Literature Review of Frontier Research on Meteorological Economics

Qiuju Huang, Jiaqi Luo

Abstract


No Content

Keywords


No Content

Full Text:

PDF

Included Database


References


[1] Ahmadzai, H., Malhotra, A., & Tutundjian, S. (2023). Assessing the impact of sand and dust storm on agriculture:

Empirical evidence from Mongolia. PloS one, 18(2), e0269271.

[2] Antwi-Agyei, P., Amanor, K., Hogarh, J.N., & Dougill, A.J. (2020). Predictors of access to and willingness to pay

for climate information services in north-eastern Ghana: A gendered perspective. Environmental development, 100580.

[3] Choudhary, B. B., & Sirohi, S. (2022). Understanding vulnerability of agricultural production system to climatic

stressors in North Indian Plains: a meso-analysis. Environment, development and sustainability, 24(12), 13522–13541.

[4] Gu, Y. H., Jin, D., Yin, H., Zheng, R., Piao, X., & Yoo, S. J. (2022). Forecasting Agricultural Commodity Prices

Using Dual Input Attention LSTM. Agriculture, 12(2), 256.

[5] Habib, H. (2022). Climate change, macroeconomic sensitivity and the response of remittances to the North

African countries: a panel VAR analyse. International Journal of Sustainable Development & World Ecology, 29(5), 401.

[6] Li, W., Wen, J., Xu, B., Li, X., & Du, S. (2018). Integrated Assessment of Economic Losses in Manufacturing

Industry in Shanghai Metropolitan Area Under an Extreme Storm Flood Scenario. Sustainability, 11(1), 126.

[7] Park, C.Y., Takahashi, K., Li, F., Takakura, J., Fujimori, S., Hasegawa, T., Ito, A., Lee, D.K., & Thiery, W. (2023).

Impact of climate and socioeconomic changes on fire carbon emissions in the future: Sustainable economic development

might decrease future emissions. Global Environmental Change.

[8] Petrović, G., Ivanović, T., Knežević, D., Radosavac, A., Obhođaš, I., Brzaković, T., Golić, Z., & Dragičević

Radičević, T. (2023). Assessment of Climate Change Impact on Maize Production in Serbia. Atmosphere, 14(1), 110.

[9] Ravichandran, V., Kantamaneni, K., Periasamy, T., Roy, P. D., Killivalavan, J., Sundar, S., Chokkalingam, L., &

Palanisamy, M. (2022). Monitoring of Multi-Aspect Drought Severity and Socio-Economic Status in the Semi-Arid Regions

of Eastern Tamil Nadu, India. Water, 14(13), 2049.

[10] Reed, C., Anderson, W., Kruczkiewicz, A., Nakamura, J., Gallo, D., Seager, R., & McDermid, S. S. (2022). The

impact of flooding on food security across Africa. Proceedings of the National Academy of Sciences of the United States of

America, 119(43), e2119399119.

[11] Sgarlato, R., & Ziel, F. (2023). The Role of Weather Predictions in Electricity Price Forecasting Beyond the DayAhead Horizon. IEEE Transactions on Power Systems, 38, 2500-2511.

[12] Shekhar, A., & Shapiro, C. A. (2022). Prospective crop yield and income return based on a retrospective analysis

of a long-term rainfed agriculture experiment in Nebraska. Agricultural Systems (198).

[13] Taguchi, R., Tanoue, M., Yamazaki, D., & Hirabayashi, Y. (2022). Global-Scale Assessment of Economic Losses

Caused by Flood-Related Business Interruption. Water, 14(6), 967.

[14] Wongpiyabovorn, O., Plastina. A., & Crespi, J. M. (2022). Challenges to voluntary Ag carbon markets. Applied

Economic Perspectives and Policy, 45(2), 1154.




DOI: https://doi.org/10.18686/pes.v5i4.2135

Refbacks

  • There are currently no refbacks.