and environment, 38(1):47–71.
    Paper not yet in RePEc: Add citation now
    

47. Fagiolo, G. and Roventini, A. (2016). Macroeconomic policy in dsge and agent-based models redux: New developments and challenges ahead. Available at SSRN 2763735.

48. Fagiolo, G., Guerini, M., Lamperti, F., Moneta, A., and Roventini, A. (2019). Validation of agent-based models in economics and finance. In Computer simulation validation, pages 763–787. Springer.
    Paper not yet in RePEc: Add citation now
    
49. Field, C. B., Barros, V., Stocker, T., Qin, D., Dokken, D., Ebi, K., Mastrandrea, M., Mach, K., Plattner, G., Allen, S., et al. (2012). Ipcc, 2012: Managing the risks of extreme events and disasters to advance climate change adaptation. a special report of working groups i and ii of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, UK, and New York, NY, USA, 30(11):7575–7613.
    Paper not yet in RePEc: Add citation now
    

50. Filatova, T., Parker, D. C., and van der Veen, A. (2011a). The implications of skewed risk perception for a dutch coastal land market: insights from an agent-based computational economics model. Agricultural and Resource Economics Review, 40(3):405–423.

51. Filatova, T., Verburg, P. H., Parker, D. C., and Stannard, C. A. (2013). Spatial agent-based models for socio-ecological systems: Challenges and prospects. Environmental modelling & software, 45:1–7.
    Paper not yet in RePEc: Add citation now
    
52. Filatova, T., Voinov, A., and van der Veen, A. (2011b). Land market mechanisms for preservation of space for coastal ecosystems: an agent-based analysis. Environmental Modelling & Software, 26(2):179–190.
    Paper not yet in RePEc: Add citation now
    

53. Gabaix, X. (2011). The granular origins of aggregate fluctuations. Econometrica, 79(3):733–772.

54. Galbusera, L. and Giannopoulos, G. (2018). On input-output economic models in disaster impact assessment. International journal of disaster risk reduction, 30:186–198.
    Paper not yet in RePEc: Add citation now
    
55. Ghaffarian, S., Roy, D., Filatova, T., and Kerle, N. (2021). Agent-based modelling of post-disaster recovery with remote sensing data. International Journal of Disaster Risk Reduction, 60:102285.
    Paper not yet in RePEc: Add citation now
    

56. Giesecke, J. A. and Madden, J. R. (2013). Regional computable general equilibrium modeling. In Handbook of computable general equilibrium modeling, volume 1, pages 379–475. Elsevier.

57. Gigerenzer, G. and Gaissmaier, W. (2011). Heuristic decision making. Annual review of psychology, 62:451–482.
    Paper not yet in RePEc: Add citation now
    
58. Grinsted, A., Ditlevsen, P., and Christensen, J. H. (2019). Normalized us hurricane damage estimates using area of total destruction, 1900- 2018. Proceedings of the National Academy of Sciences, 116(48):23942–23946.
    Paper not yet in RePEc: Add citation now
    
59. Haer, T., Botzen, W. W., de Moel, H., and Aerts, J. C. (2017). Integrating household risk mitigation behavior in flood risk analysis: An agent-based model approach. Risk Analysis, 37(10):1977–1992.
    Paper not yet in RePEc: Add citation now
    
60. Haer, T., Husby, T. G., Botzen, W. W., and Aerts, J. C. (2020). The safe development paradox: An agent-based model for flood risk under climate change in the european union. Global Environmental Change, 60:102009.
    Paper not yet in RePEc: Add citation now
    

61. Hailegiorgis, A., Crooks, A., and Cioffi-Revilla, C. (2018). An agent-based model of rural households’ adaptation to climate change. Journal of Artificial Societies and Social Simulation, 21(4).

62. Hallegatte, S. (2008). An adaptive regional input-output model and its application to the assessment of the economic cost of katrina. Risk Analysis: An International Journal, 28(3):779–799.

63. Hallegatte, S. (2014). Modeling the role of inventories and heterogeneity in the assessment of the economic costs of natural disasters. Risk analysis, 34(1):152–167.

64. Hallegatte, S. (2015). The indirect cost of natural disasters and an economic definition of macroeconomic resilience. World Bank Policy Research Working Paper, 7357.

65. Hallegatte, S. (2019). Disasters’ impacts on supply chains. Nature sustainability, 2(9):791–792.

66. Hallegatte, S. and Dumas, P. (2009a). Can natural disasters have positive consequences? investigating the role of embodied technical change. Ecological Economics, 68(3):777–786.

67. Hallegatte, S. and Dumas, P. (2009b). Can natural disasters have positive consequences? investigating the role of embodied technical change. Ecological Economics, 68(3):777–786.

68. Hallegatte, S. and Przyluski, V. (2010). The economics of natural disasters: Concepts and methods. The World Bank.

69. Hallegatte, S., Hourcade, J.-C., and Dumas, P. (2007). Why economic dynamics matter in assessing climate change damages: illustration on extreme events. Ecological economics, 62(2):330–340.

70. Hallegatte, S., Ranger, N., Mestre, O., Dumas, P., Corfee-Morlot, J., Herweijer, C., and Wood, R. M. (2011). Assessing climate change impacts, sea level rise and storm surge risk in port cities: a case study on copenhagen. Climatic change, 104(1):113–137.

71. Henriet, F., Hallegatte, S., and Tabourier, L. (2012). Firm-network characteristics and economic robustness to natural disasters. Journal of Economic Dynamics and Control, 36(1):150–167.

72. Hino, M. and Burke, M. (2021). The effect of information about climate risk on property values. Proceedings of the National Academy of Sciences, 118(17).
    Paper not yet in RePEc: Add citation now
    

73. Hornbeck, R. and Keniston, D. (2017). Creative destruction: Barriers to urban growth and the great boston fire of 1872. American Economic Review, 107(6):1365–98.

74. Horridge, M., Madden, J., and Wittwer, G. (2005). The impact of the 2002–2003 drought on australia. Journal of Policy Modeling, 27(3):285–308.
    Paper not yet in RePEc: Add citation now
    

75. Hsiang, S. M. and Jina, A. S. (2014). The causal effect of environmental catastrophe on long-run economic growth: Evidence from 6,700 cyclones. Technical report, National Bureau of Economic Research.

76. Hsiang, S., Kopp, R., Jina, A., Rising, J., Delgado, M., Mohan, S., Rasmussen, D. J., Muir-Wood, R., Wilson, P., Oppenheimer, M., Larsen, K., and Houser, T. (2017). Estimating economic damage from climate change in the united states. Science, 356(6345):1362–1369.
    Paper not yet in RePEc: Add citation now
    
77. Husby, T. G. (2016). Economic impacts of behavioural responses to flood risk. PhD thesis, Vrije Universteit Amsterdam Amsterdam.
    Paper not yet in RePEc: Add citation now
    

78. Husby, T. G., de Groot, H. L., Hofkes, M. W., and Dröes, M. I. (2014). Do floods have permanent effects? evidence from the netherlands. Journal of Regional Science, 54(3):355–377.

79. In 2014 IEEE Conference on Computational Intelligence for Financial Engineering & Economics (CIFEr), pages 414–421. IEEE.
    Paper not yet in RePEc: Add citation now
    
80. in den Bäumen, H. S., Többen, J., and Lenzen, M. (2015). Labour forced impacts and production losses due to the 2013 flood in germany. Journal of hydrology, 527:142–150.
    Paper not yet in RePEc: Add citation now
    

81. Inoue, H. and Todo, Y. (2019). Firm-level propagation of shocks through supply-chain networks. Nature Sustainability, 2(9):841–847.

82. Jaramillo, C. R. (2009). Do natural disasters have long-term effects on growth? Documento CEDE, 2009-24.
    Paper not yet in RePEc: Add citation now
    

83. Jonkeren, O. and Giannopoulos, G. (2014). Analysing critical infrastructure failure with a resilience inoperability input–output model. Economic Systems Research, 26(1):39–59.

84. Kahn, M. E. (2005). The death toll from natural disasters: the role of income, geography, and institutions. Review of economics and statistics, 87(2):271–284.

85. Kahneman, D. (2002). Maps of bounded rationality: A perspective on intuitive judgment and choice. Nobel prize lecture, 8:351–401.

86. Kahneman, D. and Tversky, A. (2013). Prospect theory: An analysis of decision under risk. In Handbook of the fundamentals of financial decision making: Part I, pages 99–127. World Scientific.

87. Kanno, T., Koike, S., Suzuki, T., and Furuta, K. (2019). Human-centered modeling framework of multiple interdependency in urban systems for simulation of post-disaster recovery processes. Cognition, Technology & Work, 21(2):301–316.
    Paper not yet in RePEc: Add citation now
    

88. Kirman, A. P. (1992). Whom or what does the representative individual represent? Journal of economic perspectives, 6(2):117–136.

89. Knight, F. H. (1921). Risk, uncertainty and profit, volume 31. Houghton Mifflin.
    Paper not yet in RePEc: Add citation now
    
90. Kniveton, D., Smith, C., and Wood, S. (2011). Agent-based model simulations of future changes in migration flows for burkina faso. Global Environmental Change, 21:S34–S40.
    Paper not yet in RePEc: Add citation now
    

91. Koks, E. E. and Thissen, M. (2016). A multiregional impact assessment model for disaster analysis. Economic Systems Research, 28(4):429–449.

92. Koks, E. E., Bočkarjova, M., de Moel, H., and Aerts, J. C. (2015). Integrated direct and indirect flood risk modeling: development and sensitivity analysis. Risk analysis, 35(5):882–900.

93. Koks, E. E., Carrera, L., Jonkeren, O., Aerts, J. C., Husby, T. G., Thissen, M., Standardi, G., and Mysiak, J. (2016). Regional disaster impact analysis: comparing input–output and computable general equilibrium models. Natural Hazards and Earth System Sciences, 16(8):1911–1924.
    Paper not yet in RePEc: Add citation now
    
94. Kreibich, H., Christenberger, S., and Schwarze, R. (2011). Economic motivation of households to undertake private precautionary measures against floods. Natural Hazards and Earth System Sciences, 11(2):309–321.
    Paper not yet in RePEc: Add citation now
    
95. Kroll, C. A., Landis, J. D., Shen, Q., and Stryker, S. (1990). Economic impacts of the loma prieta earthquake: a focus on small business. Berkeley Planning Journal, 5.
    Paper not yet in RePEc: Add citation now
    

96. Krook-Riekkola, A., Berg, C., Ahlgren, E. O., and Söderholm, P. (2017). Challenges in top-down and bottom-up soft-linking: Lessons from linking a swedish energy system model with a cge model. Energy, 141:803–817.

97. Lackner, S. (2018). Earthquakes and economic growth. Technical report, FIW Working Paper.

98. Lamperti, F., Dosi, G., Napoletano, M., Roventini, A., and Sapio, A. (2018a). Faraway, so close: coupled climate and economic dynamics in an agent-based integrated assessment model. Ecological Economics, 150:315–339.

99. Lamperti, F., Mandel, A., Napoletano, M., Sapio, A., Roventini, A., Balint, T., and Khorenzhenko, I. (2019). Towards agent-based integrated assessment models: examples, challenges, and future developments. Regional environmental change, 19(3):747–762.

100. Lamperti, F., Roventini, A., and Sani, A. (2018b). Agent-based model calibration using machine learning surrogates. Journal of Economic Dynamics and Control, 90:366–389.

101. LeBaron, B. and Tesfatsion, L. (2008). Modeling macroeconomies as open-ended dynamic systems of interacting agents. American Economic Review, 98(2):246–50.

102. Loayza, N. V., Olaberria, E., Rigolini, J., and Christiaensen, L. (2012). Natural disasters and growth: Going beyond the averages. World Development, 40(7):1317–1336.

103. Malawska, A. and Topping, C. J. (2016). Evaluating the role of behavioral factors and practical constraints in the performance of an agent-based model of farmer decision making. Agricultural Systems, 143(C):136–146.

104. Meyer, V., Becker, N., Markantonis, V., Schwarze, R., van den Bergh, J. C., Bouwer, L. M., Bubeck, P., Ciavola, P., Genovese, E., Green, C., et al. (2013). Assessing the costs of natural hazards–state of the art and knowledge gaps. Natural Hazards and Earth System Sciences, 13(5):1351–1373.
     Paper not yet in RePEc: Add citation now
     
105. Muth, J. F. (1961). Rational expectations and the theory of price movements. Econometrica: Journal of the Econometric Society, pages 315–335.
     Paper not yet in RePEc: Add citation now
     

106. Naqvi, A. (2017). Deep impact: geo-simulations as a policy toolkit for natural disasters. World Development, 99:395–418.

107. Naqvi, A. A. and Rehm, M. (2014a). A multi-agent model of a low income economy: simulating the distributional effects of natural disasters. Journal of Economic Interaction and Coordination, 9(2):275–309.

108. Naqvi, A. A. and Rehm, M. (2014b). Simulating natural disasters—a complex systems framework.
     Paper not yet in RePEc: Add citation now
     
109. Naqvi, A. and Monasterolo, I. (2021). Assessing the cascading impacts of natural disasters in a multilayer behavioral network framework. Scientific reports, 11(1):1–14.
     Paper not yet in RePEc: Add citation now
     

110. Narita, D., Tol, R. S., and Anthoff, D. (2010). Economic costs of extratropical storms under climate change: an application of fund. Journal of Environmental Planning and Management, 53(3):371–384.

111. Nelson, R. R. (1985). An evolutionary theory of economic change. harvard university press.
     Paper not yet in RePEc: Add citation now
     
112. Niamir, L., Ivanova, O., and Filatova, T. (2020). Economy-wide impacts of behavioral climate change mitigation: Linking agent-based and computable general equilibrium models. Environmental Modelling & Software, 134:104839.
     Paper not yet in RePEc: Add citation now
     
113. Niamir, L., Ivanova, O., Filatova, T., and Voinov, A. (2018). Tracing macroeconomic impacts of individual behavioral changes through model integration. IFAC-papersonline, 51(5):96–101.
     Paper not yet in RePEc: Add citation now
     

114. Nordhaus, W. D. (1992). An optimal transition path for controlling greenhouse gases. Science, 258(5086):1315–1319.

115. Noy, I. (2009). The macroeconomic consequences of disasters. Journal of Development economics, 88(2):221–231.

116. Noy, I. and duPont, W. (2018). The long-term consequences of disasters: what do we know, and what we still don’t. International Review of Environmental and Resource Economics, 12(4):325–354.
     Paper not yet in RePEc: Add citation now
     

117. Noy, I. et al. (2018). The long-term consequences of disasters: What do we know, and what we still don’t. International Review of Environmental and Resource Economics, 12(4):325–354.

118. Okuyama, Y. (2004). Modeling spatial economic impacts of an earthquake: Input-output approaches. Disaster Prevention and Management: An International Journal.
     Paper not yet in RePEc: Add citation now
     

119. Okuyama, Y. (2007). Economic modeling for disaster impact analysis: past, present, and future. Economic Systems Research, 19(2):115–124.

120. Okuyama, Y. (2014). Disaster and economic structural change: Case study on the 1995 kobe earthquake. Economic Systems Research, 26(1):98–117.

121. Okuyama, Y. and Sahin, S. (2009). Impact estimation of disasters: a global aggregate for 1960 to 2007. World Bank Policy Research Working Paper, 4963.

122. Okuyama, Y., Sonis, M., and Hewings, G. J. (1999). Economic impacts of an unscheduled, disruptive event: a miyazawa multiplier analysis. In Understanding and interpreting economic structure, pages 113–143. Springer.

123. Oosterhaven, J. (2017). On the limited usability of the inoperability io model. Economic Systems Research, 29(3):452–461.

124. Oosterhaven, J. and Bouwmeester, M. C. (2016). A new approach to modeling the impact of disruptive events. Journal of Regional Science, 56(4):583–595.

125. Otto, C., Willner, S. N., Wenz, L., Frieler, K., and Levermann, A. (2017). Modeling loss-propagation in the global supply network: The dynamic agent-based model acclimate. Journal of Economic Dynamics and Control, 83:232–269.

126. Otto, F. E., Philip, S., Kew, S., Li, S., King, A., and Cullen, H. (2018). Attributing high-impact extreme events across timescales—a case study of four different types of events. Climatic change, 149(3):399–412.

127. Parker, D. C., Manson, S. M., Janssen, M. A., Hoffmann, M. J., and Deadman, P. (2003). Multi-agent systems for the simulation of land-use and land-cover change: a review. Annals of the association of American Geographers, 93(2):314–337.
     Paper not yet in RePEc: Add citation now
     
128. Parson, E. A. and Fisher-Vanden, K. (1997). Integrated assessment models of global climate change. Annual Review of Energy and the Environment, 22(1):589–628.
     Paper not yet in RePEc: Add citation now
     

129. Pauw, K., Thurlow, J., and VAN SEVENTER, D. E. (2011). The economic costs of extreme weather events: a hydrometeorological cge analysis for malawi. Environment and Development Economics, 16(2):177–198.

130. Perrow, C. (2011). The next catastrophe. Princeton University Press.
     Paper not yet in RePEc: Add citation now
     
131. Pichler, A. and Farmer, J. D. (2021). Simultaneous supply and demand constraints in input–output networks: The case of covid-19 in germany, italy, and spain. Economic Systems Research, pages 1–21.
     Paper not yet in RePEc: Add citation now
     

132. Poledna, S., Hochrainer-Stigler, S., Miess, M. G., Klimek, P., Schmelzer, S., Sorger, J., Shchekinova, E., Rovenskaya, E., Linnerooth-Bayer, J., Dieckmann, U., et al. (2018). When does a disaster become a systemic event? estimating indirect economic losses from natural disasters. arXiv preprint arXiv:1801.09740.

133. Poledna, S., Miess, M. G., and Hommes, C. H. (2020). Economic forecasting with an agent-based model. Available at SSRN 3484768.
     Paper not yet in RePEc: Add citation now
     
134. Prahl, B. F., Boettle, M., Costa, L., Kropp, J. P., and Rybski, D. (2018). Damage and protection cost curves for coastal floods within the 600 largest european cities. Scientific data, 5:180034.
     Paper not yet in RePEc: Add citation now
     
135. Prahl, B. F., Rybski, D., Boettle, M., and Kropp, J. P. (2016). Damage functions for climaterelated hazards: unification and uncertainty analysis. Natural Hazards and Earth System Sciences, 16(5):1189–1203.
     Paper not yet in RePEc: Add citation now
     
136. Pyka, A. and Fagiolo, G. (2007). 29 agent-based modelling: a methodology for neo-schumpeterian economics’. Elgar companion to neo-schumpeterian economics, 467.
     Paper not yet in RePEc: Add citation now
     

137. Rausch, S., Metcalf, G. E., and Reilly, J. M. (2011). Distributional impacts of carbon pricing: A general equilibrium approach with micro-data for households. Energy economics, 33:S20–S33.

138. Reissl, S., Caiani, A., Lamperti, F., Guerini, M., Vanni, F., Fagiolo, G., Ferraresi, T., Ghezzi, L., Napoletano, M., and Roventini, A. (2022). Assessing the economic impact of lockdowns in italy: A computational input–output approach. Industrial and Corporate Change, 31(2):358–409.
     Paper not yet in RePEc: Add citation now
     
139. Riad, J. K., Norris, F. H., and Ruback, R. B. (1999). Predicting evacuation in two major disasters: Risk perception, social influence, and access to resources 1. Journal of applied social Psychology, 29(5):918–934.
     Paper not yet in RePEc: Add citation now
     

140. Richiardi, M. G. and Richardson, R. E. (2017). Jas-mine: A new platform for microsimulation and agent-based modelling. International Journal of Microsimulation, 10(1):106–134.

141. Roberts, D. (2000). The spatial diffusion of secondary impacts: rural-urban spillovers in grampian, scotland. Land Economics, pages 395–412.

142. Rose, A. (2004a). Defining and measuring economic resilience to disasters. Disaster Prevention and Management: An International Journal.
     Paper not yet in RePEc: Add citation now
     
143. Rose, A. (2004b). Economic principles, issues, and research priorities in hazard loss estimation. In Modeling spatial and economic impacts of disasters, pages 13–36. Springer.
     Paper not yet in RePEc: Add citation now
     

144. Rose, A. and Liao, S.-Y. (2005). Modeling regional economic resilience to disasters: A computable general equilibrium analysis of water service disruptions. Journal of Regional Science, 45(1):75–112.

145. Rose, A. and Wei, D. (2013). Estimating the economic consequences of a port shutdown: the special role of resilience. Economic Systems Research, 25(2):212–232.

146. Rose, A., Oladosu, G., and Liao, S.-Y. (2007). Business interruption impacts of a terrorist attack on the electric power system of los angeles: customer resilience to a total blackout. Risk Analysis: An International Journal, 27(3):513–531.

147. Rose, A., Sue Wing, I., Wei, D., and Wein, A. (2016). Economic impacts of a california tsunami. Natural Hazards Review, 17(2):04016002.
     Paper not yet in RePEc: Add citation now
     

148. Safarzyńska, K., Brouwer, R., and Hofkes, M. (2013). Evolutionary modelling of the macro-economic impacts of catastrophic flood events. Ecological Economics, 88:108–118.

149. Santos, J. R. and Haimes, Y. Y. (2004). Modeling the demand reduction input-output (i-o) inoperability due to terrorism of interconnected infrastructures. Risk Analysis: An International Journal, 24(6):1437–1451.
     Paper not yet in RePEc: Add citation now
     
150. Schreinemachers, P. and Berger, T. (2011). An agent-based simulation model of human–environment interactions in agricultural systems. Environmental Modelling & Software, 26(7):845–859.
     Paper not yet in RePEc: Add citation now
     
151. Schrieks, T., Botzen, W. J. W., Wens, M., Haer, T., and Aerts, J. (2021). Integrating behavioral theories in agent-based models for agricultural drought risk assessments. Front. Water 3: 686329. doi: 10.3389/frwa.
     Paper not yet in RePEc: Add citation now
     

152. Seppecher, P. (2012). Flexibility of wages and macroeconomic instability in an agent-based computational model with endogenous money. Macroeconomic Dynamics, 16(S2):284–297.

153. Seung, C. K. (2014). Measuring spillover effects of shocks to the alaska economy: an inter-regional social accounting matrix (irsam) model approach. Economic Systems Research, 26(2):224–238.

154. Shogren, J. F. and Crocker, T. D. (1991). Risk, self-protection, and ex ante economic value. Journal of Environmental Economics and Management, 20(1):1–15.

155. Siegrist, M. and Gutscher, H. (2008). Natural hazards and motivation for mitigation behavior: People cannot predict the affect evoked by a severe flood. Risk Analysis: An International Journal, 28(3):771–778.

156. Skidmore, M. and Toya, H. (2002). Do natural disasters promote long-run growth? Economic inquiry, 40(4):664–687.

157. Smajgl, A., Morris, S., and Heckbert, S. (2009). Water policy impact assessment–combining modelling techniques in the great barrier reef region. Water Policy, 11(2):191–202.
     Paper not yet in RePEc: Add citation now
     
158. Stanton, E. A., Ackerman, F., and Kartha, S. (2009). Inside the integrated assessment models: Four issues in climate economics. Climate and Development, 1(2):166–184.
     Paper not yet in RePEc: Add citation now
     

159. Stern, N. (2013). The structure of economic modeling of the potential impacts of climate change: grafting gross underestimation of risk onto already narrow science models. Journal of Economic Literature, 51(3):838–59.

160. Taberna, A., Filatova, T., Roventini, A., Lamperti, F., et al. (2021). Coping with increasing tides: technological change, agglomeration dynamics and climate hazards in an agent-based evolutionary model. Technical report, Laboratory of Economics and Management (LEM), Sant’Anna School of Advanced . . . . Taberna, A., Filatova, T., Roy, D., and Noll, B. (2020). Tracing resilience, social dynamics and behavioral change: a review of agent-based flood risk models. Socio-Environmental Systems Modelling, 2:17938–17938.

161. Tatano, H. and Tsuchiya, S. (2008). A framework for economic loss estimation due to seismic transportation network disruption: a spatial computable general equilibrium approach. Natural Hazards, 44(2):253–265.

162. Teglio, A., Raberto, M., and Cincotti, S. (2012). The impact of banks’capital adequacy regulation on the economic system: An agent-based approach. Advances in Complex Systems, 15(supp02):1250040.
     Paper not yet in RePEc: Add citation now
     

163. Tesfatsion, L. and Judd, K. L. (2006). Handbook of computational economics: agent-based computational economics. Elsevier.

164. Tesfatsion, L., Rehmann, C. R., Cardoso, D. S., Jie, Y., and Gutowski, W. J. (2017). An agentbased platform for the study of watersheds as coupled natural and human systems. Environmental Modelling & Software, 89:40–60.
     Paper not yet in RePEc: Add citation now
     
165. Tierney, K. J. (1997). Business impacts of the northridge earthquake. Journal of Contingencies and crisis management, 5(2):87–97.
     Paper not yet in RePEc: Add citation now
     

166. Toya, H. and Skidmore, M. (2007). Economic development and the impacts of natural disasters. Economics letters, 94(1):20–25.

167. Troost, C. and Berger, T. (2015). Dealing with uncertainty in agent-based simulation: farm-level modeling of adaptation to climate change in southwest germany. American Journal of Agricultural Economics, 97(3):833–854.

168. Tsuchiya, S., Tatano, H., and Okada, N. (2007). Economic loss assessment due to railroad and highway disruptions. Economic Systems Research, 19(2):147–162.

169. Van Aalst, M. K. (2006). The impacts of climate change on the risk of natural disasters. Disasters, 30(1):5–18.
     Paper not yet in RePEc: Add citation now
     

170. van Duinen, R., Filatova, T., Jager, W., and van der Veen, A. (2016). Going beyond perfect rationality: drought risk, economic choices and the influence of social networks. Annals of regional science, 57(23) :335–369.

171. Vicsek, T. (2002). The bigger picture: complexity. Nature, 418:131.

172. Vigdor, J. (2008). The economic aftermath of hurricane katrina. Journal of Economic Perspectives, 22(4):135–54.

173. Vu, T. B. and Noy, I. (2018). Natural disasters and firms in vietnam. Pacific Economic Review, 23(3):426–452.

174. Wen, Y., Zhang, L., Huang, Z., and Jin, M. (2014). Incorporating transportation network modeling tools within transportation economic impact studies of disasters. Journal of traffic and transportation engineering (English edition), 1(4):247–260.
     Paper not yet in RePEc: Add citation now
     

175. Willner, S. N., Otto, C., and Levermann, A. (2018). Global economic response to river floods. Nature Climate Change, 8(7):594–598.

176. Wu, J., Li, N., Hallegatte, S., Shi, P., Hu, A., and Liu, X. (2012). Regional indirect economic impact evaluation of the 2008 wenchuan earthquake. Environmental Earth Sciences, 65(1):161–172.

177. Xiao, Y. (2011). Local economic impacts of natural disasters. Journal of Regional Science, 51(4):804– 820.

178. Xiao, Y. and Feser, E. (2014). The unemployment impact of the 1993 us midwest flood: a quasiexperimental structural break point analysis. Environmental Hazards, 13(2):93–113.
     Paper not yet in RePEc: Add citation now
     

179. Zivin, J. S. G., Liao, Y., and Panassie, Y. (2020). How hurricanes sweep up housing markets: Evidence from florida. Technical report, National Bureau of Economic Research.

1. Are trade wars class wars? The importance of trade-induced horizontal inequality. (2024). Jaravel, Xavier ; Borusyak, Kirill.
   In: Journal of International Economics.
   RePEc:eee:inecon:v:150:y:2024:i:c:s002219962400062x.

   Full description at Econpapers || Download paper

2. Measuring the input rank in global supply networks. (2023). Huremović, Kenan ; Fattorini, Loredana ; Rungi, Armando.
   In: The World Economy.
   RePEc:bla:worlde:v:46:y:2023:i:10:p:3081-3115.

   Full description at Econpapers || Download paper

3. Exposure to trade disruptions in case of the Russia–Ukraine conflict: A product network approach. (2023). Sebestyén, Tamás ; Sebestyn, Tams ; Iloskics, Zita ; Gyimesi, Andrs ; Braun, Emese.
   In: The World Economy.
   RePEc:bla:worlde:v:46:y:2023:i:10:p:2950-2982.

   Full description at Econpapers || Download paper

4. Persistence in Financial Connectedness and Systemic Risk. (2023). Baruník, Jozef ; Ellington, Michael.
   In: Papers.
   RePEc:arx:papers:2007.07842.

   Full description at Econpapers || Download paper

5. Production Network Structure, Service Share, and Aggregate Volatility. (2021). Miranda-Pinto, Jorge.
   In: Review of Economic Dynamics.
   RePEc:red:issued:19-157.

   Full description at Econpapers || Download paper

6. A magyar járműipar kapcsolati szerkezetének vizsgálata. A német járműipartól való függőség alakulása. (2020). Sebestyén, Tamás ; Kiss, Tibor ; Sebestyen, Tamas ; Braun, Erik.
   In: Közgazdasági Szemle (Economic Review - monthly of the Hungarian Academy of Sciences).
   RePEc:ksa:szemle:1910.

   Full description at Econpapers || Download paper

7. Transmission of Domestic and External Shocks through Input-Output Network: Evidence from Korean Industries. (2019). Lee, Dongyeol.
   In: IMF Working Papers.
   RePEc:imf:imfwpa:2019/117.

   Full description at Econpapers || Download paper

8. Trade Linkages and International Business Cycle Comovement: Evidence from Korean Industry Data. (2019). Lee, Dongyeol.
   In: IMF Working Papers.
   RePEc:imf:imfwpa:2019/116.

   Full description at Econpapers || Download paper

9. Network Data. (2019). Graham, Bryan.
   In: Papers.
   RePEc:arx:papers:1912.06346.

   Full description at Econpapers || Download paper

10. Using network science to quantify economic disruptions in regional input-output networks. (2019). Harvey, Emily P.
    In: Papers.
    RePEc:arx:papers:1910.12498.

    Full description at Econpapers || Download paper

11. The Macroeconomic Impact of Microeconomic Shocks: Beyond Hultens Theorem. (2017). Baqaee, David ; Farhi, Emmanuel.
    In: 2017 Meeting Papers.
    RePEc:red:sed017:479.

    Full description at Econpapers || Download paper

12. Subsidising car purchases in the euro area: any spill-over on production?. (2017). Paredes, Joan.
    In: Working Paper Series.
    RePEc:ecb:ecbwps:20172094.

    Full description at Econpapers || Download paper

13. The Network Composition of Aggregate Unemployment. (2016). Guerrero, Omar ; Axtell, Robert ; Lopez, Eduardo.
    In: MPRA Paper.
    RePEc:pra:mprapa:68962.

    Full description at Econpapers || Download paper

14. Community Analysis of Global Financial Markets. (2016). Havlin, Shlomo ; Vodenska, Irena ; Stanley, Eugene H ; Kenett, Dror Y ; Zhou, DI ; Becker, Alexander P.
    In: Risks.
    RePEc:gam:jrisks:v:4:y:2016:i:2:p:13-:d:70032.

    Full description at Econpapers || Download paper

15. Input diffusion and the evolution of production networks. (2015). Voigtländer, Nico ; Carvalho, Vasco ; Voigtlander, Nico.
    In: Economics Working Papers.
    RePEc:upf:upfgen:1418.

    Full description at Econpapers || Download paper

16. Intersectoral Linkages, Diverse Information, and Aggregate Dynamics in a Neoclassical Model. (2015). Chahrour, Ryan ; Atolia, Manoj.
    In: 2015 Meeting Papers.
    RePEc:red:sed015:398.

    Full description at Econpapers || Download paper

17. Schumpeterian business cycles. (2015). Rozsypal, Filip.
    In: 2015 Meeting Papers.
    RePEc:red:sed015:320.

    Full description at Econpapers || Download paper

18. Price dynamics, financial fragility and aggregate volatility. (2015). Mandel, Antoine ; Gallegati, Mauro ; Landini, Simone ; Gintis, Herbert.
    In: Journal of Economic Dynamics and Control.
    RePEc:eee:dyncon:v:51:y:2015:i:c:p:257-277.

    Full description at Econpapers || Download paper

19. Intersectoral Linkages, Diverse Information, and Aggregate Dynamics. (2015). Chahrour, Ryan ; Atolia, Manoj.
    In: Boston College Working Papers in Economics.
    RePEc:boc:bocoec:832.

    Full description at Econpapers || Download paper

20. Input Diffusion and the Evolution of Production Networks. (2015). Voigtländer, Nico ; Carvalho, Vasco ; Voigtlander, Nico.
    In: Working Papers.
    RePEc:bge:wpaper:759.

    Full description at Econpapers || Download paper

21. Nets: Network Estimation for Time Series. (2015). Brownlees, Christian ; Barigozzi, Matteo.
    In: Working Papers.
    RePEc:bge:wpaper:723.

    Full description at Econpapers || Download paper

22. From micro to macro via production networks. (2014). Carvalho, Vasco.
    In: Economics Working Papers.
    RePEc:upf:upfgen:1449.

    Full description at Econpapers || Download paper

23. Analytical Derivation of Power Laws in Firm Size Variables from Gibrat’s Law and Quasi-inversion Symmetry: A Geomorphological Approach. (2014). Souma, Wataru ; Watanabe, Tsutomu ; Mizuno, Takayuki.
    In: UTokyo Price Project Working Paper Series.
    RePEc:upd:utppwp:019.

    Full description at Econpapers || Download paper

24. Real and financial crises: A multi-agent approach. (2014). Setterfield, Mark ; Gibson, William.
    In: Working Papers.
    RePEc:tri:wpaper:1309.

    Full description at Econpapers || Download paper

25. Human-Mobility Networks, Country Income, and Labor Productivity. (2014). Santoni, Gianluca ; Fagiolo, Giorgio.
    In: LEM Papers Series.
    RePEc:ssa:lemwps:2014/08.

    Full description at Econpapers || Download paper

26. Virtual water trade and country vulnerability: A network perspective. (2014). Schiavo, Stefano ; Sartori, Martina.
    In: MPRA Paper.
    RePEc:pra:mprapa:59210.

    Full description at Econpapers || Download paper

27. Temporary Shocks and Persistent Effects in the Urban System: Evidence from British Cities after the U.S. Civil War. (2014). Hanlon, W.
    In: NBER Working Papers.
    RePEc:nbr:nberwo:20471.

    Full description at Econpapers || Download paper

28. Input Diffusion and the Evolution of Production Networks. (2014). Voigtländer, Nico ; Carvalho, Vasco ; Voigtlander, Nico.
    In: NBER Working Papers.
    RePEc:nbr:nberwo:20025.

    Full description at Econpapers || Download paper

29. Cégek kapcsolati hálózatainak gazdasági szerepe. (2014). Szeidl, Adam ; Koren, Miklós ; Kondor, Péter ; Pal, Jen .
    In: Közgazdasági Szemle (Economic Review - monthly of the Hungarian Academy of Sciences).
    RePEc:ksa:szemle:1516.

    Full description at Econpapers || Download paper

30. The Structure and Evolution of Buyer-Supplier Networks. (2014). Souma, Wataru ; Watanabe, Tsutomu ; Mizuno, Takayuki.
    In: Working Paper Series.
    RePEc:hit:cinwps:27.

    Full description at Econpapers || Download paper

31. Key Players. (2014). Zenou, Yves.
    In: CEPR Discussion Papers.
    RePEc:cpr:ceprdp:10277.

    Full description at Econpapers || Download paper

32. Peering into the mist: social learning over an opaque observation network. (2014). Barrdear, John.
    In: Discussion Papers.
    RePEc:cfm:wpaper:1409.

    Full description at Econpapers || Download paper

33. Buyer-Supplier Networks and Aggregate Volatility. (2014). Souma, Wataru ; Watanabe, Tsutomu ; Mizuno, Takayuki.
    In: CARF F-Series.
    RePEc:cfi:fseres:cf353.

    Full description at Econpapers || Download paper

34. The Structure and Evolution of Buyer-Supplier Networks. (2014). Souma, Wataru ; Watanabe, Tsutomu ; Mizuno, Takayuki.
    In: CARF F-Series.
    RePEc:cfi:fseres:cf339.

    Full description at Econpapers || Download paper

35. Foreign shocks in an estimated multi-sector model. (2014). Bergholt, Drago.
    In: Working Papers.
    RePEc:bny:wpaper:0022.

    Full description at Econpapers || Download paper

36. Stable Networks in Homogeneous Societies. (2014). Hellmann, Tim ; Landwehr, Jakob .
    In: Center for Mathematical Economics Working Papers.
    RePEc:bie:wpaper:517.

    Full description at Econpapers || Download paper

37. Instabilities in large economies: aggregate volatility without idiosyncratic shocks. (2014). thesmar, david ; Landier, Augustin ; Bonart, Julius ; Bouchaud, Jean-Philippe.
    In: Papers.
    RePEc:arx:papers:1406.5022.

    Full description at Econpapers || Download paper

38. Nets: Network estimation for time series. (2013). Brownlees, Christian ; Barigozzi, Matteo.
    In: Economics Working Papers.
    RePEc:upf:upfgen:1391.

    Full description at Econpapers || Download paper

39. World, Country, and Sector Factors in International Business Cycles. (2013). Leon-Ledesma, Miguel ; Karadimitropoulou, Aikaterini.
    In: Studies in Economics.
    RePEc:ukc:ukcedp:1307.

    Full description at Econpapers || Download paper

40. World, Country, and Sector Factors in International Business Cycles. (2013). Leon-Ledesma, Miguel ; Karadimitropoulou, Aikaterini.
    In: University of East Anglia Applied and Financial Economics Working Paper Series.
    RePEc:uea:aepppr:2012_45.

    Full description at Econpapers || Download paper

41. A New Approach to Infer Changes in the Synchronization of Business Cycle Phases. (2013). Leiva-Leon, Danilo.
    In: MPRA Paper.
    RePEc:pra:mprapa:54452.

    Full description at Econpapers || Download paper

42. Credit Contagion in Financial Markets: A Network-Based Approach. (2013). Steinbacher, Mitja.
    In: MPRA Paper.
    RePEc:pra:mprapa:49616.

    Full description at Econpapers || Download paper

43. Input-Output-based Measures of Systemic Importance. (2013). Angeloni, Ignazio ; Aldasoro, Iñaki.
    In: MPRA Paper.
    RePEc:pra:mprapa:49557.

    Full description at Econpapers || Download paper

44. Firm Volatility in Granular Networks. (2013). Van Nieuwerburgh, Stijn ; Lustig, Hanno ; Herskovic, Bernard ; Kelly, Bryan.
    In: NBER Working Papers.
    RePEc:nbr:nberwo:19466.

    Full description at Econpapers || Download paper

45. Price dynamics, financial fragility and aggregate volatility. (2013). Mandel, Antoine ; Gallegati, Mauro ; Landini, Simone ; Gintis, Herbert.
    In: Documents de travail du Centre d'Economie de la Sorbonne.
    RePEc:mse:cesdoc:13076.

    Full description at Econpapers || Download paper

46. Outsourcing and the rise in services. (2013). Berlingieri, Giuseppe.
    In: LSE Research Online Documents on Economics.
    RePEc:ehl:lserod:51532.

    Full description at Econpapers || Download paper

47. The granular hypothesis in EU country exports. (2013). Del Rosal, Ignacio.
    In: Economics Letters.
    RePEc:eee:ecolet:v:120:y:2013:i:3:p:433-436.

    Full description at Econpapers || Download paper

48. Vacancies in supply chain networks. (2013). Kominers, Scott ; Hatfield, John William.
    In: Economics Letters.
    RePEc:eee:ecolet:v:119:y:2013:i:3:p:354-357.

    Full description at Econpapers || Download paper

49. World, country, and sector factors in international business cycles. (2013). Leon-Ledesma, Miguel ; Karadimitropoulou, Aikaterini.
    In: Journal of Economic Dynamics and Control.
    RePEc:eee:dyncon:v:37:y:2013:i:12:p:2913-2927.

    Full description at Econpapers || Download paper

50. Costly external finance and labor market dynamics. (2013). Chugh, Sanjay K..
    In: Journal of Economic Dynamics and Control.
    RePEc:eee:dyncon:v:37:y:2013:i:12:p:2882-2912.

    Full description at Econpapers || Download paper

Report date: 2025-09-20 23:34:43 || Missing content? Let us know