ENSO Index-Based Insurance for Agricultural Protection in Southern Peru

Mortensen, Eric; Block, Paul

doi:10.3390/geosciences8020064

Cited by 9 publications

(7 citation statements)

References 24 publications

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“…The loss expectation can be determined using historical burn rate method (HBR), which is the mean historical losses (Guerrero-Baena and Gómez-Limón, 2019; Hohl et al, 2020;Mortensen and Block, 2018;Shirsath et al, 2019).This method is widely applied in the insurance industry, however, requires sufficient data in order to be accurate. For smaller datasets considering uncertainty, expected values can be evaluated by fitting loss data to a probability density function (Aizaki et al, 2021;Bokusheva, 2018;Bucheli et al, 2021;Eze et al, 2020;Kath et al, 2019;Salgueiro, 2019;Sacchelli et al, 2018;Vroege et al, 2021;Ward et al, 2020).…”

Section: Financial Methods and Risk Pricingmentioning

confidence: 99%

“…The surface sea temperature of the Pacific Ocean has a close relationship with droughts in many parts of the globe, such as Central America, South Africa, Australia, and Southeast Asia (Vicente-Serrano et al, 2011). El Niño South Oscillation (ENSO) has demonstrated the potential to predict extreme drought conditions (Vicente-Serrano et al, 2011), therefore being used as a customized index for insurance design in Peru (Mortensen and Block, 2018). Lastly, customized indices can be used in situations where the relationships between droughts and losses and damages are very specific.…”

Section: Hazard Identificationmentioning

confidence: 99%

“…Deterministic models were applied for income reduction impacts, especially for crop insurance. Additionally, some models were related only with one explanatory variable (one index) was the most common solution found in the in-depth analysis (Aizaki et al, 2021;Bokusheva, 2018;Bucheli et al, 2021;Hohl et al, 2020;Kath et al, 2019;Mortensen and Block, 2018;F et al, 2020;Vroege and Finger, 2020;Ward and Makhija, 2018). There is evidence that machine learning techniques improve loss modeling from different sources and present different time and spatial scales (Eze et al, 2020).…”

Section: Vulnerability Analysismentioning

confidence: 99%

“…El Niño-Southern Oscillation (ENSO) triggers extreme precipitation events (Lyon and Barnston, 2005), which makes the hypothesis of a compound event plausible in this case. Mortensen and Block (2018) proposed an insurance policy for droughts using ENSO as an index and obtained good crop losses prediction accuracy. Nonetheless, in a multi-hazard risk schema, this variable should be considered to improve the model's ability to evaluate the probability of extreme precipitation events related to ENSO or other larger-scale meteorological phenomena that impact a region.…”

Section: Vulnerability Analysismentioning

confidence: 99%

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Review article: Design and Evaluation of Weather Index Insurance for Multi-Hazard Resilience and Food Insecurity

Benso

Gesualdo²,

Silva³

et al. 2022

Preprint

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Abstract. The urgency of accelerating disaster risk resilience also promotes preferred systematic reviews of the methods for design and evaluation of risk transfer tools. This paper aims to provide a state-of-art weather index insurance design, thereby including methods for natural hazards’ indices calculation, vulnerability assessment and risk pricing. We applied the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) using the Scopus database. First, 364 peer-reviewed articles from 2010 to present were screened for a bibliometric analysis and then, the 34 most cited articles from the past five years were systematically analyzed. Our results demonstrate that despite a great research effort on index insurance, the majority of them focused on food insecurity through agricultural and crop insurance. Also, climate change and basis risks were found highly relevant for weather index insurance, but weakly developed, suggesting challenges around food insecurity. Special focus was given to drought hazards, while other hazards such as temperature variation, excessive rainfall and wildfires were slightly covered. Emerging areas, namely agricultural, hydrological, and sustainable index insurance found promissory for insurance. Also, current state-of-the-art lacks methods for incorporating multi-hazard risk evaluation in vulnerability assessment and risk pricing. Most studies considered only single-hazard risk, and the multi-hazard risk studies assumed independence between hazards. Thus, we summarized the most common methods for calculating indices, estimating losses using indices, pricing risks, and evaluating insurance index policies. This review promotes a starting point in weather index insurance design towards a multi-hazard resilient society.

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Section: Financial Methods and Risk Pricingmentioning

confidence: 99%

Section: Hazard Identificationmentioning

confidence: 99%

Section: Vulnerability Analysismentioning

confidence: 99%

Section: Vulnerability Analysismentioning

confidence: 99%

See 2 more Smart Citations

Review article: Design and Evaluation of Weather Index Insurance for Multi-Hazard Resilience and Food Insecurity

Benso

Gesualdo²,

Silva³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…For example, modeling of financial reserves is not common in the water resources literature, and the limited examples tend to assume that the utility will contribute either a fixed amount or a fixed fraction of revenues to the reserve fund each year (Rehan et al., 2013, 2015; Zeff et al., 2014). Similarly, there is a growing interest in using hydrology‐based financial hedging contracts in applications such as hydropower (Foster et al., 2015; Hamilton et al., 2020; Meyer et al., 2016), water supply (Brown & Carriquiry, 2007; Maestro et al., 2016; Zeff & Characklis, 2013), and agriculture (Denaro et al., 2020; Mortensen & Block, 2018; Turvey, 2001), but researchers have generally assumed that the same contract is purchased each year, not allowing for risk management to be adjusted over time as conditions change.…”

Section: Introductionmentioning

confidence: 99%

From Stream Flows to Cash Flows: Leveraging Evolutionary Multi‐Objective Direct Policy Search to Manage Hydrologic Financial Risks

Hamilton

Characklis

Reed

2022

Water Resources Research

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Reservoir control and financial risk management share strong similarities. The principal task in each is to reduce the risk of negative impacts from variable inflows (either hydrologic flows or cash flows), through the use of a buffer stock (either a reservoir or a reserve fund) that is filled in times of abundance and drawn down in times of scarcity (Figure 1). Other risk management tools may also be used to limit the impact of low-flow periods, but at a cost (e.g., water desalination or demand management for streamflow deficits, and borrowing or financial hedging for cash flow deficits). In both cases, the manager must make decisions under an array of uncertainties, and may need to navigate tradeoffs between conflicting objectives (e.g., flood control vs. water supply for reservoir control, risk vs. cost for financial risk management). And in both cases, as systems dynamically evolve, managers will have to adapt to new information as it becomes available. In other words, reservoir control and financial risk management can be formulated as very similar Markov Decision Processes (MDPs) (Bertsekas, 2019;Powell, 2019), whether managers attempt to solve this problem explicitly, using programmatic approaches such as stochastic dynamic programming, or implicitly, relying on expert specified rules. Additionally, reservoir control and financial risk management are strongly interdependent activities for water-reliant organizations in the Food-Energy-Water Nexus, such as hydropower producers, municipal water utilities, and irrigation districts (Cai et al., 2018;D'Odorico et al., 2018;Scanlon et al., 2017). Such organizations rely on water for the provision of services, and as a result, their revenues and/or costs can be highly dependent on hydrologic inflows (Blomfield & Plummer, 2014;Larson et al., 2012). This suggests that an understanding of complex water resource system dynamics can be used to better characterize and adaptively manage financial risks borne by water-reliant organizations.

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Index-based insurance and hydroclimatic risk management in agriculture: A systematic review of index selection and yield-index modelling methods

Abdi

Raffar

Zulkafli

et al. 2022

International Journal of Disaster Risk Reduction

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ENSO Index-Based Insurance for Agricultural Protection in Southern Peru

Cited by 9 publications

References 24 publications

Review article: Design and Evaluation of Weather Index Insurance for Multi-Hazard Resilience and Food Insecurity

Review article: Design and Evaluation of Weather Index Insurance for Multi-Hazard Resilience and Food Insecurity

From Stream Flows to Cash Flows: Leveraging Evolutionary Multi‐Objective Direct Policy Search to Manage Hydrologic Financial Risks

Index-based insurance and hydroclimatic risk management in agriculture: A systematic review of index selection and yield-index modelling methods

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