Global change alters peatland carbon cycling through plant biomass allocation

Above- and belowground community linkages in boreal peatlands

(2020) Caitlyn L. Lyons et al.   PLANT ECOLOGY

Warming impacts on boreal fen CO2 exchange under wet and dry conditions

(2019) A.M. Laine et al.   GLOBAL CHANGE BIOLOGY

Rapid expansion of northern peatlands and doubled estimate of carbon storage

(2019) Jonathan E. Nichols et al.   Nature Geoscience

Vascular plant-mediated controls on atmospheric carbon assimilation and peat carbon decomposition under climate change

(2018) Konstantin Gavazov et al.   GLOBAL CHANGE BIOLOGY

Forecasting Responses of a Northern Peatland Carbon Cycle to Elevated CO2 and a Gradient of Experimental Warming

(2018) Jiang Jiang et al.   Journal of Geophysical Research-Biogeosciences

Ecosystem warming extends vegetation activity but heightens vulnerability to cold temperatures

(2018) Andrew D. Richardson et al.   NATURE

Short-term leaching dynamics of three peatland plant species reveals how shifts in plant communities may affect decomposition processes

(2017) Rosa Del Giudice et al.   GEODERMA

Responses of phenology and biomass production of boreal fens to climate warming under different water-table level regimes

(2017) Päivi Mäkiranta et al.   GLOBAL CHANGE BIOLOGY

Vegetation composition controls temperature sensitivity of CO 2 and CH 4 emissions and DOC concentration in peatlands

(2017) Fabien Leroy et al.   SOIL BIOLOGY & BIOCHEMISTRY

Climate change effects on peatland decomposition and porewater dissolved organic carbon biogeochemistry

(2016) Catherine M. Dieleman et al.   BIOGEOCHEMISTRY

Belowground plant biomass allocation in tundra ecosystems and its relationship with temperature

(2016) Peng Wang et al.   Environmental Research Letters

Seasonal changes and vertical distribution of root standing biomass of graminoids and shrubs at a Siberian tundra site

(2016) Peng Wang et al.   PLANT AND SOIL

Temperature response of soil respiration largely unaltered with experimental warming

(2016) Joanna C. Carey et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Contrasting growth responses of dominant peatland plants to warming and vegetation composition

(2015) Tom N. Walker et al.   OECOLOGIA

Warming favours small-bodied organisms through enhanced reproduction and compositional shifts in belowground systems

(2015) Zoë Lindo   SOIL BIOLOGY & BIOCHEMISTRY

Climate change reduces the capacity of northern peatlands to absorb the atmospheric carbon dioxide: The different responses of bogs and fens

(2014) Jianghua Wu et al.   GLOBAL BIOGEOCHEMICAL CYCLES

Climate change drives a shift in peatland ecosystem plant community: Implications for ecosystem function and stability

(2014) Catherine M. Dieleman et al.   GLOBAL CHANGE BIOLOGY

Elevated CO2 further lengthens growing season under warming conditions

(2014) Melissa Reyes-Fox et al.   NATURE

Warming effects on greenhouse gas fluxes in peatlands are modulated by vegetation composition

(2013) Susan E. Ward et al.   ECOLOGY LETTERS

Altered root traits due to elevated CO2: a meta-analysis

(2013) Ming Nie et al.   GLOBAL ECOLOGY AND BIOGEOGRAPHY

Do Root Exudates Enhance Peat Decomposition?

(2012) Nathan Basiliko et al.   GEOMICROBIOLOGY JOURNAL

Enhanced root exudation induces microbial feedbacks to N cycling in a pine forest under long-term CO2 fumigation

(2010) Richard P. Phillips et al.   ECOLOGY LETTERS

Increased belowground biomass and soil CO2fluxes after a decade of carbon dioxide enrichment in a warm-temperate forest

(2009) Robert B. Jackson et al.   ECOLOGY

Carbon respiration from subsurface peat accelerated by climate warming in the subarctic

(2009) Ellen Dorrepaal et al.   NATURE

RAPID CARBON RESPONSE OF PEATLANDS TO CLIMATE CHANGE

(2008) Scott D. Bridgham et al.   ECOLOGY

Soil respiration, root biomass, and root turnover following long-term exposure of northern forests to elevated atmospheric CO2and tropospheric O3

(2008) Kurt S. Pregitzer et al.   NEW PHYTOLOGIST