Oleksy

INSTAAR’s 2024 Sarah Crump Fellow reflects on an adventurous season in the Rockies

David J Lubinski — Mon, 03 Feb 2025 21:58:49 +0000

INSTAAR’s 2024 Sarah Crump Fellow reflects on an adventurous season in the Rockies David J Lubinski Mon, 02/03/2025 - 14:58

INSTAAR’s Sarah Crump Graduate Fellowship is now accepting applications from CU ��Vlog�ƽ�� graduate students. Last year’s recipient, Katie Gannon, recalls an eventful summer of field science.

Sarah Crump was a beloved INSTAAR alum. After a hard-fought battle with an aggressive form of cancer, she passed peacefully in November 2022. Before she passed, Sarah designed a fellowship for CU ��Vlog�ƽ�� graduate students studying earth or environmental science in high-latitude or high-altitude regions. The fellowship provides summer funding for one student each year. Women and other underrepresented groups in earth science are particularly encouraged to apply. Preference is given to applicants whose advisors are INSTAAR members. INSTAAR is accepting applications for the 2025 Sarah Crump fellowship now until February 28: Apply, donate or learn more.

Katie Gannon works on The Loch, a high altitude lake in Rocky Mountain National Park, Colorado.

As the applications start to roll in for 2025, INSTAAR sat down with Katie Gannon, the recipient of the 2025 Sarah Crump Graduate Fellowship, to hear about her experiences as a fellow. It turns out she had quite an adventurous summer. Sarah would have approved.

You worked on a lot of different projects this summer. Tell us about one that stood out?

At the start of the summer we worked on a research project in the Rawah Wilderness just west of Fort Collins. We were interested in how rock glaciers, which are underground ice formations in the mountains, impact lakes downstream.

We did two 4-day backpacking trips to get back there and both of them had their share of challenges. The first trip was freezing. We camped in the spring snow and had to post-hole for hours to get between study lakes

On the second trip, we were up high above the tree line when a thunderstorm blew in and it started hailing. We were at least 4 miles from camp, it was the middle of the day and we had at least one more lake to sample before we were done. So we hiked down off the ridge and huddled up in the trees to wait out the storm.

We were all cold and wet and mildly miserable. But then Bella (Gannon’s PhD advisor) started singing and dancing to Chappell Roan’s “Hot to Go!” and we started singing and jumping up and down and dancing to stay warm. I was soaked through, shivering, and laughing hysterically, along with everyone else. It was a great reminder of how important it is to support each other and enjoy the ride.

In the end those trips were a great way to get to know my lab, and the glaciers were so wild to see. The water seeping out of the rock and into the lakes is barely above freezing even in the middle of the summer and it is laden with ions and trace minerals.

You also worked on lake monitoring efforts in Rocky Mountain National Park and in Green Lakes Valley. Tell us about that.

These long-term projects feel special to me because in addition to creating useful data, repeatedly visiting these sites allows us to get to know the lakes and develop a connection with them. Last season, I watched the Loch thaw bloom in the spring. Then, in the fall, I watched as the trees lost their leaves and the lake froze over again.

We deploy buoys in the lakes that measure temperature and dissolved oxygen concentration. In the winter, the ice freezes over the top and the buoy is pushed down about a meter below the surface. Even though we carefully map out where each one is in the fall, the ice inevitably pulls them around during the colder months.

On one of my first field days this summer we hiked our boats in four miles to the Loch and then spent two more hours paddling in circles looking for our buoy. Everyone cheered when we finally found it.

Gannon's field photos (click to zoom)

Your lab collaborated with the forest service this summer. Tell us about that.

We looked at two remote mountain lakes in the San Juan Mountains that are experiencing algal blooms. This, in and of itself, is strange. You don’t usually see algal blooms in watersheds that have been minimally impacted by people.

In order to get all our gear in to collect samples, our team brought in a team of six mules and horses. They were hilarious and adorable. We would just sit in camp in the evening and watch them play around in the pasture. Having help from the pack animals and forest service amplified the project. We were able to collect much more data than we would have on our own.

You were busy this summer. Did you have time to work on your own research?

Yes. I got the first project for my PhD off the ground. I’m investigating methane and carbon dioxide accumulation in two alpine lakes. One is above the treeline while the other is below.

The fellowship allowed me to scout out lakes, order materials and find collaborators here at CU to help me run my samples. Now I have two months of data. We’re also collecting samples through the winter to see if methane and carbon dioxide build up under winter ice.

If you have questions about this story, or would like to reach out to INSTAAR for further comment, you can contact Senior Communications Specialist Gabe Allen at gabriel.allen@colorado.edu.

INSTAAR’s Sarah Crump Graduate Fellowship is now accepting applications from CU ��Vlog�ƽ�� graduate students whose research is centered on processes or climate history in high-latitude or high-altitude environments. Last year’s recipient, Katie Gannon, recalls an eventful summer of field science.

Off

Traditional

White

New research demystifies carbon cycling in freshwater lakes around the world

David J Lubinski — Wed, 08 Jan 2025 17:18:03 +0000

New research demystifies carbon cycling in freshwater lakes around the world David J Lubinski Wed, 01/08/2025 - 10:18

Gabe Allen

A refined mathematical model is now capable of predicting carbon inputs and outputs for freshwater lakes around the world, according to new research from INSTAAR’s Isabella Oleksy and collaborators. Their work could help scientists understand the role of freshwater lakes in the global carbon cycle.

Oleksy's most recent paper, which was published in the Journal of Geophysical Research: Biogeosciences, tests and revises an equation that allows scientists to estimate the overall biological activity in a lake from limited data.

The equation was created by a group of scientists, including Oleksy's co-author Christopher Solomon, in 2018. It’s a mathematical formulation of the Nutrient Color Paradigm — a longstanding theory in the field. Basically, the theory posits that you can estimate the total growth of phytoplankton in a lake from the color of the water and measurements of a few key nutrients. Phytoplankton is the basis of the marine food web, which makes it a good stand-in for lake productivity on the whole.

Further refinements of a model like this might be used to generate estimates of how much carbon is being fixed by lakes annually
-- Isabella Oleksy

Isabella Oleksy prepares to take measurements from The Loch, a high altitude lake in Rocky Mountain National Park, Colorado.

“This is a way to potentially be able to understand what algal biomass and water quality might look like in a bunch of different lakes, even when you can’t necessarily get out there and measure it,” Solomon said.

Oleksy's study is the first to test the model against real world data — quite a bit of it. Back in 2019, when Oleksy was a postdoctoral researcher at the Cary Institute of Ecosystem Studies, she put out a call for data at a meeting of the Global Lake Ecological Observatory Network.

“I asked people, ‘Hey. I want to test this model, but we need observations from lakes around the world,’” she said.

Collaborators were eager to help out. With the help of 30 scientists at many different institutions, Oleksy gathered detailed measurements from 58 different freshwater lakes around the world. Then, she tested the model’s predictions against the data. The initial test was encouraging.

“The results were pretty realistic,” she said.

The next step was to make the predictions even better. Through a process called Monte Carlo analysis, Oleksy pitted the model’s predictions against the on-the-ground data. Where the model faltered, she added new parameters to improve it.

In the end, Oleksy and her collaborators created a model capable of estimating the conditions of freshwater lakes in a diverse range of locations and ecosystems.

According to Oleksy, the new model could have implications far beyond freshwater lakes. It elucidates one small element of the global carbon cycle — a cycle that has become a priority for scientists in the era of global warming.

Policy makers and researchers rely on global-scale models of the carbon sources and sinks to predict the Earth’s future climate and inform large-scale solutions for climate change. These models are vast and complex — they must take into account the inputs and outputs of diverse human activities, ecosystems and geologic phenomena. Oleksy and her collaborators hope that their new study can be used to eliminate some uncertainty from these estimates.

“There is a lot of uncertainty about the role of inland waters,” Oleksy said. “Further refinements of a model like this might be used to generate estimates of how much carbon is being fixed by lakes annually.”

Global distribution of the 58 lakes included in Oleksy et al. 2024 (Figure 2, JGR Biogeosciences). The “calibration” lakes are shaded in yellow and all others (“validation”) are in blue.

If you have questions about this story, or would like to reach out to INSTAAR for further comment, you can contact Senior Communications Specialist Gabe Allen at gabriel.allen@colorado.edu.

Off

Traditional

White

What 92 years of data say about ice cover (EOS)

David J Lubinski — Mon, 16 Dec 2024 18:06:48 +0000

What 92 years of data say about ice cover (EOS) David J Lubinski Mon, 12/16/2024 - 11:06

Using a 92-year record of ice freezing and thawing from Mohonk Lake in New York, Isabella Oleksy and her co-author David Richardson (SUNY New Paltz) uncover new insights into the relationship between changing ice cover and lake dynamics, with implications for bodies of water worldwide.

Off

Traditional

White

Why lakes turn green: Researchers will take a deep dive into the health of North America’s freshwater lakes

Anonymous — Tue, 03 Oct 2023 21:29:38 +0000

Why lakes turn green: Researchers will take a deep dive into the health of North America’s freshwater lakes Anonymous (not verified) Tue, 10/03/2023 - 15:29

Shelly Sommer

As winters warm and lake ice duration shortens, algal blooms are interfering with water quality in lakes

I’m motivated because we’re seeing, in these cold regions of the world, fast rates of change. We’re losing lake ice cover in Colorado at twice the rates of other temperate lakes in the U.S. There’s so much we don’t know about the ecological impacts. Getting a full, year-round picture of ecosystem processes with give us a better idea of what’s coming - Isabella Oleksy

Lakes represent some of the most vital natural resources on Earth. While they only hold a small percentage of the planet’s overall water supply, they provide most of the fresh water people depend on daily. Supported by a new five-year, $2.5 million grant from the National Science Foundation, a group of researchers at five universities will examine how rapidly warming temperatures and shorter winters can influence the growth and toxicity of lake algae. Isabella Oleksy, who studies aquatic ecosystems and recently joined INSTAAR, is leading the Colorado contingent at CU ��Vlog�ƽ��.

The researchers will use predictive modeling to forecast future outcomes on samples taken from more than 30 lakes across the country to measure the impact of climate change. They will study how year-round algal growth and increasingly warmer winter temperatures could negatively affect lake ecosystems and water quality.

“We're looking to make future projections of what to expect out of water quality, specifically levels of phytoplankton and the cyanobacteria that are harmful algal blooms, and then potential increases or decreases in toxin concentrations,” said University of Missouri researcher Rebecca North. “To do that, we’ll collect data from a whole suite of lakes all the way from alpine lakes in the Rocky Mountains in Colorado and ice-covered lakes up in Vermont and New York State, down to lakes in Missouri and some in Florida. These are the endpoints in terms of what we can expect from a changing climate.”

Researchers will deploy several instruments in the lakes to collect data throughout the year, including during times when lakes are covered in ice. Wildlife cameras and remote sensing imagery will show when ice appears and disappears on the lakes.

Researchers auger a hole through the ice of the Loch, a subalpine lake in Rocky Mountain National Park, Colorado. They used the hole to collect water samples. This lake will be closely monitored for the first three years of the five-year project.

“Ice duration and ice cover set the stage for all kinds of biological and ecological processes in lakes,” said Oleksy. “We’re seeing winter conditions—specifically ice cover duration—change very rapidly all over the world, including Colorado. But because we mostly take measurements from lakes in the summer, we have a pretty poor understanding of what this loss of winter means for ecosystem processes in lakes.”

Most of the data the researchers will collect is about lake productivity: broadly defined as a lake’s ability to support plant and animal life, or as how much carbon the lake is cycling. More is productivity is not necessarily better—just different. Different levels of productivity determine the types of insects, fish, and other creatures that can live in the lake. Algae is the foundation layer of productivity.

“Algae are the base of the lake food web,” said Oleksy. “Most organisms rely on algae. But if the species and abundance of algae changes, that changes what insects can thrive there. And that changes what fish can live there. The changes cascade up.”

“We want a more holistic understanding of what’s happening,” added Oleksy.

Oleksy’s field sites include lakes in Rocky Mountain National Park and in the Green Lakes Valley, near the city of ��Vlog�ƽ��. Her Colorado-based research team documented dramatic changes to productivity of Rocky Mountain lakes. They have found increases in the abundance of filamentous green algae—basically big mats of algae—on the margins of lakes, which is unusual for these lakes.

Mountain lakes are usually thought of as having low productivity, with few nutrients. “But we know now that Rocky Mountain lakes have become much more productive since the 1850s, with an accelerating trend in the last few decades,” said Oleksy. Researchers aren’t sure exactly what is driving the change. Increased temperatures? Nitrogen deposition? Less ice cover? All of the above? Oleksy wants to find what she describes as the “dominant lever.”

“I’m motivated because we’re seeing, in these cold regions of the world, fast rates of change. We’re losing lake ice cover in Colorado at twice the rates of other temperate lakes in the U.S. There’s so much we don’t know about the ecological impacts. Getting a full, year-round picture of ecosystem processes with give us a better idea of what’s coming.”

Joining Oleksy and North on the project are Ana Morales at the University of Vermont, Meredith Holgerson at Cornell University, and Dave Richardson at State University of New York at New Paltz. See a news article about the project featuring Rebecca North (Univ of Missouri).

Isabella Oleksy takes measurements from a raft on The Loch, a subalpine lake in Rocky Mountain National Park, Colorado. This lake will be closely monitored for the first three years of the five-year project.

Supported by a new five-year, $2.5 million grant from the National Science Foundation, a group of researchers at five universities will examine how rapidly warming temperatures and shorter winters can influence the growth and toxicity of lake algae. Isabella Oleksy, who studies aquatic ecosystems and recently joined INSTAAR, is leading the Colorado contingent at CU ��Vlog�ƽ��.

Off

Traditional

White