2224743
Project Grant
Overview
Grant Description
LTER: The Role of Climate Variability in Controlling Arctic Ecosystem Function
The Arctic is warming more rapidly than the rest of the planet. Thawing of previously frozen soils will have consequences for society through alteration of carbon emissions. Most previous research has focused on how Arctic ecosystems respond to average warming trends. However, there is very little research on variability of environmental conditions within that average warming trend.
The Arctic Long-Term Ecological Research Site (ARC-LTER) community has found that tundra ecosystems respond strongly to fluctuations in the environment on a range of time scales. ARC-LTER will continue to produce long-term data and perform modeling simulations that examine the role of that environmental variability on critical ecosystem functions.
The main activities in this renewal will expand our understanding by focusing on how climate variability affects the terrestrial production and breakdown of organic matter, and how those processes combine to affect CO2 production in lakes and streams. The project will therefore contribute to understanding how trends in mean climate, climate variability, and disturbances all interact to control Arctic ecosystem structure and function.
The project will have many broader impacts, such as training young investigators and engaging K-12 teachers in research through the Earth Camp program. It will also include schoolyard activities and research experiences for teachers. Outreach to stakeholders will include briefings to Alaska State, North Slope Borough, and US government agencies overseeing environmental and natural resource programs. ARC-LTER will also work with the Study of Environmental Arctic Change program on co-production of knowledge with indigenous experts for use in decision making.
The 2023-2029 ARC-LTER project will determine how the concurrence of climate trends and altered variability of environmental conditions combine to affect Arctic ecosystems. The project will test the hypothesis that variability in environmental conditions is a stronger driver of change in the Arctic than the average long-term trends in climate. It will examine how the "openness" and "connectedness" of ecosystems relate to disturbances such as wildfire and climate change.
This research will include the maintenance of ongoing and development of new activities associated with long-term monitoring, experiments, and numerical modeling work in the vicinity of Toolik Lake, AK. The project will address three main questions which will integrate research along the terrestrial-aquatic continuum:
Question 1: How does climate variability affect the openness and connectivity of Arctic ecosystems? This research will focus on vegetation and biogeochemical cycles in moist acidic tundra along an existing nutrient gradient, within warming plots, and in nearby alder stands.
Question 2: How does climate variability affect key consumers and their influence on ecosystems? The research activities will focus on how climate variability affects the composition of consumer communities, their influence on ecosystems, and the genomic potential and metabolism of microbial communities.
Question 3: How does climate variability affect carbon dynamics along the terrestrial-aquatic continuum? The project will study how the dynamics of carbon biogeochemistry along the continuum are affected by environmental variability.
Together, the answers to these questions will improve our understanding of how long and short-term changes in the environment shape ecosystem function.
This long-term ecological research site is supported by the Division of Environmental Biology and the Office of Polar Programs. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
The Arctic is warming more rapidly than the rest of the planet. Thawing of previously frozen soils will have consequences for society through alteration of carbon emissions. Most previous research has focused on how Arctic ecosystems respond to average warming trends. However, there is very little research on variability of environmental conditions within that average warming trend.
The Arctic Long-Term Ecological Research Site (ARC-LTER) community has found that tundra ecosystems respond strongly to fluctuations in the environment on a range of time scales. ARC-LTER will continue to produce long-term data and perform modeling simulations that examine the role of that environmental variability on critical ecosystem functions.
The main activities in this renewal will expand our understanding by focusing on how climate variability affects the terrestrial production and breakdown of organic matter, and how those processes combine to affect CO2 production in lakes and streams. The project will therefore contribute to understanding how trends in mean climate, climate variability, and disturbances all interact to control Arctic ecosystem structure and function.
The project will have many broader impacts, such as training young investigators and engaging K-12 teachers in research through the Earth Camp program. It will also include schoolyard activities and research experiences for teachers. Outreach to stakeholders will include briefings to Alaska State, North Slope Borough, and US government agencies overseeing environmental and natural resource programs. ARC-LTER will also work with the Study of Environmental Arctic Change program on co-production of knowledge with indigenous experts for use in decision making.
The 2023-2029 ARC-LTER project will determine how the concurrence of climate trends and altered variability of environmental conditions combine to affect Arctic ecosystems. The project will test the hypothesis that variability in environmental conditions is a stronger driver of change in the Arctic than the average long-term trends in climate. It will examine how the "openness" and "connectedness" of ecosystems relate to disturbances such as wildfire and climate change.
This research will include the maintenance of ongoing and development of new activities associated with long-term monitoring, experiments, and numerical modeling work in the vicinity of Toolik Lake, AK. The project will address three main questions which will integrate research along the terrestrial-aquatic continuum:
Question 1: How does climate variability affect the openness and connectivity of Arctic ecosystems? This research will focus on vegetation and biogeochemical cycles in moist acidic tundra along an existing nutrient gradient, within warming plots, and in nearby alder stands.
Question 2: How does climate variability affect key consumers and their influence on ecosystems? The research activities will focus on how climate variability affects the composition of consumer communities, their influence on ecosystems, and the genomic potential and metabolism of microbial communities.
Question 3: How does climate variability affect carbon dynamics along the terrestrial-aquatic continuum? The project will study how the dynamics of carbon biogeochemistry along the continuum are affected by environmental variability.
Together, the answers to these questions will improve our understanding of how long and short-term changes in the environment shape ecosystem function.
This long-term ecological research site is supported by the Division of Environmental Biology and the Office of Polar Programs. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Funding Goals
THE GOAL OF THIS FUNDING OPPORTUNITY, "LONG-TERM ECOLOGICAL RESEARCH", IS IDENTIFIED IN THE LINK: HTTPS://WWW.NSF.GOV/PUBLICATIONS/PUB_SUMM.JSP?ODS_KEY=NSF22543
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Palisades,
New York
10964-1706
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 200% from $1,275,000 to $3,825,000.
The Trustees Of Columbia University In The City Of New York was awarded
Arctic Ecosystem Function & Climate Variability
Project Grant 2224743
worth $3,825,000
from the Division of Environmental Biology in June 2023 with work to be completed primarily in Palisades New York United States.
The grant
has a duration of 6 years and
was awarded through assistance program 47.074 Biological Sciences.
The Project Grant was awarded through grant opportunity Long-Term Ecological Research.
Status
(Ongoing)
Last Modified 7/10/25
Period of Performance
6/1/23
Start Date
5/31/29
End Date
Funding Split
$3.8M
Federal Obligation
$0.0
Non-Federal Obligation
$3.8M
Total Obligated
Activity Timeline
Transaction History
Modifications to 2224743
Additional Detail
Award ID FAIN
2224743
SAI Number
None
Award ID URI
SAI EXEMPT
Awardee Classifications
Private Institution Of Higher Education
Awarding Office
490801 DIVISION OF ENVIRONMENTAL BIOLOGY
Funding Office
490801 DIVISION OF ENVIRONMENTAL BIOLOGY
Awardee UEI
F4N1QNPB95M4
Awardee CAGE
1B053
Performance District
NY-17
Senators
Kirsten Gillibrand
Charles Schumer
Charles Schumer
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| Research and Related Activities, National Science Foundation (049-0100) | General science and basic research | Grants, subsidies, and contributions (41.0) | $1,537,795 | 100% |
Modified: 7/10/25