Study links Australia’s wild horses to carbon loss from peatlands

A researcher observes feral horses in Kosciuszko National Park, New South Wales.
A researcher observes feral horses in Kosciuszko National Park, New South Wales. Photo: Dr Sarah Treby, RMIT University

Carbon emissions from Australian alpine peatlands have been found to be much higher in areas disturbed by wild horses.

Peatlands in the Australian Alps are a type of mossy wetland characterised by carbon-rich peat soil, formed from plants that have partially decomposed in wet, swampy conditions.

These ecosystems are effective at capturing carbon in the live moss layer and then storing it in the soils below, sometimes for thousands of years.

While peatlands only cover up to 3 percent of the Earth’s land surface, they store an estimated 30 per cent of the world’s soil carbon — twice the amount of carbon stored in every forest on the planet.

Postdoctoral researcher Dr Sarah Treby, with the Royal Melbourne Institute of Technology (RMIT), said the protection of these environments is important in addressing global climate change.

“Peatlands are globally significant in capturing and holding carbon. But when they are disturbed, they can release carbon back to the atmosphere as greenhouse gases,” Treby said.

A just-published study by Treby and Dr Samantha Grover, both with the institute’s Department of Applied Chemistry and Environmental Science, is the first to explore how degradation caused by wild horses impacts carbon cycling in Australian alpine and subalpine sphagnum moss peatlands.

Their research, reported in the Journal of Environmental Management, centered on Kosciuszko National Park in New South Wales.

Their preliminary study measured peatland carbon dioxide emissions using a portable greenhouse gas analyser and transparent chambers.

It presents the first multi-site comparison of carbon dioxide and methane fluxes from Australian alpine and subalpine sphagnum moss peatlands, contributing an important initial step towards understanding carbon cycling in these ecosystems.

The study looked at a total of 12 alpine and subalpine sphagnum moss-dominated bogs (peatlands) in the national park, which were sampled over seven days in March 2022 – seven sites with feral horses present and five without.

They found they were significantly higher at sites degraded by feral horses compared to sites where horses are not present.

“Previous research has shown feral horses contribute to biodiversity loss and environmental degradation,” Treby said. “Our study shows differences in overall site condition, as well as soil and water quality, between areas with and without feral horses.

Sphagnum moss peatlands. Photo: Dr Sarah Treby, RMIT University
Sphagnum moss peatlands. Photo: Dr Sarah Treby, RMIT University

“We found equal evidence of other large feral herbivores between the horse-present/horse-absent sites, so we know that differences in carbon emissions and site condition cannot be attributed to deer or pigs.

“The evidence suggests the damage resulting from horse grazing and trampling could have negative consequences for the long-term carbon storage of affected peatlands.”

Horses were introduced to Australia in 1788 with the arrival of the first Europeans. Now, Australia has around 400,000 wild horses, according to the Invasive Species Council – more than any other country. More than 18,000 of those are in Kosciuszko National Park.

Grover, a soil scientist, said wild horses are a destructive pest in Australia’s uniquely vulnerable ecosystems.

“Horses and other large grazing animals, like sheep and cows, are not native to Australia. Our native wildlife have large, soft feet, and our plants and soils are easily damaged by hard hooves,” Grover said.

“Hard-hooved animals damage soils by trampling and compaction, which can lead to erosion, reduced infiltration of water and loss of high-carbon, high-fertility topsoil.”

Data collected from sites with and without feral horses showed lowered water and soil quality where feral horses were present.

The research suggests that horses also cause significant loss of soil carbon through waterways, known as fluvial carbon loss. Hard horse hooves trample and erode soils, which can end up in creeks and rivers, instead of in the peatland. This carbon can then be transported downstream and, ultimately, released as carbon dioxide.

Peatlands, in their natural condition, are among the most effective natural carbon-capturing and storing ecosystems in the world, far outperforming rainforests. Degraded peatlands, such as those trampled by horses, can instead be carbon sources, releasing more carbon back into the atmosphere than they capture.

Alpine and subalpine sphagnum peatlands are endangered in Australia and listed under the Environment Protection and Biodiversity Conservation Act 1999, due to their restricted geographic distribution, biodiversity declines, and challenges in their restoration and regeneration.

Pest population management is routinely carried out in Australia for large hooved animals, including deer, pigs, goats, camels and water buffalo.

Likewise, wild horse population management has been undertaken in many places around the country. However, in some areas – particularly the Australian Alps – control methods that include culling have been controversial and subject to political debate, constraining management programs.

Only recently it was announced that aerial culling will be permitted at Kosciuszko National Park, to reduce the population size from over 18,000 horses down to 3000 by 2027. The Kosciuszko National Park Wild Horse Heritage Management Plan cites biodiversity loss and extinction risk for multiple native species as reasons for the cull.

While the study and policy change have both focused on the Kosciuszko National Park, there are sphagnum moss peatlands – and feral herbivores – across the Australian Alps and Tasmania.

“Our research on these peatlands in the Victorian Alps has shown that, in good condition, they can be strong carbon sinks, removing carbon dioxide from the atmosphere every year,” Grover said.

“Australia’s alpine peatlands also provide critical habitat and resources for rare and unique species – including iconic alpine frogs, such as the Corroboree and Baw Baw frogs, lizards, small native mammals and invertebrates – as well as water for hydroelectricity, drinking and irrigation.

“While many of Australia’s alpine peatlands have been damaged, they have strong potential to recover when protected from hard-hooved animals and, ideally, rehydrated.

“Restoring peatlands is both climate smart and nature positive so all Australians benefit when we support our National Parks staff to protect peatlands.”

The researchers are now seeking to expand the study across the Australian Alps and over a longer time period, to provide a more detailed understanding of the impact of feral herbivores on peatland carbon cycling across Australia.

They are also interested in exploring the restoration of Australian alpine and subalpine peatlands across Australia to help reduce global warming.

The pair’s research was supported by an Applied Park Management Research Scholarship through Parks Victoria’s Research Partners Program.

Carbon emissions from Australian Sphagnum peatlands increase with feral horse (Equus caballus) presence. Sarah Treby, Samantha P. Grover,
Journal of Environmental Management, Volume 347, 2023, 119034, ISSN 0301-4797,

The study, published under a Creative Commons License, can be read here

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One thought on “Study links Australia’s wild horses to carbon loss from peatlands

  • November 11, 2023 at 10:36 am

    I question whether this study could be a “brumby-targeting study” whose conclusion is to a large degree predetermined. I question whether a full and adequate set of major factors were given adequate consideration and examination. These would include the positive effect of horses in building thicker, humus-rich soils as compared with other herbivores, because their droppings are not as digested as with rumen-fermenting herbivores, for example. Also, this would include the positive contribution of the horses in dispersing intact seeds from a variety of plants including native, and aiding in their germination. The study also seems to overlook the ever innovative, evolutionary adaptive process of species to establish a well-functioning ecosystem that suits current conditions. This study seems too much like a horse-targeting one and should be given a critical examination by objective scientists as well as the general public and those who live in and around the brumbies and their habitats and have lifetimes of experience and observation to analyze and share.


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