Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets

Sean M.P. Cahoon; Patrick F. Sullivan; Gaius R. Shaver; Jeffrey M. Welker; Eric Post

doi:10.1111/j.1461-0248.2012.01865.x

Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets

Sean M.P. Cahoon, Patrick F. Sullivan, Gaius R. Shaver, Jeffrey M. Welker, Eric Post

Biology

Research output: Contribution to journal › Article › peer-review

92 Scopus citations

Abstract

Arctic and Boreal terrestrial ecosystems are important components of the climate system because they contain vast amounts of soil carbon (C). Evidence suggests that deciduous shrubs are increasing in abundance, but the implications for ecosystem C budgets remain uncertain. Using midsummer CO₂ flux data from 21 sites spanning 16° of latitude in the Arctic and Boreal biomes, we show that air temperature explains c. one-half of the variation in ecosystem respiration (ER) and that ER drives the pattern in net ecosystem CO₂ exchange across ecosystems. Woody sites were slightly stronger C sinks compared with herbaceous communities. However, woody sites with warm soils (> 10 °C) were net sources of CO₂, whereas woody sites with cold soils (< 10 °C) were strong sinks. Our results indicate that transition to a shrub-dominated Arctic will increase the rate of C cycling, and may lead to net C loss if soil temperatures rise.

Original language	English (US)
Pages (from-to)	1415-1422
Number of pages	8
Journal	Ecology Letters
Volume	15
Issue number	12
DOIs	https://doi.org/10.1111/j.1461-0248.2012.01865.x
State	Published - Dec 2012

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics

UN SDGs

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10.1111/j.1461-0248.2012.01865.x

Cite this

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title = "Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets",

abstract = "Arctic and Boreal terrestrial ecosystems are important components of the climate system because they contain vast amounts of soil carbon (C). Evidence suggests that deciduous shrubs are increasing in abundance, but the implications for ecosystem C budgets remain uncertain. Using midsummer CO2 flux data from 21 sites spanning 16° of latitude in the Arctic and Boreal biomes, we show that air temperature explains c. one-half of the variation in ecosystem respiration (ER) and that ER drives the pattern in net ecosystem CO2 exchange across ecosystems. Woody sites were slightly stronger C sinks compared with herbaceous communities. However, woody sites with warm soils (> 10 °C) were net sources of CO2, whereas woody sites with cold soils (< 10 °C) were strong sinks. Our results indicate that transition to a shrub-dominated Arctic will increase the rate of C cycling, and may lead to net C loss if soil temperatures rise.",

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AU - Cahoon, Sean M.P.

AU - Sullivan, Patrick F.

AU - Shaver, Gaius R.

AU - Welker, Jeffrey M.

AU - Post, Eric

PY - 2012/12

Y1 - 2012/12

N2 - Arctic and Boreal terrestrial ecosystems are important components of the climate system because they contain vast amounts of soil carbon (C). Evidence suggests that deciduous shrubs are increasing in abundance, but the implications for ecosystem C budgets remain uncertain. Using midsummer CO2 flux data from 21 sites spanning 16° of latitude in the Arctic and Boreal biomes, we show that air temperature explains c. one-half of the variation in ecosystem respiration (ER) and that ER drives the pattern in net ecosystem CO2 exchange across ecosystems. Woody sites were slightly stronger C sinks compared with herbaceous communities. However, woody sites with warm soils (> 10 °C) were net sources of CO2, whereas woody sites with cold soils (< 10 °C) were strong sinks. Our results indicate that transition to a shrub-dominated Arctic will increase the rate of C cycling, and may lead to net C loss if soil temperatures rise.

AB - Arctic and Boreal terrestrial ecosystems are important components of the climate system because they contain vast amounts of soil carbon (C). Evidence suggests that deciduous shrubs are increasing in abundance, but the implications for ecosystem C budgets remain uncertain. Using midsummer CO2 flux data from 21 sites spanning 16° of latitude in the Arctic and Boreal biomes, we show that air temperature explains c. one-half of the variation in ecosystem respiration (ER) and that ER drives the pattern in net ecosystem CO2 exchange across ecosystems. Woody sites were slightly stronger C sinks compared with herbaceous communities. However, woody sites with warm soils (> 10 °C) were net sources of CO2, whereas woody sites with cold soils (< 10 °C) were strong sinks. Our results indicate that transition to a shrub-dominated Arctic will increase the rate of C cycling, and may lead to net C loss if soil temperatures rise.

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Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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