Nitrous oxide and methane emissions from grassland treated with bark- or sawdust-containing manure at different rates
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- Mori Akinori MORI Akinori
- National Institute of Livestock and Grassland Science
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- Hojito Masayuki HOJITO Masayuki
- National Institute of Livestock and Grassland Science
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Author(s)
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- Mori Akinori MORI Akinori
- National Institute of Livestock and Grassland Science
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- Hojito Masayuki HOJITO Masayuki
- National Institute of Livestock and Grassland Science
Abstract
On the main Japanese island of Honshu, bark or sawdust is often added to cattle excreta as part of the composting process. Dairy farmers sometimes need to dispose of manure that is excess to their requirements by spreading it on their grasslands. We assessed the effect of application of bark- or sawdust-containing manure at different rates on annual nitrous oxide (N_2O) and methane (CH_4) emissions from a grassland soil. Nitrous oxide and CH_4 fluxes from an orchardgrass (Dactylis glomerata L.) grassland that received this manure at 0, 50, 100, 200, or 300Mgha^<-1>yr^<-1> were measured over a two-year period by using closed chambers. Two-way analysis of variance (ANOVA) was employed to examine the effect of annual manure application rates and years on annual N_2O and CH_4 emissions. Annual N_2O emissions ranged from 0.47 to 3.03kgNha^<-1>yr^<-1> and increased with increasing manure application rate. Nitrous oxide emissions during the 140-day period following manure application increased with increasing manure application rate, with the total nitrogen concentration in the manure, and with cumulative precipitation during the 140-day period. However, manure application rate did not affect the N_2O emission factors of the manure. The overall average N_2O emission factor was 0.068%. Annual CH_4 emissions ranged from -1.12 to 0.01kgCha^<-1>yr^<-1>. The annual manure application rate did not affect annual CH_4 emissions.
Journal
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- Soil science and plant nutrition
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Soil science and plant nutrition 57(1), 138-149, 2011-02-01
Japanese Society of Soil Science and Plant Nutrition
References: 29
-
1
- <no title>
-
Greenhouse Gas Inventory Office of Japan (GIO)
National Greenhouse Gas Inventory Report of Japan, 2010
Cited by (1)
-
2
- N_2O Emissions from managed soils, and CO_2 emissions from lime and urea application
-
Intergovernmental Panel on Climate Change (IPCC)
2006 IPCC Guidelines for National Greenhouse Gas Inventories : Agriculture, Forestry and other Land Use 4, 11.11, 2006
Cited by (1)
-
3
- Contribution of working groups I, II and III to the fourth assessment report of the intergovernmental panel on climate change
-
Intergovernmental Panel on Climate Change (IPCC)
Climate Change 2007, Synthesis Report 36, 2007
Cited by (1)
-
4
- Classification and characteristics of soils at the National Grassland Research Institute
-
KURASHIMA K
Misc. Publ. Natl. Grassl. Res. Inst. 3, 1-47, 1993
Cited by (1)
-
5
- <no title>
-
Ministry of Agriculture Forestry and Fisheries (MAFF)
Grassland Management Guideline, Soil and Fertilizer Management for Grassland, 141-143, 2007
Cited by (1)
-
6
- Meteorological observation in National Grassland Research Institute
-
National Grassland Research Institute (NGRI)
Misc. Publ. Natl. Grassl. Res. Inst. 4, 3-5, 2001
Cited by (1)
-
7
- <no title>
-
SHIBATA M
Animal Husbandry and Meteorological Phenomena, 160-162, 2010
Cited by (1)
-
8
- <no title>
-
Tochigi Prefectural Government
Fertilizer Recommendations for Agricultural Crops, 57-58, 2007
Cited by (1)
-
9
- <no title>
-
United States Department of Agriculture (USDA)
Key to Soil Taxonomy, 1999
Cited by (1)
-
10
- Estimation of Nitrogen Loading in Japanese Prefectures and Scenario Testing of Abatement Strategies [in Japanese]
-
HOJITO Masayuki , IKEGUCHI Atsuo , KOHYAMA Kazunori , SHIMADA Kazuhiro , OGINO Akifumi , MISHIMA Shin-ichiro , KAKU Koichi
Japanese journal of the science and plant nutrition 74(4), 467-474, 2003-08-05
JASI References (43) Cited by (23)
-
11
- Effect of chemical fertilizer and manure application on N_2O emission from reed canary grassland in Hokkaido, Japan
-
JIN Tao , SHIMIZU Mariko , MARUTANI Satoru , DESYATKIN Alexey R. , IIZUKA Natsumi , HATA Hiroshi , HATANO Ryusuke
Soil science and plant nutrition 56(1), 53-65, 2010-02-01
-
12
- Grassland renovation increases N_2O emission from a volcanic grassland soil in Nasu, Japan
-
MORI Akinori , HOJITO Masayuki
Soil Science and Plant Nutrition 53(6), 812-818, 2007-12-01
References (30) Cited by (4)
-
13
- N_2O and CH_4 fluxes from a volcanic grassland soil in Nasu, Japan : Comparison between manure plus fertilizer plot and fertilizer-only plot
-
MORI Akinori , HOJITO Masayuki , SHIMIZU Mariko , MATSUURA Shoji , MIYAJI Tomoko , HATANO Ryusuke
Soil Science and Plant Nutrition 54(4), 606-617, 2008-08-01
References (40) Cited by (6)
-
14
- No significant difference in N_2O emission, fertilizer-induced N_2O emission factor and CH_4 absorption between anaerobically digested cattle slurry and chemical fertilizer applied timothy (Phleum pratense L.) sward in central Hokkaido, Japan
-
SAWAMOTO Takuji , YOSHIDA Ryou , ABE Kotomi , MATSUNAKA Teruo
Soil science and plant nutrition 56(3), 492-502, 2010-06-01
-
15
- Effect of organic matter application on N_2O, NO, and NO_2 fluxes from an Andisol field
-
AKIYAMA H
Global Biogeochem. Cycles 17, 1100, 2003
DOI Cited by (7)
-
16
- Inhibitory effect of nitrate on reduction of N_2O to N_2 by soil microorganisms
-
BLACKMER A. M.
Soil Biol. Biochem. 10, 187-191, 1978
Cited by (2)
-
17
- Methane fluxes following slurry applications to grassland soils : Laboratory experiments
-
CHADWICK D. R.
Agric. Ecosys. Environ. 63, 51-60, 1997
Cited by (3)
-
18
- Nitrous oxide and methane emissions following applications of animal manures to grassland
-
CHADWICK DR
J. Environ. Qual. 29, 277-287, 2000
Cited by (3)
-
19
- Nitrous oxide from soil denitrification : Factors controlling its biological production
-
FIRESTONE M. K.
Science 208, 749-751, 1980
Cited by (8)
-
20
- Modeling the effects of fertilizer application rate on nitrous oxide emissions
-
GRANT RF
Soil Sci. Soc. Am. J. 70, 235-248, 2006
Cited by (1)
-
21
- Long-term effects of nitrogen fertilization on methane oxidation in soil of the Broadbalk Wheat Experiment
-
HUTSCH B. W.
Soil Biol. Biochem. 25, 1307-1315, 1993
Cited by (6)
-
22
- Patterns of methane emission from excreta of grazing animals
-
JARVIS SC
Soil. Biol. Biochem. 27, 1581-1588, 1995
Cited by (1)
-
23
- Methane and nitrous oxide fluxes in native, fertilized and cultivated grasslands
-
MOSIER A.
Nature 350, 330-332, 1991
DOI Cited by (12)
-
24
- Nitrous oxide (N_2O) : the dominanat ozone-depleting substance emitted in the 21st century
-
RAVISHANKARA A. R.
Nature 326, 123-125, 2009
Cited by (12)
-
25
- Nitrous oxide and methane emissions from pig slurry amended soils
-
SOMMER SG
Soil Biol. Biochem. 28, 1541-1544, 1996
Cited by (1)
-
26
- Nitrous oxide emissions from silage maize fields under different mineral nitrogen fertilizer and slurry applications
-
VAN GROENIGEN JW
Plant Soil 263, 101-111, 2004
DOI Cited by (4)
-
27
- Nitrous oxide emission from animal manure applied to soil under controlled conditions
-
VELTHOF GL
Biol. Fertil. Soils 37, 221-230, 2003
Cited by (1)
-
28
- Effects of type and amount of applied nitrogen fertilizer on nitrous oxide fluxes from intensively managed grassland
-
VELTHOF GL
Nutr. Cycl. Agroecosyst. 46, 257-267, 1997
Cited by (2)
-
29
- Methane emission and uptake from soils as influenced by excreta deposition from grazing animals
-
YAMULKI S
J. Environ. Qual. 28, 676-682, 1999
Cited by (2)