| NSF Org: |
OPP Office of Polar Programs (OPP) |
| Recipient: |
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| Initial Amendment Date: | February 28, 2017 |
| Latest Amendment Date: | July 7, 2022 |
| Award Number: | 1656026 |
| Award Instrument: | Continuing Grant |
| Program Manager: |
Roberto Delgado
robdelga@nsf.gov (703)292-2397 OPP Office of Polar Programs (OPP) GEO Directorate for Geosciences |
| Start Date: | August 1, 2017 |
| End Date: | July 31, 2024 (Estimated) |
| Total Intended Award Amount: | $5,633,519.00 |
| Total Awarded Amount to Date: | $6,609,255.00 |
| Funds Obligated to Date: |
FY 2018 = $1,126,924.00 FY 2019 = $1,183,960.00 FY 2020 = $1,126,803.00 FY 2021 = $1,126,558.00 FY 2022 = $918,527.00 |
| History of Investigator: |
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| Recipient Sponsored Research Office: |
110 INNER CAMPUS DR AUSTIN TX US 78712-1139 (512)471-6424 |
| Sponsor Congressional District: |
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| Primary Place of Performance: |
750 Channel View Drive Port Aransas TX US 78373-5015 |
| Primary Place of
Performance Congressional District: |
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| Unique Entity Identifier (UEI): |
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| Parent UEI: |
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| NSF Program(s): |
LONG TERM ECOLOGICAL RESEARCH, AON-Arctic Observing Network, Integrat & Collab Ed & Rsearch |
| Primary Program Source: |
01001920DB NSF RESEARCH & RELATED ACTIVIT 0100XXXXDB NSF RESEARCH & RELATED ACTIVIT |
| Program Reference Code(s): |
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| Program Element Code(s): |
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| Award Agency Code: | 4900 |
| Fund Agency Code: | 4900 |
| Assistance Listing Number(s): | 47.078 |
ABSTRACT
This project will establish a new Long Term Ecological Research (LTER) site along the Alaskan Arctic coastline. Research based out of Utqiagvik (formerly Barrow), Deadhorse, and Kaktovik will address how changes in shoreline erosion and freshwater inflows to the coastal ocean over seasonal, annual, and longer timeframes influence near-shore food webs. Research will be conducted in collaboration with local stakeholder groups and the U.S. Fish and Wildlife Service. This research will advance our fundamental understanding of how input of materials from land and oceanographic conditions interact to influence coastal food webs. It will also allow us to track and understand: 1) how natural climate cycles influence coastal ecosystems in the Arctic, and 2) how climate change effects such as permafrost thaw, shifting precipitation regimes, and losses of sea ice alter coastal ecosystems. Near-shore food webs along the Alaskan Arctic coastline support large populations of migratory fish and waterfowl that are essential to the culture of Iñupiat communities of northern Alaska. The research at this LTER site will create a framework for anticipating the impacts of future changes on the coastal ecosystem that are of great concern to these communities. Results from this LTER program will also be of interest to a broader science community that is working to understand potential connections between Arctic change and global carbon cycling. Finally, this LTER project includes a strong commitment to education through graduate and undergraduate student involvement, post-doctoral mentoring, continuation of a very successful Summer Science K-12 Program in Kaktovik, and establishment of a parallel K-12 program in Utqiagvik. In addition, this project will employ native high school seniors or recently graduated students living in Utqiagvik and Kaktovik as field research assistants.
Recent studies suggest that the ecological framework for understanding what controls food web structure needs to be expanded to include temporal forcing. More specifically, there is mounting evidence that differential availability of seasonally-distinct resources is critical for defining trophic linkages and maintaining stability and resilience of food webs. This new LTER program will use lagoons along the Alaskan Beaufort Sea coast as experimental units to test this concept, and broaden it to include temporal variations over longer timeframes. The Beaufort lagoons are ideal for testing this concept because they experience extreme variability in seasonal cycles, which are now subject to rapid directional shifts driven by climate change. Our overarching question is: How do variations in terrestrial inputs, local production, and exchange between lagoon and ocean waters over seasonal, inter-annual, inter-decadal, and longer timeframes interact to control food web structure through effects on carbon and nitrogen cycling, microbial and metazoan community composition, and trophic linkages? Arctic lagoons provide a unique opportunity to study these interactions in the absence of fringing wetlands that often modulate land-ocean interactions in other lagoon systems. In addition, barrier island geomorphology, which exerts a strong control on water exchange between lagoons and the open ocean, is highly dynamic in the Arctic because sea-ice effects on coastal geomorphology are superimposed on the effects of currents, sea level, and waves. Thus, connections between inputs from land and lagoon ecosystems are more direct, and water exchanges between lagoons and the open ocean are more variable than is typical of lower latitude systems. Specific study sites will be located in Elson Lagoon (western Beaufort), Simpson Lagoon and Stefansson Sound (central Beaufort), and Kaktovik and Jago lagoons (eastern Beaufort). The LTER will include seasonal field work during ice covered, ice break-up, and open water periods and also include sensor deployments for continuous measurements of key biogeochemical and hydrographic parameters.
PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH
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PROJECT OUTCOMES REPORT
Disclaimer
This Project Outcomes Report for the General Public is displayed verbatim as submitted by the Principal Investigator (PI) for this award. Any opinions, findings, and conclusions or recommendations expressed in this Report are those of the PI and do not necessarily reflect the views of the National Science Foundation; NSF has not approved or endorsed its content.
Arctic coastal habitats are undergoing rapid changes in temperature regime, sea ice extent, and freshwater inputs that, in turn, have cascading effects on the physical, chemical, and biological functions of the Arctic coastal ecosystems. These ongoing forces accelerate disturbance effects of erosion, change the timing, quality, and quantity of freshwater inputs into the coastal environment, alter food source availability for the coastal food web, and trigger positive feedbacks that facilitate greenhouse gas releases to the atmosphere. Ultimately, these ecological changes will and are already impacting the residents of Inupiat communities that rely on the lagoons for subsistence hunting and fishing. This project, which initiated the Beaufort Lagoon Ecosystems Long Term Ecological Research (BLE LTER) program, established study sites along the Alaska Beaufort Sea coast that are representative of the shallow, semi-enclosed estuarine environments that fringe the convoluted Arctic coastline to address fundamental questions about Arctic ecology that cannot be answered with short-term studies. Amidst ongoing ecosystem change, the dramatic seasonality of the Arctic was embraced with sampling campaigns throughout the year, including work during the logistically challenging ice cover and sea ice break-up seasons. Moreover, the project deployed sensor arrays on the seafloor of the coastal Beaufort Sea to collect continuous, high-frequency physicochemical and biological data. Measurements of freshwater discharge, including rivers and groundwater, and inputs from coastal erosion were also incorporated into the sampling program. Collective, the data gathered by this project supported new insights about spatial gradients and seasonal dynamics that have improved basic understanding of how Arctic coastal ecosystems operate. The project also established the foundation for long-term tracking of changes that are relevant to local food webs as well as the global carbon balance.
This project emphasized the intersection between extreme seasonal variations that inherently define Arctic coastal ecosystems and the relentless pressure of climate change that is forcing these ecosystems toward new states. Research was guided by the overarching question: How do variations in terrestrial inputs, local production, and exchange between lagoon and ocean waters over seasonal to multi-decadal timeframes interact to control food webs through effects on carbon and nitrogen cycling and biotic community composition. Overall, the project quantified sources of water and nutrients to the lagoons, measured the dynamics of sea ice and freshwater discharges to assess lagoon connectivity to other ecosystems, investigated processes that transform or process organic and inorganic matter in the lagoons, and elucidated biotic community structure and assimilation of terrestrial organic matter into the food web. The project’s field measurements informed modeling efforts that simulated temporal variability in terrestrial inputs and coastal ecosystem responses. Project results have facilitated new thinking about the role of seasonality as ecological disturbance that not only applies to Arctic ecosystems but many other ecosystems that experience extreme swings in environmental conditions over seasonal timeframes.
This project produced 29 peer-reviewed science articles, one book chapter, and 31 datasets archived at public repositories. It also included training/involvement of 16 undergraduate students, 22 graduate students, one postdoctoral researcher, and 10 teachers from K-12 schools. Project personnel ran a “schoolyard ecology” program in the village of Kaktovik annually. This program involved week-long field and classroom activities for K-12 students. In addition, project personnel engaged local communities in Kaktovik and other villages on the North Slope of Alaska through science nights, Q&A sessions, and discussions about local concerns. The project also established a Traditional Knowledge panel involving residents on the North Slope of Alaska.
Last Modified: 11/29/2024
Modified by: James W Mcclelland
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