Abstract
Using both historic records and CORINE land cover maps, we assessed the impact of land cover change on the stock of soil organic carbon (SOC) in the Republic of Ireland from 1851 to 2000. We identified ten principal land cover classes: arable land, forest, grassland, heterogeneous agricultural areas/other, nonvegetated semi-natural areas, peatland, suburban, urban, water bodies, and wetland. For each land cover class, the SOC stock was estimated as the product of SOC density and land cover area. These were summed to calculate a national SOC budget for the Republic of Ireland. The Republic of Ireland’s 6.94 million hectares of land have undergone considerable change over the past 150 years. The most striking feature is the decrease in arable land from 1.44 million ha in 1851 to 0.55 million ha in 2000. Over the same time period, forested land increased by 0.53 million ha. As of 2000, agricultural lands including arable land (7.85%), grassland (54.33%), and the heterogeneous agricultural areas/other class (7.91%) account for 70.09% of Irish land cover. We estimate that the SOC stock in the Republic of Ireland, to 1 m depth, has increased from 1,391 Tg in 1851 to 1,469 Tg in 2000 despite soil loss due to urbanization. This increase is largely due to the increase of forested land with its higher SOC stocks when compared to agricultural lands. Peatlands contain a disproportionate quantity of the SOC stock. Although peatlands only occupy 17.36% of the land area, as of 2000, they represented 36% of the SOC stock (to 1 m depth).
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References
Baes CF Jr, Goeller HE, Olson JS, Rotty RM (1977) Carbon dioxide and climate: the uncontrolled experiment. Am Sci 65:310–320
Batjes NH (1996) Total carbon and nitrogen in the soils of the world. Eur J Soil Sci 47:151–163
Beare MH, Hendrix PF, Coleman DC (1994) Water-stable aggregates and organic matter fractions in conventional- and no-tillage soils. Soil Sci Soc Am J 58:777–786
Bog Commissioners (1811–1814) Reports of the Commissioners appointed to enquire into the nature and extent of several bogs in Ireland and the practicability of draining and cultivation them. London
Bolin B (1970) The carbon cycle. Sci Am 233:124–132
Bossard M, Feranec J, Otahel J (2000) CORINE land cover technical guide, addendum 2000: technical report 40. European Environmental Agency, Copenhagen
Bradley RI, Milne R, Bell J, Lilly A, Jordan C, Higgins A (2005) A soil carbon and land use database for the United Kingdom. Soil Use Manage 21:363–369
Brogan JC (1966) Organic carbon in Irish pasture soils. Ir J Agric Res 5:169–176
Burke IC, Lauenroth WK, Coffin DP (1995) Soil organic matter recovery in semiarid grasslands: implications for the conservation reserve program. Ecol Appl 5:793–801
Byrne KA, Farrell EP (2005) The effect of afforestation on soil carbon dioxide emissions in blanket peatland in Ireland. Forestry 78:217–227
Byrne KA, Milne R (2006) Carbon stocks and sequestration in plantation forest in the Republic of Ireland. Forestry 79:361–369
Cambardella CA, Elliot ET (1992) Particulate soil organic matter changes across a grassland cultivation sequence. Soil Sci Soc Am J 56:777–783
Cannell MGR, Milne R, Hargreaves KJ, Brown TAW, Cruickshank MM, Bradley RI, Spencer T, Hope D, Billett MF, Adger WN, Subak S (1999) National inventories of terrestrial carbon sources and sinks, the UK experience. Clim Change 42:505–530
Census of Ireland (1864) The census of Ireland for the year 1861. Part V. General report. Her Majesty’s Stationery Office, London
Census of Ireland (1913) The census of Ireland for the year 1911. General report, with tables and appendix. Her Majesty’s Stationery Office, London
Central Statistics Office (1986) Statistical abstracts of Ireland 1982–1985. The Stationery Office, Dublin
Central Statistics Office (1989) Statistical abstracts of Ireland 1989. The Stationery Office, Dublin
Central Statistics Office (1991a) Agricultural statistics, June 1990. The Stationery Office, Dublin
Central Statistics Office (1991b) Census of agriculture, June 1991. The Stationery Office, Dublin
Central Statistics Office (1997) Statistical abstracts of Ireland 1996. The Stationery Office, Dublin
Central Statistics Office (2002) Statistical yearbook of Ireland 2002. The Stationery Office, Dublin
Central Statistics Office (2006) Statistical yearbook of Ireland 2006. The Stationery Office, Dublin
Coillte Teoranta (1999) Coillte’s forests: a vital resource. Coillte Teoranta, Dublin
Connolly J, Holden NM, Ward SM (2007) Mapping peatlands in Ireland using a rule-based methodology and digital data. Soil Sci Soc Am J 71:492–499
Cruickshank MM, Tomlinson RW, Devine PM, Milne RM (1998) Carbon in the vegetation and soils of Northern Ireland. Biology and environment. Proc R Ir Acad 98:9–21
Cruickshank MM, Tomlinson RW, Trew S (2000) Application of CORINE land-cover mapping to estimate carbon stored in the vegetation of Ireland. J Environ Manag 58:269–287
Department of Agriculture, Food, and Forestry (1996) Growing for the future—a strategic plan for the development of the forestry sector in Ireland. The Stationery Office, Dublin
Department of Industry and Commerce (1931) Statistical abstracts 1931. The Stationery Office, Dublin
Eswaran H, Berg EVD, Reich P (1993) Organic carbon in soils of the world. Soil Sci Soc Am J 57:192–194
Eswaran H, Reich PF, Kimble JM, Beinroth FH, Padmanabhan E, Moncharoen P (2000) Global carbon stocks. In: Lal R, Kimble JM, Eswaran H, Stewart BA (eds) Global climate change and pedogenic carbonates. Lewis, Boca Raton, Florida, pp 15–25
Fearnside PM, Barbosa RI (1998) Soil carbon changes from conversion of forest to pasture in Brazilian Amazonia. For Ecol Manag 108:147–166
Forest and Wildlife Service (1933–1975) Report of the Minister for Lands. The Stationery Office, Dublin
Forest and Wildlife Service (1975–1981) Report of the Minister for Fisheries and Forestry. The Stationery Office, Dublin
Forest Service (2000) Irish national forest standard. The Stationery Office, Dublin
Forest Service (2003) National report to the fourth session of the United Nations forum on forests, Ireland. Forest Service, Wexford, Ireland
Gardiner MJ, Radford T (1980) Soil associations of Ireland and their land use potential. Explanatory bulletin to soil map of Ireland. Soil survey bulletin no 36. An Foras Talu’ntais, Dublin
Gorham E (1991) Northern peatlands: role in the carbon cycle and probable response to climatic warming. Ecol Appl 1:182–195
Guo LB, Gifford RM (2002) Soil carbon stocks and land use change: a meta analysis. Glob Chang Biol 8:345–360
Hammond RF (1981) The peatlands of Ireland. Soil Survey Bulletin No 35. An Foras Talu’ntais, Dublin
Holmes KW, Chadwick OA, Kyriakidis PC, Silva de Filho EP, Soares JV, Roberts DA (2006) Large-area spatially explicit estimates of tropical soil carbon stocks and response to land-cover change. Glob Biogeochem Cycles 20:GB3004
Houghton RA, Skole DL (1990) Carbon. In: Turner BL II, Clark WC, Kates RW, Richards JF, Mathews JT, Meyer WB (eds) The earth as transformed by human action: global and regional changes in the biosphere over the past 300 years. Cambridge University Press, Cambridge, pp 393–408
Howard PJA, Loveland PJ, Bradley RI, Dry FT, Howard DM, Howard DC (1995) The carbon content of soil and its geographic distribution in Great Britain. Soil Use Manage 11:9–15
IPCC (2001) In: Houghton JT, Ding Y, Griggs DJ, Noguer M, vander Linden PJ, Dai X, Maskell K, Johnson CA (eds) Climate change 2001: the scientific basis. Cambridge University Press, Cambridge
Jenkinson DS, Harkness DD, Vance ED, Adams DE, Harrison AF (1992) Calculating net primary production and annual input of organic matter to soil from the amount and radiocarbon content of soil organic matter. Soil Biol Biochem 24:295–308
Jenny H (1994) Factors of soil formation: a system of quantitative pedology. Dover, New York, Originally published in 1941
Jobbagy EG, Jackson RB (2000) The vertical distribution of soil organic carbon and its relation to climate and vegetation. Ecol Appl 10:423–436
Johnston AE (1991) Soil fertility and soil organic matter. In: Wilson WS (ed) Advances in soil organic matter research: the impact of agriculture on the environment. The Royal Society of Chemistry, Cambridge, pp 297–314
Lal R (2004) Soil carbon sequestration impacts on global change and food security. Science 304:1623–1627
Lantz A, Lal R, Kimble J (2001) Land use effects on soil carbon pools in two major land resource areas of Ohio, USA. In: Stott DE, Mohtar RH and Steinhardt GC (eds) Sustaining the global farm. Selected papers from the 10th International Soils Conservation Organization meeting, May 1999. Purdue University, pp 499–502
Little D, Bolger T (1995) The effects of contrasting land uses on soil properties and animal communities in brown earth soils. Biology and environment. Proc R Ir Acad 95B:183–193
McGettigan M, Duffy P, Connolly N, O’Brien P (2006) National inventory report 2006: greenhouse gas emissions 1990–2004. Reported to the united nations framework convention on climate change. Environmental Protection Agency, Ireland
McGrath D (1973) Frequency distribution of the percentage of organic carbon in Irish tillage soils. Ir J Agric Res 12:109–111
McGrath D (1980) Organic carbon levels in Irish soils. In: Proceedings of land use seminar on soil degradation, Wageningen, October 1980
McGrath D, McCormack RJ (1999) Significance of heavy metal and organic micropollutants in soils: end of project report. Teagasc, Dublin, p 32
McGrath D, Zhang C (2003) Spatial distribution of soil organic carbon concentrations in grassland of Ireland. Appl Geochem 18:1629–1639
Murty D, Kirschbaum MF, McMurtrie RE, McGilvray H (2002) Does conversion of forest to agricultural land change soil carbon and nitrogen? A review of literature. Glob Chang Biol 8:105–123
Neeson E (1991) A history of Irish forestry. Lilliput and the Department of Energy, Dublin
O’Carroll N (1984) The forests of Ireland: history, distribution, and silviculture. Turoe, Dublin
O’Sullivan G (ed) (1994) In: Project report, CORINE land cover project (Ireland). Ordinance survey of Ireland, Dublin
Penman J, Gytarsky M, Hiraishi T, Krug T, Kruger D, Pipatti R, Buendia L, Miwa K, Ngara T, Tanabe K, Wagner F (eds) (2003) Intergovernmental panel on climate change: Good practice guidance for land use, land-use change and forestry. Institute for Global Environmental Strategies, Hayama, Japan
Post WM, Kwon KC (2000) Soil carbon sequestration and land-use change: processes and potential. Glob Chang Biol 6:317–327
Post WM, Emanuel WR, Zinke PJ, Stangenberger AG (1982) Soil carbon pools and world life zones. Nature 298:156–159
Post WM, Izaurralde RC, Mann LK, Bliss N (2001) Monitoring and verifying changes of organic carbon in soil. Clim Change 51:73–99
Renou F, Egan T, Wilson D (2006) Tomorrow’s landscapes: Studies in the after-uses of industrial cutaway peatlands in Ireland. Suo 57:97–107
Sanger LJ, Anderson JM, Little D, Bolger T (1997) Phenolic and carbohydrate signatures of organic matter in soils developed under grass and forest plantations following changes in land use. Eur J Soil Sci 48:311–317
Schlesinger WH (1995) An overview of the global carbon cycle. In: Lal R, Kimble J, Levine E, Stewart BA (eds) Soils and global change. Lewis, Boca Raton, Florida, pp 9–25
Sottocornola M, Kiely G (2005) An Atlantic bog is a modest CO2 sink. Geophys Res Lett 32:L23804, DOI 10.1029/2005GL024731
Stolbovoi V (2002) Carbon in Russian soils. Clim Change 55:131–156
Tomlinson RW (2005) Soil carbon stocks and changes in the Republic of Ireland. J Environ Manag 76:77–93
Tomlinson RW, Milne RM (2006) Soil carbon stocks and land cover in Northern Ireland from 1939 to 2000. Appl Geogr 26:18–39
Zhang C, McGrath D (2004) Geostatistical and GIS analyses on soil organic carbon concentrations in grassland of southern Ireland from two different periods. Geoderma 119:261–275
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Eaton, J.M., McGoff, N.M., Byrne, K.A. et al. Land cover change and soil organic carbon stocks in the Republic of Ireland 1851–2000. Climatic Change 91, 317–334 (2008). https://doi.org/10.1007/s10584-008-9412-2
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DOI: https://doi.org/10.1007/s10584-008-9412-2