Revised estimates of the carbon mitigation potential of UK agricultural land

. The soil sequestration components of recent estimates of the carbon mitigation potential of UK agricultural land were calculated on the basis of a percentage change to the soil carbon stock present in the soil. Recent data suggest that the carbon stock of soil in UK arable land has been overestima...

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Published in	Soil use and management Vol. 16; no. 4; pp. 293 - 295
Main Authors	Smith, P., Milne, R., Powlson, D.S., Smith, J.U., Falloon, P., Coleman, K.
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.12.2000 CAB International
Subjects	agricultural soils Agronomy. Soil science and plant productions Applied sciences Atmospheric pollution Biochemistry Biochemistry and biology Biological and medical sciences carbon Chemical, physicochemical, biochemical and biological properties Climatic change Dispersed sources and other emission Exact sciences and technology Fundamental and applied biological sciences. Psychology organic carbon Physics, chemistry, biochemistry and biology of agricultural and forest soils Pollution Pollution sources. Measurement results Soil science United Kingdom Europe Gases Soils Organic carbon Gas emission Greenhouse gas Carbon dioxide Air pollution Agriculture Chemical concentration POLLUTION BY AGRICULTURE Climate modification
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Abstract	. The soil sequestration components of recent estimates of the carbon mitigation potential of UK agricultural land were calculated on the basis of a percentage change to the soil carbon stock present in the soil. Recent data suggest that the carbon stock of soil in UK arable land has been overestimated, meaning that potential soil carbon sequestration rates were also overestimated. Here, we present a new estimate of the carbon stock in UK arable land, and present revised estimates for the carbon mitigation potential of UK agricultural land. The stock of soil organic carbon in UK arable land (0–30 cm) is estimated to be 562 Tg, about half of the previous estimate. Consequently, the soil carbon sequestration component of each mitigation option is reduced by about half of previously published values. Since above‐ground carbon accumulation and fossil fuel carbon savings remain unchanged by these new soil carbon data, options with a significant non‐soil carbon mitigation component are reduced by less than those resulting from soil carbon sequestration alone. The best single mitigation option (bioenergy crop production on surplus arable land) accounts for 3.5 Tg C yr−1, (2.2% of the UK's 1990 CO2‐carbon emissions), whilst an optimal combined land‐use mitigation option accounts for 6.1 Tg C yr−1 (3.9% of the UK's 1990 CO2‐carbon emissions). These revised figures suggest that through manipulation of arable land, the UK could, at best, meet 49% of its contribution to the EU's overall Kyoto CO2‐carbon emission reduction target (8% of 1990 emissions), and 31% of the greater target accepted by the UK (12.5%). Even these reduced estimates show a significant carbon mitigation potential for UK arable land.
AbstractList	The soil sequestration components of recent estimates of the carbon mitigation potential of UK agricultural land were calculated on the basis of a percentage change to the soil carbon stock present in the soil. Recent data suggest that the carbon stock of soil in UK arable land has been overestimated, meaning that potential soil carbon sequestration rates were also overestimated. Here, we present a new estimate of the carbon stock in UK arable land, and present revised estimates for the carbon mitigation potential of UK agricultural land. The stock of soil organic carbon in UK arable land (0–30 cm) is estimated to be 562 Tg, about half of the previous estimate. Consequently, the soil carbon sequestration component of each mitigation option is reduced by about half of previously published values. Since above‐ground carbon accumulation and fossil fuel carbon savings remain unchanged by these new soil carbon data, options with a significant non‐soil carbon mitigation component are reduced by less than those resulting from soil carbon sequestration alone. The best single mitigation option (bioenergy crop production on surplus arable land) accounts for 3.5 Tg C yr −1 , (2.2% of the UK's 1990 CO 2 ‐carbon emissions), whilst an optimal combined land‐use mitigation option accounts for 6.1 Tg C yr −1 (3.9% of the UK's 1990 CO 2 ‐carbon emissions). These revised figures suggest that through manipulation of arable land, the UK could, at best, meet 49% of its contribution to the EU's overall Kyoto CO 2 ‐carbon emission reduction target (8% of 1990 emissions), and 31% of the greater target accepted by the UK (12.5%). Even these reduced estimates show a significant carbon mitigation potential for UK arable land. . The soil sequestration components of recent estimates of the carbon mitigation potential of UK agricultural land were calculated on the basis of a percentage change to the soil carbon stock present in the soil. Recent data suggest that the carbon stock of soil in UK arable land has been overestimated, meaning that potential soil carbon sequestration rates were also overestimated. Here, we present a new estimate of the carbon stock in UK arable land, and present revised estimates for the carbon mitigation potential of UK agricultural land. The stock of soil organic carbon in UK arable land (0–30 cm) is estimated to be 562 Tg, about half of the previous estimate. Consequently, the soil carbon sequestration component of each mitigation option is reduced by about half of previously published values. Since above‐ground carbon accumulation and fossil fuel carbon savings remain unchanged by these new soil carbon data, options with a significant non‐soil carbon mitigation component are reduced by less than those resulting from soil carbon sequestration alone. The best single mitigation option (bioenergy crop production on surplus arable land) accounts for 3.5 Tg C yr−1, (2.2% of the UK's 1990 CO2‐carbon emissions), whilst an optimal combined land‐use mitigation option accounts for 6.1 Tg C yr−1 (3.9% of the UK's 1990 CO2‐carbon emissions). These revised figures suggest that through manipulation of arable land, the UK could, at best, meet 49% of its contribution to the EU's overall Kyoto CO2‐carbon emission reduction target (8% of 1990 emissions), and 31% of the greater target accepted by the UK (12.5%). Even these reduced estimates show a significant carbon mitigation potential for UK arable land.
Author	Smith, J.U. Smith, P. Coleman, K. Milne, R. Powlson, D.S. Falloon, P.
Author_xml	– sequence: 1 givenname: P. surname: Smith fullname: Smith, P. organization: Soil Science Department, IACR-Rothamsted, Harpenden, Herts AL5 2JQ, UK. Present address: Department of Plant & Soil Science, University of Aberdeen, Cruikshank Building, St. Machar Drive, Aberdeen, AB24 3UU, UK – sequence: 2 givenname: R. surname: Milne fullname: Milne, R. organization: Centre for Ecology & Hydrology, Bush Estate, Penicuik, Midlothian, EH26 0QB, UK – sequence: 3 givenname: D.S. surname: Powlson fullname: Powlson, D.S. organization: Soil Science Department, IACR-Rothamsted, Harpenden, Herts AL5 2JQ, UK. Present address: Department of Plant & Soil Science, University of Aberdeen, Cruikshank Building, St. Machar Drive, Aberdeen, AB24 3UU, UK – sequence: 4 givenname: J.U. surname: Smith fullname: Smith, J.U. organization: Soil Science Department, IACR-Rothamsted, Harpenden, Herts AL5 2JQ, UK. Present address: Department of Plant & Soil Science, University of Aberdeen, Cruikshank Building, St. Machar Drive, Aberdeen, AB24 3UU, UK – sequence: 5 givenname: P. surname: Falloon fullname: Falloon, P. organization: Soil Science Department, IACR-Rothamsted, Harpenden, Herts AL5 2JQ, UK. Present address: Department of Plant & Soil Science, University of Aberdeen, Cruikshank Building, St. Machar Drive, Aberdeen, AB24 3UU, UK – sequence: 6 givenname: K. surname: Coleman fullname: Coleman, K. organization: Soil Science Department, IACR-Rothamsted, Harpenden, Herts AL5 2JQ, UK. Present address: Department of Plant & Soil Science, University of Aberdeen, Cruikshank Building, St. Machar Drive, Aberdeen, AB24 3UU, UK
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Cites_doi	10.1046/j.1365-2486.2000.00331.x 10.1111/j.1365-2389.1996.tb01386.x 10.1017/S0021859600085567 10.1006/jema.1995.0118 10.1111/j.1475-2743.1995.tb00488.x 10.1111/j.1475-2743.2000.tb00162.x
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References_xml	– volume: 11 start-page: 9 year: 1995 end-page: 15 article-title: The carbon content of soil and its geographical distribution in Great Britain publication-title: Soil Use and Management – volume: 98B start-page: 9 year: 1998 end-page: 21 article-title: Carbon in the vegetation and soils of Northern Ireland publication-title: Biology and Environment: Proceedings of the Royal Irish Academy – start-page: 259 year: 1996 – volume: 6 start-page: 525 year: 2000b end-page: 539 article-title: Meeting Europe's climate change commitments: quantitative estimates of the potential for carbon mitigation by agriculture publication-title: Global Change Biology – volume: 121 start-page: 363 year: 1993 end-page: 379 article-title: Modelling the fate of nitrogen in crop and soil in the years following application of N‐labelled fertilizer to winter wheat publication-title: Journal of Agricultural Science – volume: 49 start-page: 413 year: 1997 end-page: 433 article-title: Carbon in the vegetation and soils of Great Britain publication-title: Journal of Environmental Management – volume: 47 start-page: 151 year: 1996 end-page: 163 article-title: Total carbon and nitrogen in the soils of the world publication-title: European Journal of Soil Science – volume: 16 start-page: 1 year: 2000a end-page: 11 article-title: Meeting the UK's climate change commitments: options for carbon mitigation on agricultural land publication-title: Soil Use and Management – start-page: 505 year: 1994 end-page: 584 – start-page: 259 volume-title: Soil Organic Matter Network (SOMNET): 1996 Model and Experimental Metadata year: 1996 ident: e_1_2_1_8_1 contributor: fullname: Smith P. – ident: e_1_2_1_10_1 doi: 10.1046/j.1365-2486.2000.00331.x – ident: e_1_2_1_2_1 doi: 10.1111/j.1365-2389.1996.tb01386.x – volume: 98 start-page: 9 year: 1998 ident: e_1_2_1_4_1 article-title: Carbon in the vegetation and soils of Northern Ireland publication-title: Biology and Environment: Proceedings of the Royal Irish Academy contributor: fullname: Cruickshank MM. – ident: e_1_2_1_3_1 doi: 10.1017/S0021859600085567 – ident: e_1_2_1_7_1 doi: 10.1006/jema.1995.0118 – ident: e_1_2_1_5_1 doi: 10.1111/j.1475-2743.1995.tb00488.x – ident: e_1_2_1_9_1 doi: 10.1111/j.1475-2743.2000.tb00162.x – start-page: 505 volume-title: Trends '93: A Compendium of Data on Global Change year: 1994 ident: e_1_2_1_6_1 contributor: fullname: Marland G.
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SubjectTerms	agricultural soils Agronomy. Soil science and plant productions Applied sciences Atmospheric pollution Biochemistry Biochemistry and biology Biological and medical sciences carbon Chemical, physicochemical, biochemical and biological properties Climatic change Dispersed sources and other emission Exact sciences and technology Fundamental and applied biological sciences. Psychology organic carbon Physics, chemistry, biochemistry and biology of agricultural and forest soils Pollution Pollution sources. Measurement results Soil science
Title	Revised estimates of the carbon mitigation potential of UK agricultural land
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