帝王会所

How disappearing Antarctic ice fuels a climate change reaction

Melting Antarctic ice continues to cause sea levels to rise, with the potential to affect millions of people living along coastlines. An OHIO researcher is helping create better models to prepare for the challenges ahead.

December 16, 2024

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With about Antarctic sea ice coming from a cadre of scientists earlier this month, OHIO Today sat down with the recipient of the 2024-2025 Graduate College Graduate Fellowship Nico Sartori to talk about the implications of Antarctic ice melt and how his research under Professor of Meteorology Ryan Fogt in the Scalia Laboratory is helping us understand how it affects the planet, and what it means for our future.

Besides being a tell that the planet is getting warmer, the loss of Antarctic sea ice also exacerbates the problems associated with global warming. Sartori explains that sea ice reflects sunlight, keeping the ocean cooler. When there鈥檚 less ice, the dark ocean absorbs more sunlight, warming the water and air faster. 鈥淢ore open ocean allows more absorption of incoming solar radiation, which essentially accelerates global climate change and warming of the ocean and surface,鈥 Sartori says. 

How is Southern Ocean ice different from Arctic sea ice?

Scientists have known for decades that Arctic sea ice is shrinking, with reporting recently that the North Pole region鈥檚 first ice-free day could arrive in this decade. In contrast, Antarctic sea ice in the Southern Ocean grew until 2014 but has been . Sartori points out that the Arctic is surrounded by land, so its ice stays in one area, while Antarctic ice is surrounded by open ocean and can spread out more. "The Arctic also contains freshwater sources from rivers that are less dense than the ocean, allowing for more ice formation, while the Antarctic contains saltier waters,鈥 he says.

鈥淢ost of the Antarctic sea ice does not survive its summer melt season whereas some ice in the Arctic does. In this case, the Arctic has multi-year, and much thicker, ice while the Antarctic does not.鈥

Why should people care about the condition of ice in the Antarctic sea?

鈥淒espite Antarctica being far from most civilizations around the world, it can cause major disruptions in the global climate,鈥 Sartori says, explaining that as Antarctic sea ice melts, ice on land also melts faster, adding more water to the oceans. This melting means there鈥檚 "less of a barrier to protect the grounded ice sheet where Antarctica sits on land, causing thinning of the ice sheets.... This melting will contribute to the impact [on] millions of lives who live along the coast due to sea level rise.鈥

How does less sea ice accelerate climate change?

Antarctic sea ice plays a big role in regulating global temperatures by reflecting sunlight back into space. Its loss amplifies warming through a feedback loop.

鈥淪ea ice has a high albedo, meaning it can reflect more solar radiation from the sun,鈥 Sartori says. 鈥淗owever, with less sea ice and less sea ice duration, that increases the open ocean, which has a very low albedo. More open ocean allows more absorption of incoming solar radiation, which essentially accelerates global climate change.鈥

This accelerating feedback loop highlights the urgent need to monitor and adapt to the changing conditions in the Antarctic.

An aerial shot of ice in the Antarctic sea

An aerial view of Antarctic sea ice, a critical player in regulating global temperatures. Its decline allows the dark ocean to absorb more sunlight, accelerating global warming.

Nico Sartori

Nico Santori, an OHIO graduate student, studies Antarctic sea ice in Ryan Fogt鈥檚 lab, using advanced models to understand how ocean-driven changes may be reshaping global climate systems.

Are we close to a tipping point with Antarctic sea ice?

The ocean heats up slowly, so changes take time, Sartori says. "Since the record lows are becoming consistent in recent years, it is possible we are reaching a tipping point, but it is hard to tell how close,鈥 Sartori says, noting since it鈥檚 hard to know for sure because ice models aren鈥檛 perfect. 鈥淔urther research is needed to determine how close we are to a tipping point.鈥

Addressing Antarctic mysteries, almost 9,000 miles away

At 帝王会所鈥檚 College of Arts and Sciences, Sartori is delving into the intricate patterns of Antarctic Sea ice, guided by Fogt鈥檚 extensive expertise. Using advanced statistical models and updated data, Sartori is exploring whether the ice is transitioning to an ocean-dominated system鈥攁 shift that could reshape global climate dynamics.

鈥淒r. Fogt created reconstructions of Antarctic sea ice through 2020 using temperature, pressure, and climate data,鈥 Sartori explains. 鈥淚鈥檝e been updating these reconstructions through 2023, comparing them to recent record low observations to determine whether the ocean is playing a larger role.鈥

This work is powered by the Scalia Lab鈥檚 advanced computing resources, which enable Sartori to analyze vast datasets efficiently. The research not only enhances our understanding of Antarctic sea ice variability but also equips scientists with better tools to predict future changes in the Earth鈥檚 climate system.

A glacial structure showing sea ice in Antarctica

Captured in 2018, this glacial structure highlights a period when Antarctic sea ice had just begun its decline after years of growth. Since 2014, consistent record lows have raised concerns about a long-term shift driven by ocean warming.

How does melting Antarctic Sea ice affect global ocean currents and the climate?

Antarctic sea ice is important in driving global ocean circulation, particularly through the Antarctic Bottom Water, a dense and cold current that sinks and redistributes heat around the globe. However, as Sartori explains, melting sea ice releases freshwater into the ocean, making the water less dense and weakening this circulation.

鈥淚f the Antarctic sea ice melts, more freshwater is input into the ocean, allowing the ocean to reduce in density since freshwater is less dense than saltwater,鈥 he says. 鈥淭his will decline the sinking process of the Antarctic Bottom Water and weaken at least in the high southern portion of the global ocean currents.鈥

The ripple effects of weaker currents could disrupt climate systems worldwide, leading to unpredictable changes in weather patterns, like what鈥檚 already being observed in the Northern Hemisphere.

How has technology helped us learn more about Antarctic sea ice?

Technological advancements, particularly satellite imagery and remote sensing, have provided decades of data on sea ice extent and variability. Sartori highlights how these tools have transformed our understanding of Antarctic sea ice and climate interactions.

鈥淪atellite imagery has helped substantially in tracking sea ice changes and variability since 1979 and has provided nearly 45 years of data,鈥 he explains. 鈥淎dvancements in modeling, as well as improving resolution and computational power, allow us to model more advanced dynamical processes that were difficult to analyze before.鈥

Beyond satellites, historical data is also helping fill out the picture. Sartori notes that Fogt鈥檚 efforts to digitize ship logbooks from the early 20th century are adding critical missing data to the picture, offering a longer historical record of sea ice and climate variability.

Why is studying past sea ice patterns important for understanding today鈥檚 changes?

Sartori emphasizes the value of historical context when examining modern sea ice dynamics. By studying changes over the past century, researchers can better identify long-term patterns and refine predictive models.

鈥淚f we can understand sea ice patterns in the 20th century, then we will be able to become more knowledgeable on sea ice variability and interpret its current behavior with better context,鈥 he says. 鈥淯nderstanding more about past variability can aid in predicting future sea ice as we continue to update model simulations.鈥

This work is particularly important as scientists investigate whether Antarctic Sea ice is undergoing a shift from an atmosphere-driven to an ocean-driven system.

By combining advanced technology, historical data, and ongoing research, Sartori鈥檚 work sheds light on the profound connections between Antarctic sea ice and global climate systems. His research 鈥淚nvestigating A Potential New Antarctic Sea Ice State in the Context of the 20th Century鈥 not only deepens our understanding of these complex processes but also underscores the importance of preparing for the challenges ahead.