Title: Geochemistry of Joey_core2 peat core from Canada
Citation: Camill, Philip (2021): Geochemistry of Joey_core2 peat core from Canada [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.928638
Study Site: Manitoba
Purpose: Climate warming may increase the size and frequency of fires in the boreal biome, possibly causing greater carbon release that amplifies warming. However, in peatlands, vegetation change may also control long-term fire and carbon accumulation, confounding simple relationships between climate, fire, and carbon accumulation.
Abstract: Rock/sediment depth, sample thickness, dry bulk density, total carbon, total nitrogen of a high-resolution peat core from the Past Global Changes - Carbon in Peat on Earth through Time (PAGES_C-PEAT) Project.
Supplemental Information Summary: Camill, Philip (2021): Age determination of Joey_core2 peat core from Canada [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.936582
Camill, Philip (2021): Calibrated ages of Joey_core2 peat core from Canada [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.930491
Research: Past Global Changes - Carbon in Peat on Earth through Time (PAGES_C-PEAT) Project
Further Info: Camill, Philip; Barry, Ann; Williams, Evie; Andreassi, Christian; Limmer, Jacob; Solick, Donald (2009): Climate-vegetation-fire interactions and their impact on long-term carbon dynamics in a boreal peatland landscape in northern Manitoba, Canada. Journal of Geophysical Research, 114(G4), https://doi.org/10.1029/2009jg001071
Status: Complete
Keywords:
soil carbon,
peat properties,
Bog,
Permafrost,
nitrogen,
Geographical coordinates: North: 55.47, South: 55.47 East: -98.16 West: -98.16
Bounding Temporal Extent: Start Date: 2001-07-01, End
Date: 2001-08-31
