Modern Australian
The Times

Floating robots reveal just how much airborne dust fertilises the Southern Ocean – a key climate ‘shock absorber’

  • Written by Jakob Weis, Postdoctoral research associate, University of Tasmania
Floating robots reveal just how much airborne dust fertilises the Southern Ocean – a key climate ‘shock absorber’

The Southern Ocean, a region critical to Earth’s climate, hosts vast blooms of microscopic ocean plants known as phytoplankton. They form the very basis of the Antarctic food web.

Using a fleet of robotic floats, our study published in Nature today reveals that windblown dust delivers enough iron to support a third of the Southern Ocean’s phytoplankton growth. Knowing this will help us understand how global warming will affect key climate processes phytoplankton are involved in.

The Southern Ocean acts as a climate “shock absorber”. Its cold waters and vast area capture up to 40% of human-generated carbon dioxide (CO₂) absorbed by the planet’s oceans each year.

Human-generated CO₂ mainly enters the ocean as it dissolves at the surface. However, biological processes that transfer vast quantities of CO₂ from the surface to the deep ocean play a critical role in the ocean’s natural carbon cycle.

Even slight changes to these processes in the Southern Ocean could weaken or strengthen the climate shock absorber. This is where phytoplankton play a key role.

A satellite image of a landmass with ocean next to it with swirls of turquoise and green.
A massive phytoplankton bloom off of the Atlantic coast of Patagonia, Argentina, in 2010. NASA's Earth Observatory/Norman Kuring, Ocean Color Web

Phytoplankton: tiny but mighty

Like plants on land, phytoplankton convert CO₂ into biomass through photosynthesis. When phytoplankton die, they sink into the deep ocean. This effectively locks away the carbon for decades, or even hundreds of years. This is known as the biological carbon pump, and it helps to regulate Earth’s climate.

Phytoplankton need nutrients and light to flourish. Nitrogen, in the form of nitrate, is one of these essential nutrients and is plentiful in the Southern Ocean. During the bloom period in spring and summer, phytoplankton consume nitrate.

This offers scientists a unique opportunity – by measuring how much nitrate disappears seasonally, they can calculate the growth of phytoplankton and the carbon sequestered in their biomass.

But there’s a twist. Iron, another essential nutrient, is in short supply in the Southern Ocean. This shortage stunts phytoplankton growth, lowering the efficiency of the biological carbon pump.

Read more: Oceans absorb 30% of our emissions, driven by a huge carbon pump. Tiny marine animals are key to working out its climate impacts

Dust boosts life in the Southern Ocean

Iron is commonly found in soil. Winds carry iron-rich dust from the continents to the oceans. This supply of dust-derived iron can trigger phytoplankton blooms, greening stretches of the ocean and strengthening the carbon pump.

Historically, to study the effects of iron fertilisation on phytoplankton – whether the iron came from dust, other natural sources, or was deliberately added – scientists had to embark on expensive research voyages to the remote Southern Ocean.

However, insights from such experiments were restricted to small regions and short periods during certain seasons. Little was known about the impact of dust on phytoplankton all year round across the whole of the Southern Ocean.

To address this gap, we turned to robots.

People in red safety vests handle a large machine while standing on the deck of a ship. Researchers deploy a robotic float off the CSIRO research vessel (RV) Investigator. Jakob Weis

Ocean robots follow the trail of dust

Over the past decade, research organisations have deployed a fleet of robotic ocean floats worldwide. These robots tirelessly track ocean properties, including the nitrate concentration.

Strong westerly winds carry dust from the deserts of Australia, Patagonia and southern Africa across the Southern Ocean. The dust deposition shown here was calculated by computer models. Adapted from Weis et al. (2024)

In our study, we analysed nitrate measurements at 13,600 locations in the Southern Ocean. We calculated phytoplankton growth from nitrate disappearance and combined these growth estimates with computer models of dust deposition.

With this new approach, we uncovered a direct link between the supply of dust-derived iron and phytoplankton growth. Importantly, we also found the dust doesn’t just coincide with phytoplankton growth – it actually fuels it by supplying iron.

We used this relationship to build productivity maps of the Southern Ocean — past, present or future. These maps suggest that dust supports roughly a third of the phytoplankton growth in the Southern Ocean today.

During ice ages, a combination of drier conditions, lower sea levels and stronger winds meant dust deposition on the Southern Ocean was up to 40 times greater than today.

When we apply dust simulations of the last ice age to our newfound relationship, we estimate that phytoplankton growth was two times higher during these dustier times than it is today.

So, by fuelling phytoplankton growth, dust likely played an important role in keeping atmospheric CO₂ concentrations low during ice ages.

Why does it matter?

Global warming and land use changes could rapidly change dust delivery to the ocean in the future.

These shifts would have important consequences for ocean ecosystems and fisheries, and our research provides the tools to help forecast these changes.

To keep global warming below 1.5˚C, it is imperative that we find safe and effective methods for actively removing CO₂ from the atmosphere. One proposed and controversial strategy involves fertilising the Southern Ocean with iron, mimicking the natural processes that decreased CO₂ during ice ages.

Our results suggest such a strategy could boost productivity in the least dusty parts of the Southern Ocean, but uncertainties remain around the ecological consequences of this intervention and its long term effectiveness in capturing carbon.

By studying how nature has done this in the past, we can learn more about the possible outcomes and practicality of fertilising the ocean to mitigate climate change.

Read more: Geoengineering the ocean to fight climate change raises serious environmental justice questions

Authors: Jakob Weis, Postdoctoral research associate, University of Tasmania

Read more https://theconversation.com/floating-robots-reveal-just-how-much-airborne-dust-fertilises-the-southern-ocean-a-key-climate-shock-absorber-225793

Why Regular Skills Updates Are Essential for Licensed Security Officers

A guard at a Brisbane shopping centre gets a call about a shoplifter who's turned aggressive.  They’ve done the job for six years. But their de-...

10 Benefits of Choosing Professional Tutoring Penrith Services

Every student has unique learning strengths, challenges, and academic goals. While classroom teaching provides essential knowledge and structure, so...

Sunshine Coast Baby Classes Prove Big Hit Among First-Time Mums

There's a movement gaining traction on the Sunshine Coast, providing a village of support, socialisation and relief for first-time mothers and babie...

Father's Day Gift Ideas for Men Who Are Hard to Buy For

Some dads are easy to buy for. Others do not want anything, already have everything, or give you the classic "don't worry about me" answer every yea...

Top 5 Mistakes That Wear Out Your Brakes Faster

Brakes don't need frequent replacements like oil changes do.   But a lot of the wear happens quietly, over months, because of habits most drivers...

Plantation Shutters vs Curtains: Which Is Better for Your New Home?

Moving into a new home is an exciting opportunity to personalise your space and make it your own. While many homeowners focus on furniture, flooring...

Celebration of Life vs Traditional Funeral: What's the Difference?

When saying goodbye to someone you love, there is no single way to honour their life. Every family has different traditions, beliefs, and preference...

Building Approval for Roofing Projects: What Homeowners Need to Know

Roofing projects are an important part of maintaining and protecting your home. Whether you're repairing storm damage, replacing an ageing roof, or ...

Chatswood Tutoring And Its Role In Academic Achievement

Academic success often requires more than classroom attendance alone. Students face increasing expectations as they progress through school, particu...

Why Laser Hair Removal Treatments Continue Growing In Popularity

Managing unwanted hair can become time-consuming and frustrating for many people, especially when shaving, waxing, and other temporary methods requi...

Choosing the Right Devices for a Flexible Workplace

For IT leaders managing large fleets, the device layer is where workforce productivity and security policy meet. The shift towards flexible and hybrid...

How Business Advisory Services Help Companies Achieve Sustainable Growth

Every business owner aims to build a profitable and sustainable organisation. While dedication, innovation, and hard work are important, achieving l...

Why Body Contouring Has Become A Popular Cosmetic Treatment

Many people maintain healthy lifestyles through regular exercise and balanced eating habits but still struggle with stubborn areas of fat that are d...

How to Choose the Right POS Hardware for Your Business in Australia

A lot of Australian business owners spend weeks researching POS software but buy hardware almost as an afterthought. That's a mistake. The wrong har...

Why Material Handling Hose Is Critical for Industrial Efficiency

A high-performance material handling hose is an essential component in industries that transport abrasive, dry, or bulk materials on a daily basis...

How to Choose the Right Lawyer in Melbourne for Your Situation

Choosing legal support can feel difficult, especially when the stakes are personal or business-related. The right lawyer in Melbourne should underst...

Hoteliers Look to Clever Value Adds to Increase Revenue

The Australian hospitality industry is still in recovery mode after a notoriously rough patch in recent years. While there has been a post-COVID tra...

Moving to Queensland? Here’s How to Prep Your Car for the Big Move North

There’s no sign of the northern migration slowing down, with thousands of southerners fleeing from chaotic lifestyles and cooler climates for a brig...