A synthesized field survey database of vegetation and active layer properties for the Alaskan tundra (1972–2020)

Studies in recent decades show strong evidence of physical and biological changes in the Arctic tundra largely in response to exceptionally rapid rates of warming. Given the important implications of these changes on ecosystem services, hydrology, surface energy balance, carbon budgets, and climate...

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Bibliographic Details
Main Authors: Zhu, Xiaoran, Chen, Dong, Kogure, Maruko, Hoy, Elizabeth, Berner, Logan, Breen, Amy, Chatterjee, Abhishek, Davidson, Scott, Frost, Gerald, Hollingsworth, Teresa, Iwahana, Go, Jandt, Randi, Kade, Anja, Loboda, Tatiana, Macander, Matt, Mack, Michelle, Miller, Charles, Miller, Eric, Natali, Susan, Raynolds, Martha, Rocha, Adrian, Tsuyuzaki, Shiro, Tweedie, Craig, Walker, Donald, Williams, Mathew, Xu, Xin, Zhang, Yingtong, French, Nancy, Goetz, Scott
Format: Text
Language:English
Published: 2023
Subjects:
Arctic
Tundra
Online Access:https://doi.org/10.5194/essd-2023-222
https://essd.copernicus.org/preprints/essd-2023-222/
Description
Summary:Studies in recent decades show strong evidence of physical and biological changes in the Arctic tundra largely in response to exceptionally rapid rates of warming. Given the important implications of these changes on ecosystem services, hydrology, surface energy balance, carbon budgets, and climate feedbacks, research on the trends and patterns of these changes is becoming increasingly important and can help better constrain estimates of local, regional, and global impacts as well as inform mitigation and adaptation strategies. Despite this high need, scientific understanding of tundra ecology and change remains limited largely due to the inaccessibility of this region and less intensive study compared to other terrestrial biomes. A synthesis of existing datasets from past field studies can make field data more accessible and open up possibilities for collaborative research as well as for investigating and informing future studies. Here, we synthesize field datasets of vegetation, and active layer properties from the Alaskan tundra, one of the most well-studied tundra regions. Given the potential increasingly intensive fire regimes in the tundra, fire history and severity attributes have been added to data points where available. The resulting database is a resource that future investigators can employ to analyze spatial and temporal patterns in soil, vegetation, and fire disturbance-related environmental variables across the Alaskan tundra. This database, titled Synthesized Alaskan Tundra Field Database (SATFiD), can be accessed at the Oak Ridge National Laboratory Distributed Active Archive Center (ORNL DAAC) for Biogeochemical Dynamics (Chen et al., 2023: https://doi.org/10.3334/ORNLDAAC/2177 ).

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