Linkages between soil micro-site properties and CO 2 and N 2O emissions during a simulated thaw for a northern prairie Mollisol

Soil Biology and Biochemistry

Volumn 50, Issue , 2012, Pages 118-125

  Wick, Abbey F ^a   Phillips, Rebecca L ^b   Liebig, Mark A ^b   West, Mark ^c   Daniels, W Lee ^a  

^a VIRGINIA POLYTECHNIC INSTITUTE AND STATE UNIVERSITY   (United States)

^b U S DEPARTMENT OF AGRICULTURE   (United States)

^c AGRICULTURAL RESEARCH SERVICE   (United States)

Author keywords

Global warming; Greenhouse gases; Nitrogen; Particulate organic matter

Indexed keywords

CARBON POOL; EMISSION DATA; EXPONENTIAL EQUATIONS; FIRST ORDER; MOLLISOLS; NITROUS OXIDE; NORTH DAKOTA; NUTRIENT-USE EFFICIENCIES; ORGANIC SUBSTRATE; PARTICULATE ORGANIC MATTERS; ROOT LENGTH; ROOT MASS; SOIL CORES; SOIL DEPTH; SOIL PROFILES; SOIL PROPERTY; SOIL THAWING;

AGGREGATES; BIOGEOCHEMISTRY; BIOLOGICAL MATERIALS; GAS EMISSIONS; GLOBAL WARMING; GREENHOUSE GASES; LAKES; NITROGEN; NITROGEN OXIDES; ORGANIC COMPOUNDS; SOILS; SUBSTRATES; THAWING;

CARBON DIOXIDE;

CARBON DIOXIDE; CARBON EMISSION; GLOBAL WARMING; GREENHOUSE GAS; MACROAGGREGATE; MOLLISOL; NITROUS OXIDE; PARTICULATE ORGANIC MATTER; PRAIRIE; SOIL DEPTH; SOIL EMISSION; SOIL NITROGEN; SOIL PROFILE;

NORTH DAKOTA; UNITED STATES;

EID: 84859507424     PISSN: 00380717     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.soilbio.2012.03.010     Document Type: Article

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