If you’ve been following the news related to COVID-19, you will have heard the mantra “testing, testing, testing”. The understanding is, if we don’t know how the virus is spreading, how can we possibly contain or manage it?

When you think about it, the same logic applies to climate change – how can we possibly respond to its impacts, when we don’t know what is happening?

Of course, we (the global community) have known empirically for decades that the planet is warming and that this warming is having a host of consequences, from more frequent extreme weather events to rising sea levels to warming and acidifying oceans. The science is clear and compelling.

We have also been aware for years that atoll islands are very low and threatened by sea level rise. But in this case, our understanding has been much less precise.

In fact, it might surprise you to know that until now, detailed and accurate measurement of land height has been not existed for the majority of atoll islands in the Pacific region.

 

Climate crisis in the Pacific

In the Pacific, we know with high confidence that sea level rise is climbing at a rate of centimetres over decades.

The outlook is very serious for low-lying atoll countries as the sea increasingly erodes shorelines, contaminates fresh water sources, and harms critical subsistence food crops such as coconuts, breadfruit trees, banana and taro.

Building resilience is an urgent priority for countries like Tuvalu, where most land, communities and infrastructure are located near the shore and on land barely above sea level.

 

Tapping state-of-the-art technology in Tuvalu

Launched in 2017, with backing from the global Green Climate Fund and in partnership with the United Nations Development Programme, the Tuvalu Coastal Adaptation Project aims to reduce exposure to coastal hazards and to develop a long-term coastal adaptation strategy for the country.

One of the first and most fundamental tasks of the project has been to secure baseline data to elucidate the relationship between land elevation and sea level, to model future scenarios, and to inform design of coastal infrastructure, as well as development planning.

To gather the data, the project last year turned to airborne LIDAR, or Light Detection and Ranging – state-of-the-art airplane-mounted technology which can rapidly collect precise information on land surface height and sea floor depth.

The survey plane also captures aerial photographs of unprecedented accuracy and clarity, and when combined with the LIDAR data provide a very powerful 3-dimensional tool for use in hazards management.

These products are fundamental to the understanding of marine hazards and are also used to analyse coastal processes, sea level rise, storm wave inundation, sediment movement, and to identify low-lying flood zones.  (It also has a range of development uses too such as resource management, conservation, safe navigation, adaptation and development planning.)

 

A revolution in our understanding

From one survey completed under the project, we now have 100 percent coverage of all of Tuvalu’s nine atoll systems and all of the islands and surrounding reefs and lagoons – around 500 square kilometres in total. Pretty impressive.

An individual home can now easily be identified and its location in relation to the shore and to sea level instantly measured.It is indeed a historic advance in our understanding, with implications for Tuvalu’s future but also for our understanding more broadly about coastal vulnerability and development priorities in atoll countries around the world.

Analysis of the data is progressing, but in just one example, we now know that during highest measured sea levels, 46 percent of the central built area of Fogafale is essentially below sea level – a fact which directly substantiates Tuvalu’s reports of ever-increasing flooding due to sea level rise in their capital.

The data is already being put to numerous uses.

  • The project has used the data to directly brief outer island Kaupule (councils) about safer flood-free zones for building.
  • The Government has integrated the data into its national recovery and vulnerability reduction plan for Tropical Cyclone Tino (which by official estimates severely affected more than half the population last January and led to a State of Emergency).
  • The data will be incorporated into navigation charts, crucial for safe ship operations and trade (presently there are no updated charts for Tuvalu since the mid 1980s).
  • The Department of Lands and Survey is using the data as its baseline for planning and has also incorporated it into its maritime boundaries work.
  • The UNDP-supported Ridge2Reef project is drawing on the data to support reef conservation work.
  • A World Bank-backed project improving the climate resilience of Nanumaga’s harbour and Funafuti’s port is looking at using the data in their risk modelling around the impacts of storm surges.

Most importantly, the Government of Tuvalu is now basing their long-term adaptation strategy, including bold land reclamation plans, on the data collected.

“The LIDAR data collected by the Tuvalu Coastal Adaptation Project has provided the Department of Lands with the best possible coverage for development planning. In fact, the data is valuable across government departments, providing a tool for adaptation, development, resource management and environmental monitoring needs linked to climate change. Further, it has given us baseline information for each of Tuvalu’s island — enabling us to compare with the past and to model the future.” – Mr. Faatasi Malologa, Director of Tuvalu’s Department of Lands and Survey

The products we get from the LIDAR survey are truly a game changer, informing all aspects of development, including infrastructure planning and adaptation.

 

In the fight against climate change, data is an incredibly empowering tool

Like COVID-19, without testing or measuring, the impacts of climate change are hard to grasp.

By testing and measuring, we quantify and bring the problems into sharp focus. Most importantly, it means we can better understand timelines and solutions, and therefore can respond more effectively.

With the new LIDAR data, there is state-of-the art science showing the tenuous nature of these islands under accelerating sea level rise and climate change – and the necessity of re-doubling adaptation support.

Following their success, other Pacific countries are now looking to Tuvalu.

 

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