November 22, 2021
Invasive species are threatening Antarctica’s fragile ecosystems as human activity grows and the world warms
The simplicity of Antarctica’s food webs means there are gaps in the ecosystem that other species from around the world can fill
We tend to think Antarctica is isolated and far away 鈥 biologically speaking, this is true. But the continent is busier than you probably imagine, with many national programs and tourist operators crisscrossing the globe to get there.
And each vessel, each cargo item, and each person could be harbouring non-native species, hitchhiking their way south. This threat to Antarctica鈥檚 fragile ecosystem is what , released today, grapples with.
We mapped the last five years of planes and ships visiting the continent, illuminating for the first time the extent of travel across the hemispheres and the potential source locations for non-native species, as the map below shows. We found that, luckily, while some have breached Antarctica, they generally have yet to get a stranglehold, leaving the continent still relatively pristine.
But Antarctica is getting busier, with new research stations, and activities planned. Our challenge is to keep it pristine under this growing human activity and climate change threat.
Life evolved in isolation
Biodiversity-wise, much of the planet is mixed up. The scientific term is homogenisation, where species, such as weeds, pests and diseases, from one place are transported elsewhere and establish. This means they begin to reproduce and influence the ecosystem, often to the detriment of the locals.
Most life in Antarctica is jammed onto tiny coastal ice-free fringes, and this is , ships and people are.
This includes unique animals (think Ad茅lie penguins, Weddell seals and snow petrels), mosses and lichens that harbour tiny invertebrates (such as mites, waterbears and springtails), and an array of microbes such as cyanobacteria. The and ocean team with life, too.
The more we learn about them, the more outstanding life at the end of the planetary spectrum becomes. Just this week, new scientific discoveries identified , and make their own water using hydrogen as fuel.
When the Southern Ocean was formed some 30 million years ago, natural barriers were created with the rest of the world. This includes the , the strongest ocean current on the planet, and its associated strong westerly surface winds, icy air and ocean temperatures.
This means life in Antarctica evolved in isolation, with flora and fauna that commonly exist nowhere else and can cope with frigid conditions. But the simplicity of Antarctica鈥檚 food webs can often mean there are gaps in the ecosystem that other species from around the world can fill.
In May 2014, for example, routine biosecurity surveillance (tiny insect-like invertebrates) in a hydroponic facility at an Australian Antarctic station.
This station, an ice-free oasis, previously lacked these interlopers, and they had the potential to alter the local fragile ecosystem permanently. Thankfully, a rapid and effective response successfully eradicated them.
Pressures from climate change are exacerbating the challenges of human activity on Antarctica, as climate change is bringing milder conditions to these wildlife-rich areas, both on land and sea.
As glaciers melt, new areas are exposed, which allows non-Antarctic species and possibly outcompete locals for resources, such as nutrients and precious, ice-free space.
So far, we鈥檝e been lucky
Our past research focused on non-native propagules 鈥 things that propagate like microbes, viruses, seeds, spores, insects and pregnant rats 鈥 and how they entrain themselves into Antarctica.
They can be easily caught on people鈥檚 clothing and equipment, in fresh food, cargo and machinery. In fact, research from the last decade found that visitors who hadn鈥檛 cleaned their clothing and equipment carried on average .
But few non-native species have established in Antarctica, despite their best efforts.
To date, only 11 non-native invertebrate species 鈥 including springtails, mites, a midge and an earthworm 鈥 have established across a range of locations in the warmer parts of Antarctica, including Signy Island and the Antarctic Peninsula. In the marine realm, some non-native species have been seen but it鈥檚 thought none have survived and established.
Microbes are another matter. to Antarctica carries millions of microbial passengers, and many of these microbes are left behind. Around most research stations, human gut microbes from sewage have mingled with native microbes, including exchanging antibiotic resistance genes.
Last year, for example, a rare harmful bacteria, pathogenic to both humans and birds, was detected in guano (poo) from both Ad茅lie and gentoo penguin colonies at sites with high rates of human visitors. COVID-19 also made its way to Antarctica last December.
Both these cases risk so-called 鈥渞everse zoonosis鈥, where humans spread disease to local wildlife.
What do we do about it?
Three factors have helped maintain Antarctica鈥檚 near-pristine status: the physical isolation, cold conditions and co-operation between nations through the Antarctic Treaty. The Treaty is underpinned by the Environmental Protocol, which aims to prevent and respond to threats and pressures to the continent.
There is unanimous commitment from Antarctic Treaty nations towards preventing the establishment of non-native species. This includes adopting a science-based, , which provides guidance on how to prevent, monitor, and respond to introductions of non-native species.
But time is of the essence. We must better prepare for the inevitable arrival of more non-native species to prevent them from establishing, as we continue to break the barriers protecting Antarctica. One approach is to tailor the newly developed : Awareness of values, Anticipation of the pressures, Action to stem the pressures.
This means ramping up monitoring, taking note of predictions of what and establish under new conditions, and putting in place pre-determined response plans to act quickly when they do.
, Principal Research Scientist, and , Adjunct Researcher,
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