Nitrous oxide and methane fluxes from cattle excrement on C3 pasture and C4-dominated shortgrass steppe

•N2O emission factors for cattle urine and feces were not significantly different.•IPCC default emission factor not representative of shortgrass steppe N2O emissions.•CH4 uptake was greater on native rangeland compared to Bozoisky-select pasture.•CH4 uptake was greater from control plots relative to...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2016-06, Vol.225, p.104-115
Main Authors: Nichols, Kristopher L., Del Grosso, Stephen J., Derner, Justin D., Follett, Ronald F., Archibeque, Shawn L., Stewart, Catherine E., Paustian, Keith H.
Format: Article
Language:English
Subjects:
Feces
Greenhouse gas
Methane
Nitrous oxide
Shortgrass steppe
Urine
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Summary:•N2O emission factors for cattle urine and feces were not significantly different.•IPCC default emission factor not representative of shortgrass steppe N2O emissions.•CH4 uptake was greater on native rangeland compared to Bozoisky-select pasture.•CH4 uptake was greater from control plots relative to feces and urine patches. Cattle play a major role in nutrient cycling of grassland ecosystems through biomass removal and excrement deposition (urine and feces). We studied the effects of cattle excrement patches (urine at 430 and feces at 940kgNha−1) on nitrous oxide (N2O) and methane (CH4) fluxes using semi-static chambers on cool-season (C3), Bozoisky-select (Psathyrostachys juncea) pasture, and warm-season (C4)-dominated native rangeland of the shortgrass steppe (SGS) in northeastern Colorado. Nitrous oxide emission factors (EF; i.e., percent of added N emitted as N2ON) did not differ between urine and feces on the C4-dominated native rangeland (0.11 and 0.10%) and C3 pasture (0.13 and 0.10%). These EFs are substantially less than the Intergovernmental Panel on Climate Change (IPCC) Tier 1 Default EF (2%) for manure deposited on pasture, indicating that during dry years the IPCC Tier 1 Default EF would result in a significant overestimation of emissions from excrement patches deposited on SGS C4-dominated native rangeland and C3 pasture. Over the first year of the study (19 June 2012–18 June 2013), cumulative CH4 uptake was 38% greater for urine (−1.49 vs. −1.08kg CH4C ha−1) and 28% greater for control plots (−2.09 vs. −1.63kg CH4C ha−1) on C4-dominated native rangeland compared to C3 pasture. In contrast, feces patches were net sources of CH4 with emissions from the C3 pasture (0.64kg CH4C ha−1) 113% greater than the C4-dominated native rangeland (0.30kg CH4C ha−1). Conversion of C4-dominated native rangeland to C3 pasture can have long term effects on CH4 uptake; therefore consideration should be taken before implementing this management practice.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2016.03.026