Insuring crops from space

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Extreme weather poses increasing challenges to the agricultural sector. New insurance models based on satellite data may reduce the risk of drought for farmers, writes Robert Finger.

Climate change is increasing drought risk to many areas. Droughts already cause massive yield losses on a regular basis, and coping with this risk is becoming increasingly important to farmers. In addition to the use of irrigation systems and drought-tolerant crops, crop insurance could potentially play a major role. The global agricultural insurance market is growing rapidly, but few options focus on drought.

One promising approach to better drought insurance models that is yet to receive due attention involves the use of satellite data. The quantity and quality is increasing steadily, and well-validated, high-resolution data products are often freely available. This allows drought events globally to be monitored efficiently and in near real-time.

Objective, pragmatic and efficient

In a perspective piece in Nature Food , we examined the potential of satellites for drought risk crop insurance.1 Satellite-based measurements open up new possibilities, in particular for index insurance. In this alternative to traditional insurance models, the payment is based on an objective index rather than the actual damage to the crops. If a parameter that is being monitored (e.g. by satellite), such as soil moisture, falls below a critical level, the payout is made automatically.

This mechanism is especially suitable for drought, as this usually affects large areas: it ensures that farmers receive compensation quickly and unbureaucratically, even if crops fail at the same time throughout an entire region.

In addition, cultivation that was previously uninsurable, such as grassland and pasture, can be insured using satellites. The risk of drought here is high, but traditional loss adjustment methods are simply too expensive to apply to them.3 Spain and France, for example, already offer the first satellite-based insurance policies for grassland. This is highly relevant also to Switzerland, where grassland makes up more than 70 percent of all agricultural land.

Measuring plant growth from afar

Satellites can serve as a basis for insurance in a number of ways; they can determine vegetation indices, which can be correlated with crop losses in the event of drought, and soil moisture and evaporation from plants and the land surface (evapotranspiration) can also be measured efficiently. These variables are useful indicators of drought and resulting yield losses, which makes them suitable for drought insurance. However, they are not yet used in practice.

This form of insurance not only covers loss of production, but also might cover possible additional costs, such as from more intensive irrigation. If the payout is based on a regional drought index rather than actual yields, farmers will have an incentive to continue irrigating and producing, despite nearly complete insurance protection.2

Blind to certain damage

Of course, these new opportunities also come with potential problems. Satellites do not reliably capture every single instance of damage in a field; consequently, an insurance may not cover all loss of income. In the worst case, insured farmers would be at a disadvantage to those without insurance; they would pay the insurance premium, but still incur the damage. However, a combination of good databases and well-designed insurance schemes could help reducing such problems.

150 Years Agricultural
Sciences at ETH Zurich

ETH Zurich’s Division of Agriculture was founded in 1871. The Institute of Agricultural Sciences celebrates the anniversary with various events throughout the jubilee year.

On the anniversary website you can further find a timeline with historical facts and selected stories from the past 150 years.

Satellitenbasierte Beobachtungsdaten bergen ein beachtliches Potenzial, um Dürrerisiken effektiv zu senken. Behörden können solche Versicherungen ermöglichen, in dem sie allen Akteuren einen besseren Zugang zu relevanten Datenquellen gewähren. Ein verbesserter Zugang zu Satellitendaten und neue Versicherungsformen gehen zudem Hand in Hand mit der steigenden Relevanz von ’Smart Farming’4 für die Landwirtschaft.

Robert Finger hat diesen Beitrag gemeinsam mit Dr. Willemijn Vroege verfasst.

Referenzen

1 Vroege, W., Vrieling, A., Finger, R. (2021a). Satellite support to insure farmers against extreme droughts. Nature Food 2, 215-217. DOI: 10.1038/s43016-021-00244-6

2 Vroege. W., Bucheli, J., Dalhaus, T., Hirschi, M., Finger, R. (2021b). Insuring crops from space: The potential of satellite retrieved soil moisture to reduce farmers’ drought risk exposure. European Review of Agricultural Economics. In Press. DOI: 10.1093/erae/jbab010

3 Vroege, W., Dalhaus, T., Finger, R. (2019). Index insurances for grasslands - A review for Europe and North-America. Agricultural Systems 168, 101-111. DOI: 10.1016/j.agsy.2018.10.009

4 Walter, A., Finger, R., Huber, R., Buchmann, N. (2017). Smart farming is key to developing sustainable agriculture. Proceedings of the National Academy of Sciences USA 114 (24) 6148-6150 DOI: 10.1073/pnas.1707462114

Prof. Robert Finger

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