Climate Change - A Report from Antarctica: WAIS Divide Ice Core

On2Feet

10 Nov 200809:39

Summary

TLDRThis video showcases the process of drilling ice cores in Antarctica to study past climate changes. The narrator explains how the unique conditions of the site provide a detailed record of greenhouse gas fluctuations and their relationship with temperature changes over 650,000 years. The drilling tool extracts ice samples, which are analyzed for gas concentrations and isotopic ratios, offering insights into past air temperatures and CO2 levels. The video emphasizes the clear link between human activities and current climate warming, encouraging viewers to use science to inform future decisions.

Takeaways

❄️ The location for this ice coring project was carefully chosen for its clean, deep ice, simple ice flow, and high annual snowfall rate, making it ideal for studying past climate changes.
📉 This ice core project aims to provide detailed records of how greenhouse gases influenced climate changes over time.
🧊 Antarctica is ideal for studying the concentration of past atmospheric carbon dioxide levels due to its unique ice conditions.
🔬 The drill used in the project is a scientific instrument specifically designed for ice coring, shaving off rings of ice to extract samples.
🌡️ One of the main goals of the project is to compare the timing of past greenhouse gas changes with temperature shifts, improving the understanding of human-driven climate change.
📦 Ice cores are packed and transported using a complex system of planes, ships, and trucks for analysis by about 30 scientists back in the United States.
📊 Measurements taken from the ice cores include the isotopic ratio of oxygen, which helps determine past air temperatures, and the concentration of gases like carbon dioxide trapped in air bubbles.
🌍 The study shows a strong correlation between high CO2 levels and warmer conditions over the last 650,000 years, highlighting the human role in today's climate warming.
🏕️ The camp for the ice coring project is temporary, with tents for personal space and structures like the dining hall set up only during the summer to avoid snow drifts.
♻️ The team follows strict environmental practices, taking all waste with them and recycling 85% of it to minimize their impact on the pristine environment.

Q & A

What makes this particular location ideal for studying past climate changes?
-The location has a combination of clean, deep ice, simple ice flow, and a high annual snowfall rate, making it the best place to study the details of how past changes in greenhouse gases influenced climate.
Why are ice cores important for understanding past climate conditions?
-Ice cores contain trapped gas bubbles from the atmosphere at the time the snow was compressed into ice. By analyzing these gases, such as carbon dioxide, and isotopic ratios of oxygen, scientists can determine past atmospheric conditions and temperatures.
How do scientists measure past air temperatures using ice cores?
-Scientists measure the isotopic ratio of oxygen-18 and oxygen-16 in the water that makes up the ice. This ratio changes based on the air temperature when the snow fell, allowing scientists to estimate past air temperatures.
What is unique about the drill used in this ice coring project?
-The drill used is a one-of-a-kind scientific instrument designed specifically for ice coring, unlike water well or oil well drills. It has razor-sharp cutters and operates to extract a cylindrical ice core while maintaining its integrity.
How do scientists ensure the ice cores stay preserved in the field?
-To keep the gas samples trapped in the ice, the ice cores must be kept below -20°C. A large refrigeration system is used to maintain this temperature in the field, along with cold storage in the drill shelter.
What measurements do scientists take once the ice cores are brought back from the field?
-Scientists measure the isotopic ratios to determine past temperatures and analyze the gases trapped in air bubbles to assess historical concentrations of greenhouse gases like carbon dioxide.
How do scientists use electrical conductivity to study ice cores?
-By measuring the electrical conductivity of the ice, scientists can identify annual layers because snow from different seasons (summer and winter) has distinct chemical compositions, which affect conductivity.
What relationship between CO2 and temperature is shown by ice core data?
-Ice core data shows a strong correlation between high levels of atmospheric CO2 and warm temperatures, and low levels of CO2 with colder conditions, over at least the past 650,000 years.
What does the data say about current CO2 levels compared to historical levels?
-Current atmospheric CO2 levels are much higher than at any time in the past 650,000 years, which suggests an unusual and potentially dangerous trend linked to human activities.
What is the main takeaway for the audience regarding climate change from this research?
-The data shows that human activities are contributing to current climate warming, and while the speaker doesn't offer specific policy advice, they encourage using the best available science to inform decisions on how to address climate change.