The Times Australia
The Times World News

.
The Times Real Estate

.

Research linking soot in Antarctic ice exclusively with early Māori fires was flawed – there were other sources elsewhere

  • Written by Rewi Newnham, Professor in Physical Geography, Te Herenga Waka — Victoria University of Wellington
Research linking soot in Antarctic ice exclusively with early Māori fires was flawed – there were other sources elsewhere

When a recent study[1] implicated forest fires set by early Māori in a hemisphere-wide rise in emissions, it ignited controversy[2].

The incriminating evidence comes from Antarctic ice cores containing so-called refracted black carbon – essentially far-flung soot derived from wildfires in the southern mid-latitudes.

The strongest response, coming from Māori scholars, raised concerns[3] about ignored local knowledge and cultural perspectives.

Inadvertently, these responses have diverted attention from some flaws in the fundamental science, which mean the evidence doesn’t stack up with the headline conclusion.

My research[4] scrutinises palaeo-ecological records to show that burning across southern New Zealand had already declined by the time the ice cores record the peak in black-carbon levels (from 1,600-1,700AD). Instead, this period coincides with increased burning across Patagonia, at the time of early European settlement there, and in southwest Tasmania.

Mismatched periods of burning

The original study shows the highest black-carbon levels in ice cores from the Antarctic Peninsula between 1,600AD and 1,700AD, following an earlier rise from background levels that started around 1,300AD.

The researchers used a two-step approach to finding the most likely culprit. First, they used atmospheric circulation patterns and known regions of substantial vegetation cover to narrow down the list of potential sources to sizeable landmasses south of 40° South. That leaves three suspects: Patagonia, Tasmania and southern New Zealand (essentially the South Island/Te Waipounamu).

Then, they interrogated each of the three suspects by examining records of charcoal from local lake sediments that, just like Antarctic ice, have accumulated evidence of changing environmental conditions over time.

From these interrogations, the investigation concluded the charcoal records from Patagonia and Tasmania didn’t match the Antarctic black-carbon pattern. But early Māori, they argue, have no such alibi as it is well established the initial settlement of Te Waipounamu, commencing around 1,300AD[5], was accompanied by extensive forest clearance by fire.

Read more: New research shows ancestral Māori adapted quickly in the face of rapid climate change[6]

But there’s a problem. While charcoal records from Te Waipounamu consistently show extensive early burning from around 1,300AD, the phase was very brief. The most extensive damage and maximum emissions are likely to be confined to what has been dubbed the initial burning period[7], commencing in the late 13th century and lasting only about 50 years.

By 1,600AD, when the phase of peak black-carbon levels begins in Antarctic records, the emissions from forest fires in southern New Zealand have long since declined. These and other changes in Māori land use during the brief course of New Zealand prehistory are well established in archaeological[8] and palaeo-ecological records[9].

Early Māori moved with the climate

Intriguingly, climate change was a factor for early Māori. The decline in burning following the initial burning period, around 1,400AD, coincides broadly with the Little Ice Age and with abandonment of traditional settlements in southern regions, presumably in response to less hospitable climates.

While early Māori must have contributed to the rising black-carbon levels in Antarctica from 1,300AD, they have a solid alibi for the ultimate crime: the peak levels of black carbon from 1,600AD to 1,700AD.

Which returns us to the burning question: If not Māori, then who?

Patagonia is the obvious suspect. It is just a relative stone’s throw from the Antarctic Peninsula (in comparison to New Zealand). It also has greater potential for biomass burning because of its larger, vegetated landmass, more drought-susceptible climate and larger population.

It was not by accident that Magellan named its southern tip Tierra del Fuego (Land of Fire) when first sighted in 1,520AD, at a time when black-carbon levels were rising in Antarctic Peninsula ice. Of course, Magellan was paving the way for the subsequent European colonisation of Patagonia, which introduced a new dimension for fire from 1,600AD.

With this conundrum in mind, I have conducted my own interrogation of Patagonian fire history. After helpful discussions with Patagonian scientists and historians, I have found at least eight published charcoal records that contradict the one record used in the original study.

This map of Patagonia south of 40° South provides locations of eight charcoal record sites that show increased biomass burning from 1,600 to 1,700AD.
This map of Patagonia south of 40° South provides locations of eight charcoal record sites that show increased biomass burning from 1,600 to 1,700AD. Author provided, CC BY-ND[10]

These records attest to high levels of burning across Patagonia, accompanying the early European settlement phase and coinciding with peak levels of black carbon in Antarctic ice.

This is also true for Tasmania. Again, a single record (Lake Vera) was selected in the original study to represent the regional fire history and to eliminate Tasmania as a candidate for the peak in black-carbon emissions. But a composite record from 14 sites[11] in southwest Tasmania shows higher levels from 1,600AD to 1,800AD than at any other time during the previous 600 years.

So has justice been served in this case? Or, as I would argue, is there a case for a retrial in which a wider spectrum of humanity – and not just one brief cultural phase – is implicated in the Antarctic black carbon whodunnit?

References

  1. ^ study (www.nature.com)
  2. ^ controversy (www.theguardian.com)
  3. ^ concerns (www.stuff.co.nz)
  4. ^ research (www.nature.com)
  5. ^ commencing around 1,300AD (www.pnas.org)
  6. ^ New research shows ancestral Māori adapted quickly in the face of rapid climate change (theconversation.com)
  7. ^ initial burning period (www.pnas.org)
  8. ^ archaeological (ojs.victoria.ac.nz)
  9. ^ palaeo-ecological records (journals.sagepub.com)
  10. ^ CC BY-ND (creativecommons.org)
  11. ^ composite record from 14 sites (agupubs.onlinelibrary.wiley.com)

Read more https://theconversation.com/research-linking-soot-in-antarctic-ice-exclusively-with-early-maori-fires-was-flawed-there-were-other-sources-elsewhere-194816

The Times Features

How to Style the Pantone Color of the Year 2025 - Mocha Mousse

The Pantone Color of the Year never fails to set the tone for the coming year's design, fashion, and lifestyle trends. For 2025, Pantone has unveiled “Mocha Mousse,” a rich a...

How the Aussie summer has a profound effect on 'Climate Cravings’

Weather whiplash describes the rollercoaster-like shifts in weather we’ve experienced this summer —a blazing hot day one moment, followed by an unexpectedly chilly or rainy tur...

The heart research that could save fit and healthy Australians

Australians are now one step closer to being able to check that their heart is in working condition with a simple blood test. Leading scientists at the Heart Research Institu...

Top Tips for Preventative Maintenance of Gas Hot Water Systems

Regularly maintaining gas hot water systems is crucial for households and businesses. Not only does it ensure a steady supply of hot water, but it also guarantees the system ru...

Where nature meets beauty: Bioten launches next-gen skincare line in Australia

Naturally inspired and backed by science; Bioten is fast becoming the must-have daily skincare routine in Australia. Having traversed the globe to hydrate and cleanse Aussie skin...

Christmas can be challenging for people with hearing loss. Here are 7 ways you can help

For many people, Christmas can be the most social time of the year. The holiday period is often filled with parties, lunches, dinners and celebrations of all kinds with family...

Times Magazine

Unlocking Your Business Potential with The Power of Custom Software Development Services

Businesses are constantly looking for new and inventive ways of gaining an advantage by using the latest innovations in technology. Engaging with custom software development service providers is one of the best approaches to accomplishing this. O...

Busting the myths around getting solar power

With reports that electricity prices could soar by at least 35 per cent in 2023, Australians are needing to look into alternatives when it comes to their energy sources. This has led to a rapid rise in the popularity of solar power, but there is ...

The Joy of Shopping for Fabric at Your Fingertips

Benefits of Online Fabric Shopping In today's world, the internet has changed how we shop for items. Shopping online has become a popular option for many consumers and one area that is gaining traction is online fabric shopping. There are several ...

Racer Holly Espray hits the track with Uniden for V8 SuperUte Series in Bathurst

Leading SuperUte racer Holly Espray is geared up for her next big challenge at Bathurst, and she's relying on support from her new sponsor Uniden, known for its cutting-edge technology, to keep her connected and secure, both on and off the track. ...

CRM Implementation Challenges and How to Overcome Them

Modern business moves quickly and demands satisfaction from customers. One of the best ways to achieve this is through Customer Relationship Management, or CRM for short. Implementing a CRM system can greatly benefit businesses, especially in the ret...

Enhance Software with Dynamic Code Analysis Techniques

Dynamic code analysis is a widely utilized technique that plays a crucial role in ensuring the reliability and security of software applications. This process involves the examination of an application's behaviour while it is executing, which is in c...

LayBy Shopping