The importance of interactions between snow, permafrost and vegetation dynamics in terrestrial carbon balance in circumpolar regions

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By Qianlai Zhuang1, Yiming Xu1

Purdue University

This data contains model output of net primary production (NPP), heterotrophic respiration (RH), foliage projection cover (FPC) and soil temperature.

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Version 1.0 - published on 04 Oct 2022 doi:10.4231/E1AD-DB33 - cite this Archived on 05 Nov 2022

Licensed under CC0 1.0 Universal

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soiltemp.PNG

Description

This project aims to quantify the snow and the canopy's influences on the carbon dynamics in circumpolar regions. We perform three sets of simulation. The model output reveals that the snow's warming effect will release more carbon into the atmosphere while the canopy's cooling effect will get carbon sequestered into the ecosystem.

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Tags

  1. Carbon
  2. EAPS
  3. EAPS (Dept)
  4. Permafrost
  5. Vegetation
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