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SARIMA Model-Based Monte Carlo Simulation of Option Contract Design for Maize Seasonal Heavy Precipitation in Shenyang.

Authors :
Cheng-yi Pu
Pei-huan Li
Lin-qiu Gu
Xiao-jun Pan
Source :
Journal of Risk Analysis & Crisis Response (JRACR). 2024, Vol. 14 Issue 2, p251-271. 21p.
Publication Year :
2024

Abstract

Agricultural production is highly dependent on weather conditions such as temperature, light, water and heat. The huge loss caused by extreme disaster weather makes the global insurance and reinsurance market overwhelmed, and seriously affects the enthusiasm of agricultural investment and the development of agricultural economy. With unique topography and vast territory, China is vulnerable to complex and diverse climate disasters. In recent years, the annual average economic loss caused by extreme weather disasters has reached about 200-300 billion yuan, among which floods caused by extreme heavy rainfall are the main agricultural disasters in China. In order to enhance the "farmer - insurance company - government" interest association to resist the risk of flood disaster caused by extreme heavy rainfall, financial hedging derivatives of weather disaster risk have gradually become a new hedging tool besides traditional insurance and reinsurance. This paper takes Shenyang, the main grain producing area in northeast China, as the sample of the study area, and uses the SARIMA model to obtain the distribution characteristics of seasonal rainfall time series. Different seasonal rainfall index option products (call option and put option contracts) are designed respectively, and the final option pricing is obtained by Monte Carlo stochastic simulation. The seasonal rainfall call option and put option contracts have opened up a new hedging model of agricultural extreme weather catastrophe outside the insurance and reinsurance market, which has enriched the varieties of weather financial derivatives market in China, reduced the severe impact of extreme weather disasters on agriculture, and enhanced the ability of agricultural stakeholders to resist the risk of extreme weather disasters. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
22108491
Volume :
14
Issue :
2
Database :
Academic Search Index
Journal :
Journal of Risk Analysis & Crisis Response (JRACR)
Publication Type :
Academic Journal
Accession number :
178454322
Full Text :
https://doi.org/10.54560/jracr.v14i2.475