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Summary

In this Briefing we apply 'downward counterfactual analysis' to Cyclone Gabrielle, considering how it could have been worse, to derive valuable insights for future disaster mitigation. The ‘worse case’ scenarios include higher storm severity (as per aspects of some previous cyclones), worse timing, hitting Auckland directly, and poorer response by the public and authorities. This type of downward counterfactual analysis should be conducted for other disasters to better inform a wider range and depth of future disaster mitigation efforts.

In February 2023, Cyclone Gabrielle did massive damage around Aotearoa New Zealand (NZ). It caused an estimated 1720 injuries,1 11 deaths,2 damaged water infrastructure,3 and the overall economic cost is estimated to up to $14.5 billion.4

In this Briefing we apply a relatively novel process to examine this disaster – involving 'downward counterfactuals'.5 This is the process of considering hypothetical scenarios in which the outcome of a disaster event is imagined to be worse than what actually occurred. It is a form of counterfactual thinking that can inform consideration of a wider range and depth of future disaster prevention and mitigation efforts – especially for less common disasters for which there may only be a small dataset of historical events. This approach has some similarities to examining 'near misses' for improving safety in such domains as aviation, nuclear power technology, petrochemical and steel production, military operations, and health care (for details see:6 7). In contrast to envisaging downward counterfactuals, it is much more common for post-hoc analysis to look at what went well with disaster response, or what went badly (and resulted in bad outcomes), but not very common to ask “what could have been worse?”.

How might Cyclone Gabrielle have been worse?

The cyclone’s peak rainfall and wind speed could have been worse: Aspects of previous cyclones have been worse than Gabrielle in terms of the highest amount of rainfall on one locality (eg, Bola), and top wind speed (eg, Giselle and Bola, see Table). Also, two of these listed cyclones had higher death tolls than Gabrielle: both Giselle and the 1936 cyclone. Indeed, Giselle killed 59 people, mainly due to sinking of the inter-island ferry MS Wahine. So if Gabrielle had coincided with one of the recent inter-island ferry breakdowns at sea (including one involving a mayday call)8 – there could have been far more injuries and deaths.

Table: Major cyclones impacting NZ in the past 100 years

 

Name of cyclone & main data source

 

Year

 

Deaths

 

Maximal rainfall in one locality (mm)

Top wind speed recorded (km/h)

Lowest pressure in hectopascals (hPa)

Gabrielle 9

 

2023

 

11 2

 

540 (Glengarry, Hawke's Bay)

146 (Cape Turnagain, Wairarapa, also at Mt Kaukau, Wellington)

967 (at Great Mercury Island)

Bola 10

 

1988

 

7

 

917 (for Glenross Station, Gisborne in 4 days; Tolaga Bay had 916 mm in 3 days)

180 (Oakura, Taranaki)

980

Giselle 11

 

1968

 

59*

 

355 (Otago over 4 days)

275 (Cook Strait). Roofs were ripped off 98 houses.

970

Cyclone in February 1936 12 (unnamed)

 

1936

 

12 13

 

406 (Dawson Falls, Taranaki)

145 (Henderson, Auckland)

974 (Auckland)

*There were 53 deaths associated with the Wahine sinking (including 2 delayed deaths) and another 6 deaths around the country from the storm.14

The path of the cyclone could have been worse: The damage from Gabrielle could have been much worse if Auckland had been hit directly. Indeed, the cyclone was heading towards the Auckland Region but undertook a sharp deviation out to sea near Great Barrier Island (see Figure).

Map showing the track of cyclone Gabrielle across New Zealand

Figure: How Cyclone Gabrielle deviated away from Auckland (MetService image used with permission).

The timing could have been worse: The timing could have been worse if Gabrielle had arrived closer in time to the preceding Cyclone Hale – meaning that the ground could have already been even more water saturated in impacted areas. It also could have occurred at a peak summer holiday time – causing more disruption to road transport and potentially causing more loss of life (eg, if campgrounds were suddenly flooded).

The response by the public could have been worse: The public response to Gabrielle appeared very good with people rescuing neighbours, helping with clean-up efforts, and local marae providing food and accommodation for evacuees etc. These favourable public responses could have been less functional if dis/misinformation had been more widely circulated. Indeed, some Auckland-based radio hosts “played down the danger it posed and complained about a day of school closures”.15 Also, if social capital in NZ was generally more eroded with lower overall trust in the news and in government agencies, then public responses such as helping others and working with authorities, could also have been less forthcoming.

The response by the authorities could have been worse: Some of the emergency authorities in the hardest hit regions of the country responded well to Gabrielle (at least in the view of one emergency management expert: Jon Mitchell16). But these authorities may have acted less effectively – as per the Auckland authorities in response to the Auckland floods in January, as assessed in an independent review.17 Also, had more defence staff been needed to assist, then the response could have been poorer. As it was, the NZ Defence Force have said that their response to this cyclone was constrained by their recent reductions in workforce – including the capacity to operate various naval vessels.18

Discussion of these downward counterfactuals

It seems clear from the above list that the impact of Gabrielle could have been worse for NZ in a number of different ways. Combined with climate change making such weather events more extreme,19 (including Cyclone Gabrielle specifically involving more rainfall), these issues highlight the need for greater investments in reducing the number of people living in flood-prone areas. It also suggests the need for both central and local government to invest in improving disaster resiliency.

There is also a case for NZ authorities to repeat this “downward counterfactual” exercise for Gabrielle using a wider range of disaster experts and for a wide range of disaster events. For example, the latter could cover how the Covid pandemic could have been worse (eg, no vaccine developed) or how the supply chain impact of the war in Ukraine could have been worse for NZ (eg, if Russia had destroyed all Ukraine’s ports).

What is new in this Briefing

  • We outline five plausible scenarios in which the impact from Cyclone Gabrielle could have been worse for Aotearoa NZ – a “downward counterfactual” analysis.

Implications for public health policy

  • This type of analysis could be repeated for Cyclone Gabrielle by a wider range of disaster experts.
  • It could also be conducted for a range of other disasters – including the impact of the Covid-19 pandemic.
  • In general, there is a need for central and local government to reduce the numbers of people living in flood-prone areas and to upgrade resiliency, especially in the most vulnerable areas. Such adaptations should go hand-in-hand with enhanced climate change mitigation.

Author details: Prof Nick Wilson and Dr John Kerr, are with the Department of Public Health, University of Otago, Wellington, and Public Health Communication Centre. Dr Ben Payne is with the Joint Centre for Disaster Research, Massey University, Wellington. Dr Matt Boyd is with Adapt Research Ltd.

Public Health Expert Briefing (ISSN 2816-1203)

References

  1. Quinn R. There are more than 3000 injury claims from this year's severe storms, according to the latest figures from ACC. RNZ 2023;(9 April). https://www.rnz.co.nz/news/national/487589/more-than-3000-injury-claims-from-this-year-s-storms-acc-data
  2. Kerr J, Thomson G, Wilson N. Cyclone Gabrielle joins list of Aotearoa NZ’s ‘sudden mass fatality events’. Public Health Expert Briefing 2023;(28 March). https://www.phcc.org.nz/briefing/cyclone-gabrielle-joins-list-aotearoa-nzs-sudden-mass-fatality-events
  3. Wilson N, Chambers T, Prickett M, et al. Water infrastructure failures from Cyclone Gabrielle show low resilience to climate change. Public Health Expert Briefing 2023;(25 May). https://www.phcc.org.nz/briefing/water-infrastructure-failures-cyclone-gabrielle-show-low-resilience-climate-change.
  4. Coughlan T. Budget 2023: Chris Hipkins torpedoes capital gain tax, Cyclone Gabrielle response levy. NZ Herald 2023;(27 April). https://www.nzherald.co.nz/nz/politics/watch-live-chris-hipkins-torpedoes-tax-speculation/PPPYNGLUFRBORLILDEJC22LWQA/.
  5. Woo G. Downward counterfactual search for extreme events. Frontiers in Earth Science 2019;7:340.
  6. Barach P, Small SD. Reporting and preventing medical mishaps: lessons from non-medical near miss reporting systems. BMJ 2000;320(7237):759-63.
  7. Madsen P, Dillon RL, Tinsley CH. Airline safety improvement through experience with near‐misses: A cautionary tale. Risk Analysis 2016;36(5):1054-66.
  8. Kitchin T. Chaos on the Cook Strait. Radio NZ 2023;(21 April). https://www.rnz.co.nz/programmes/the-detail/story/2018886886/chaos-on-the-cook-strait.
  9. Murray L. Tropical Cyclone Gabrielle – Event summary February 2023. MetService Blog 2023;(1 May). https://blog.metservice.com/TropicalCycloneGabrielleSummary.
  10. NIWA. NZ Historic Weather Events Catalogue: March 1988 North Island Ex-tropical Cyclone Bola (1988-03-06). https://hwe.niwa.co.nz/event/March_1988_North_Island_Ex-tropical_Cyclone_Bola
  11. NIWA. NZ Historic Weather Events Catalogue: April 1968 New Zealand Ex-tropical Cyclone Giselle (1968-04-09). https://hwe.niwa.co.nz/event/April_1968_New_Zealand_Ex-tropical_Cyclone_Giselle.
  12. NIWA. NZ Historic Weather Events Catalogue: February 1936 North Island Ex-tropical Cyclone (1936-02-01). https://hwe.niwa.co.nz/event/February_1936_North_Island_Ex-tropical_Cyclone.
  13. Wilson N, Morales A, Guy N, et al. Marked decline of sudden mass fatality events in New Zealand 1900 to 2015: the basic epidemiology. Australian and New Zealand Journal of Public Health 2017;41(3):275-79.
  14. Wilson N, Thomson G. Mass shooting in Christchurch and the epidemiology of sudden mass fatality events in New Zealand. N Z Med J 2019;132(1494):68-70.
  15. Donnell H. Radio hosts fixate on schools closing as Gabrielle closes in. Radio NZ 2023;(19 February). https://www.rnz.co.nz/national/programmes/mediawatch/audio/2018878253/radio-hosts-fixate-on-schools-closing-as-gabrielle-closes-in.
  16. Brettkelly S. How we plan for New Zealand's next big disaster. Radio NZ 2023;(20 April). https://www.rnz.co.nz/programmes/the-detail/story/2018886701/how-we-plan-for-new-zealand-s-next-big-disaster.
  17. Bush International Consulting. Auckland Flood Response Review. March 2023. https://ourauckland.aucklandcouncil.govt.nz/media/je3potln/auckland-flood-response-review_january-27-29-2023.pdf.
  18. Cook C. NZ Defence Force ongoing staff shortage affected Cyclone Gabrielle response. Radio NZ 2023;(3 April). https://www.rnz.co.nz/national/programmes/morningreport/audio/2018884377/nz-defence-force-ongoing-staff-shortage-affected-cyclone-gabrielle-response.
  19. IPCC. Synthesis Report Of The IPCC Sixth Assessment Report (AR6) -  Summary for Policymakers. Geneva, Switzerland: Intergovernmental Panel on Climate Change, 2023.

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Public Health Expert Briefing (ISSN 2816-1203)