Your search keyword '"Raynolds, Martha"' showing total 4 results

1. Ecosystem functional types of the circumpolar Arctic tundra based on the seasonal dynamics of vegetation productivity

Author

Armstrong, Amanda H, primary, Alcaraz-Segura, Domingo, additional, Raynolds, Martha K, additional, and Epstein, Howard E, additional

Published

2024

2. Drivers of heterogeneity in tundra vegetation productivity on the Yamal Peninsula, Siberia, Russia

Author

Tassone, Morgan S, Epstein, Howard E, Armstrong, Amanda H, Bhatt, Uma S, Frost, Gerald V, Heim, Birgit, Raynolds, Martha K, Walker, Donald A, Tassone, Morgan S, Epstein, Howard E, Armstrong, Amanda H, Bhatt, Uma S, Frost, Gerald V, Heim, Birgit, Raynolds, Martha K, and Walker, Donald A

Abstract

Abstract The direction and magnitude of tundra vegetation productivity trends inferred from the normalized difference vegetation index (NDVI) have exhibited spatiotemporal heterogeneity over recent decades. This study examined the spatial and temporal drivers of Moderate Resolution Imaging Spectroradiometer Max NDVI (a proxy for peak growing season aboveground biomass) and time-integrated (TI)-NDVI (a proxy for total growing season productivity) on the Yamal Peninsula, Siberia, Russia between 2001 and 2018. A suite of remotely-sensed environmental drivers and machine learning methods were employed to analyze this region with varying climatological conditions, landscapes, and vegetation communities to provide insight into the heterogeneity observed across the Arctic. Summer warmth index, the timing of snowmelt, and physiognomic vegetation unit best explained the spatial distribution of Max and TI-NDVI on the Yamal Peninsula, with the highest mean Max and TI-NDVI occurring where summer temperatures were higher, snowmelt occurred earlier, and erect shrub and wetland vegetation communities were dominant. Max and TI-NDVI temporal trends were positive across the majority of the Peninsula (57.4% [5.0% significant] and 97.6% [13.9% significant], respectively) between 2001 and 2018. Max and TI-NDVI trends had variable relationships with environmental drivers and were primarily influenced by coastal-inland gradients in summer warmth and soil moisture. Both Max and TI-NDVI were negatively impacted by human modification, highlighting how human disturbances are becoming an increasingly important driver of Arctic vegetation dynamics. These findings provide insight into the potential future of Arctic regions experiencing warming, moisture regime shifts, and human modification, and demonstrate the usefulness of considering multiple NDVI metrics to disentangle the effects of individual drivers across heterogeneous landscapes. Further, the spatial het

Published

2024

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

Author

Zhu, Xiaoran, Chen, Dong, Kogure, Maruko, Hoy, Elizabeth, Berner, Logan T., Breen, Amy L., Chatterjee, Abhishek, Davidson, Scott J., Frost, Gerald V., Hollingsworth, Teresa N., Iwahana, Go, Jandt, Randi R., Kade, Anja N., Loboda, Tatiana V., Macander, Matt J., Mack, Michelle, Miller, Charles E., Miller, Eric A., Natali, Susan M., and Raynolds, Martha K.

Subjects

TUNDRA ecology, CLIMATE feedbacks, DATABASES, SURFACE energy, FIELD research, TUNDRAS

Abstract

Studies in recent decades have shown strong evidence of physical and biological changes in the Arctic tundra, largely in response to rapid rates of warming. Given the important implications of these changes for 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 great need, scientific understanding of tundra ecology and change remains limited, largely due to the inaccessibility of this region and less intensive studies 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 potentially increasing 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 the 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: 10.3334/ORNLDAAC/2177). [ABSTRACT FROM AUTHOR]

Published

2024

4. Drivers of heterogeneity in tundra vegetation productivity on the Yamal Peninsula, Siberia, Russia

Author

Tassone, Morgan Shelby, primary, Epstein, Howard E, additional, Armstrong, Amanda H, additional, Bhatt, Uma S, additional, Frost, Gerald V, additional, Heim, Birgit, additional, Raynolds, Martha K, additional, and Walker, Donald A, additional

Published

2024