Vegetation Warming Experiment: 15N Uptake Experiment Inorganic Nitrogen and Phosphorus on Resins, Utqiagvik (Barrow), Alaska, 2018

DOI: https://doi.org/10.5440/1784752

NGEE Arctic Record ID: NGA259

Data Version: 1.0

Abstract

This dataset consists of inorganic ammonia, nitrate, and phosphate bound to anion and cation binding resins deployed from July through September 2018 in the surface soils of vegetation warming experiment enclosures and paired control plots.

Vegetation warming chambers (Zero Power) were deployed on the Barrow Environmental Observatory (BEO), UtqiaÄ¡vik, Alaska. These chambers (Figure 1) consistently elevated air temperatures by approximately 4Â°C using a self-venting system described by Lewin et al (2017). Five chambers were deployed from June 17, 2018 to September 24, 2018 on the BEO within a 1 km2 area centered on 71.275N, -156.641W. Each chamber was co-located with an ambient plot where temperatures were not manipulated on patches of tundra containing the target species Arctagrostis latifolia. An intensive field campaign in late July investigated the impact of warming had on A. latifolia biomass, chemistry, and uptake of 15N labeled ammonia that was injected into the surface soils for one week. Initial measurements were taken on July 21, 2018. Harvest occurred on July 27, 2018. Water-extractable nutrients in soils were measured in July following harvests of A. latifolia plants and underlying soils. Availability of ammonia, nitrate, and phosphate throughout the growing season was measured by extracting nutrients bound to anion and cation binding resins deployed from July through September. Environmental variables (thaw depth, surface soil temperatures, surface soil moisture) were measured. Leaf traits and root traits of A. latifolia were also measured.

The Next-Generation Ecosystem Experiments: Arctic (NGEE Arctic), was a research effort to reduce uncertainty in Earth System Models by developing a predictive understanding of carbon-rich Arctic ecosystems and feedbacks to climate. NGEE Arctic was supported by the Department of Energyâs Office of Biological and Environmental Research.

The NGEE Arctic project had two field research sites: 1) located within the Arctic polygonal tundra coastal region on the Barrow Environmental Observatory (BEO) and the North Slope near Utqiagvik (Barrow), Alaska and 2) multiple areas on the discontinuous permafrost region of the Seward Peninsula north of Nome, Alaska.

Through observations, experiments, and synthesis with existing datasets, NGEE Arctic provided an enhanced knowledge base for multi-scale modeling and contributed to improved process representation at global pan-Arctic scales within the Department of Energyâs Earth system Model (the Energy Exascale Earth System Model, or E3SM), and specifically within the E3SM Land Model component (ELM).

Authors

Verity Salmon (salmonvg@ornl.gov) 0000-0002-2188-551X

Joanne Childs (childsj@ornl.gov) 0000000220027337

Colleen Iversen (iversencm@ornl.gov) 0000000182933450

Breann Spencer (shangping888@gmail.com)

Alistair Rogers (arogers@bnl.gov) 0000-0001-9262-7430

Kim Ely (kely@bnl.gov) 0000-0002-3915-001X

Shawn Serbin (sserbin@bnl.gov) 0000-0003-4136-8971

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Dataset Citation

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Inorganic Nitrogen and Phosphorus on Resins, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. Dataset accessed on [INSERT_DATE] at https://doi.org/10.5440/1784752.

Dates

2018-09-26 - 2018-09-26

Geographic Location

NGEE Arctic Utqiagvik (Barrow), Alaska

North	71.35
South	71.2
East	-156.4
West	-156.7

Place Keywords:

Utqiagvik, Alaska | Barrow Environmental Observatory (BEO), Alaska

Subject Keywords:

anion | cation |

GCMD Keywords

EARTH SCIENCE > LAND SURFACE > SOILS

Methodology

Warming treatment was implemented in Utqiagvik, Alaska on the Northern coastal plain using zero power warming chambers that elevate air temperatures by approximately 4Â°C. Details on design and impact of the warming chambers are documented in Lewin and others (2017). At three locations within each chambered plot and co-located ambient plot, 9 x 9 cm areas of A. latifolia were harvested. Two areas harvested were labeled with 15N-NH4 and one area was not (this was part of the assay for measuring uptake rates of 15N-NH4 but did not impact this dataset,15N-NH4 injections were not performed in soils that contacted the resins). Mixed bed exchange resins bags were used to assess availability of inorganic N and P in surface soils in both ambient and warmed plots. Resin bags were constructed with IONAC NM-60 H+/OH- Form, Type 1, Beads (16-50 Mesh:JT Baker #4631-01). Each bag contained 10 g (+/- 0.05g) of wet resin material within acid washed nude pantyhose. Moisture content of wet resin materials was measured at the time of resin bag construction. Resins were deployed in July 2018 (ZPW resins deployed July 9th, AMB resins deployed July 14th due to slower thaw in ambient plots). All resins were collected on September 26th, 2018. Resins were shipped to ORNL for further processing. Resins were air dried prior to extraction. Resins were then sequentially extracted 3x, each time with a fresh, 15ml aliquot of 2M KCl. Sequential extracts were then combined for a final extract volume of 45ml. Resin extracts were frozen prior to analysis. Extract was thawed before analysis for NH4+, NO3-, and PO4- on a Lachat 8500 autoanalyzer (Hach Company, Loveland, CO). The methodological range for ammonium was 0.01 to 1 mg (Lachat method 12-107-06-1-A). The methodological range for phosphate was 0.10ug to 500ug (Lachat method 10-115-01-1-B modified with a 60cm sample loop) . Ammonium and nitrate analysis used 2M KCl as a carrier, but phosphate analysis used DI water. Undeployed resin blanks were shipped to the field, shipped back, and extracted alongside deployed resins. Deployed resin concentrations were blank corrected by subtracting the average blank values from deployed resin values. If this resulted in a negative number, the deployed resin concentration was considered zero. Final blank-corrected resin extracts were expressed ug N per g dry resin and ug P per g dry resin.

Related References

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Arctagrostis latifolia Canopy Traits, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784759

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Environmental Observations and Thaw Depth, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784757

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Arctagrostis latifolia Biomass and Chemistry, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784750

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Arctagrostis latifolia Root Traits, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784749

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Arctagrostis latifolia 15N Uptake, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784751

Verity Salmon, Joanne Childs, Colleen Iversen, Breann Spencer, Alistair Rogers, Kim Ely, Shawn Serbin. 2021. Vegetation Warming Experiment: 15N Uptake Experiment Water-Extractable Soil Nutrients, Utqiagvik (Barrow), Alaska, 2018. Next Generation Ecosystem Experiments Arctic Data Collection, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee, USA. https://doi.org/10.5440/1784755

Related Identifiers

N/A

Metadata Contact

Contact information for the individual or organization that is knowledgeable about the data.

Person: Hannah Blanco

Organization: Oak Ridge National Laboratory

Email: blancohl@ornl.gov

Point of Contact

Contact information for the individual or organization that is knowledgeable about the data.

Person: Verity Salmon

Organization: Oak Ridge National Laboratory

Email: salmonvg@ornl.gov

Dataset Usage Rights

Public Datasets

This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit https://creativecommons.org/licenses/by/4.0.

See the NGEE Arctic Data Policies for more details https://ngee-arctic.ornl.gov/data-policies.

Distribution Point of Contact

Contact: Data Center Support

Organization: Next-Generation Ecosystem Experiments (NGEE) Arctic Project, Oak Ridge National Laboratory

Email: support@ngee-arctic.ornl.gov