Abstract
A pilot cropland carbon sequestration program within north central Montana has allowed farmers to receive carbon credit for management adjustments associated with changing from tillage-based agricultural systems to no-till. Carbon credit can also be obtained by adopting conservation reserve, where cropland is planted into perennial vegetation. Summer fallowing is also considered within the crediting process as credit is not given in years that a field is left un-vegetated. The carbon sequestration program has been advocated as a means to mitigate climate change while providing an added source of income for Montana farmers. There is lack of data, however, pertaining to the percentage of lands within this region that have not converted to no-till management, lands under certain crop intensities (e.g. those that are cropped every growing season vs. those that use a fallow-crop-fallow system), or cropland that have converted to perennial vegetation outside of the popular Conservation Reserve Program. Data is also sparse concerning the amount of soil organic carbon that might be sequestered given a conversion to no-till or conservation reserve. This study established regional percentage estimates of cropland under no-till, various degrees of crop intensity, and conservation reserve within north central Montana. Literature-based carbon sequestration estimates were used to generate carbon gain data associated with the conversation to no-till and to conservation reserve. These estimates were then applied to the area-based cropland statistics to estimate potential regional carbon sequestration associated with these management changes.
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References
Aase JK, Pikul JL (1995) Crop and soil response to long-term practices in the northern Great Plains. Agron J 87:652–656
Angus JF, van Herwaarden AF (2001) Increasing water use and water use efficiency in dryland wheat. Agron J 93:290–298
Bachu S (2008) CO2 storage in geological media: role, means, status, and barriers to deployment. Prog Energy Combust Sci 34:254–273
Baer SG, Rice CW, Blair JM (2000) Assessment of soil quality in fields with short and long term enrollment in the CRP. J Soil Water Conserv 33:142–152
Barrett EC, Curtis LF (1999) Monitoring the environment. Introduction to Environmental Remote Sensing. Stanley Thornes, Gloucester, p 457
Bayon R, Hawn A, Hamilton K (2007) Voluntary carbon markets: an international business guide to what they are and how they work. Earthscan, London, p 164
Benz UC, Hofmann P, Willhauck G et al (2004) Multi-resolution, object-oriented fuzzy analysis of remote sensing data for GIS-ready information. ISPRS J Photogramm Remote Sensing 58:239–258
Biradar CM, Thenkabail PS, Noojipady P et al (2009) A global map of rainfed cropland areas (GMRCA) at the end of last millennium using remote sensing. Int J Appl Earth Obs Geoinf 11:114–129
Black AL (1973) Soil property changes associated with crop residue management in a wheat-fallow rotation. Proc SSSA 37:943–946
Black AL, Tanaka DL (1997) A conservation tillage-cropping system study in the Northern Great Plains of the United States. In: Paul EA, Elliott ET, Paustian K, Cole C V (eds) Soil Organic Matter in Temperate Agroecosystems. CRC, Boca Raton, pp 335–340
Bricklemyer RS (2003) Sensitivity of the Century model for estimating sequestered soil carbon using coarse and fine-scale map data sources in north central Montana. MS Thesis, Montana State University, Bozeman, p 136
Bricklemyer RS, Miller PR, Turk PJ et al (2007) Sensitivity of the Century model to scale-related soil texture variability. Soil Sci Soc Am J 71:784–792
Burke IC, Lauenroth WK, Coffin DP (1995) Soil organic matter recovery in semiarid grasslands: implications for the conservation reserve program. Ecol Appl 3:793–801
Campbell CA, Selles F, Lafond GP, Zentner RP (2001) Adopting zero tillage management: impact on soil C and N under long-term crop rotations in a thin Black Chernozem. Can J Soil Sci 81:139–148
Capalbo SM (2005) Big Sky Carbon Sequestration Partnership phase II: proposal summary and overview. Big Sky Carbon Sequestration Partnership, 7 pp
CCAC (2007) Montana climate change action plan: final report of the Governor’s climate change advisory committee. The Montana State Climate Change Advisory Committee, p 93
CCX (2008a) Overview and frequently asked questions: Chicago Climate Exchange offsets for carbon capture and storage in agricultural soils. Chicago Climate Exchange White Pages, p 12
CCX (2008b) CCX agricultural soil carbon sequestration offset project guidelines. Chicago Climate Exchange White Pages, p 26
CCX (2008c) CCX agricultural grass soil carbon sequestration offset project guideline. Chicago Climate Exchange White Pages, p 12
Cohen WB, Goward SN (2004) Landsat’s role in ecological applications of remote sensing. BioScience 54:535–545
Coleman K, Jenkinson DS (1996) RothC-26.2-A model for the turnover of carbon in soil. In: Powlson DS, Smith JU (eds) Evaluation of soil organic matter models using existing, long-term datasets. NATO ASI Series I, vol 38. Springer, Berlin, pp 237–246
CTIC (2004) Montana cropland conservation tillage statistics by county. Conservation Technology Information Center, West Lafayette
Dormaar JF, Naeth MA, Willms WD, Chanasyk DS (1995) Effect of native prairie, Crested wheatgrass (Agropyron cristatum (L.) Gaertn.) Russian wildrye (Elymus Junceus Fisch.) on soil chemical properties. J Range Manage 48:258–263
Egbert SL, Lee RY, Price KP, Boyce R (1998) Mapping conservation reserve program (CRP) grasslands using multi-seasonal Thematic Mapper imagery. Geocarto Int 13:1010–6049
Egbert SL, Park S, Price KP et al (2002) Using conservation reserve program maps derived from satellite imagery to characterize landscape structure. Comput Electron Agric 37:41–156
Eve MD, Sperow M, Paustian K, Follett RF (2002) National-scale estimation of changes in soil carbon stocks on agricultural lands. Environ Pollut 116:431–438
Figueroa JD, Fout T, Plasynski S, McIlvried H, Srivastava RD (2008) Advances in CO2 capture technology—the US Department of Energy’s Carbon Sequestration Program. Int J Greenhouse Gas Control 2:9–20
Follett RF (2001) Soil management concepts and carbon sequestration in cropland soils. Soil Till Res 61:77–92
Follett RF, McConkey B (2000) The role of cropland agriculture for C sequestration in the Great Plains. Proc Great Plains Soil Fertility Conference 8:1–15
Gallego FJ (2004) Remote sensing and land cover area estimation. Int J Remote Sens 25:3019–3047
Gebhart DL, Johnson HB, Mayeux HS, Polley HW (1994) The CRP increases soil organic carbon. J Soil Water Conserv 49:488–492
Gehl RJ, Rice CW (2007) Emerging technologies for in situ measurement of soil carbon. Climatic Change 80:43–54
Halvorson AD, Wienhold BJ, Black AL (2002) Tillage, nitrogen, and cropping system effects on soil carbon sequestration. Soil Sci Soc Am J 66:906–912
HPRCC (2008) Climate summary maps and archived station data. High Plains Regional Climate Center. Available online at http://www.hprcc.unl.edu/. Accessed 10 Dec 2009
Houghton RA, Hackler JL (2000) Changes in terrestrial carbon storage in the United States I: the role of agriculture and forestry. Global Ecol Biogeogr 9:125–144
Houghton RA, Hackler JL, Lawrence KT (1999) The US carbon budget: contributions from land-use change. Science 285:574–578
Jacobs J, Nadwornick R (2008) Review of conservation reserve program (CRP) native grass, forb, and shrub establishment. Plant Materials Technical Note Number MT-40, US Department of Agriculture Natural Resource Conservation Service, p 2
Jarecki MK, Lal R (2003) Crop management for soil carbon sequestration. Crit Rev Plant Sci 22:471–502
Jones OR, Popham TW (1997) Cropping and tillage systems for dryland grain production in the southern high plains. Agron J 89:222–232
Kay BD, VandenBygaart AJ (2002) Conservation tillage and depth stratification of porosity and soil organic matter. Soil Till Res 66:107–118
Kerr JT, Ostrovsky M (2003) From space to species: ecological applications for remote sensing. Trends Ecol Evol 18:299–305
Krupinsky JM, Merrill SD, Tanaka DL et al (2007) Crop residue coverage of soil influenced by crop sequence in a no-till system. Agron J 99:921–930
Lachowski HM, Johnson VC (2001) Remote sensing applied to ecosystem management. In: Jensen ME, Bourgeron PS (eds) A guidebook for integrated ecological assessments. Springer, New York, pp 135–150
Lal R (2004) Soil carbon sequestration impacts on global climate change and food security. Science 304:1623–1627
Lal R, Kimble J, Levine E (1995) Soil management and greenhouse effect. Lewis, Boca Raton, p 355
Lal R, Kimble JM, Follett R, Cole CV (1998) The potential of US cropland to sequester carbon and mitigate the greenhouse effect. CRC, Boca Raton, p 128
Lefsky MA, Cohen WB, Parker GG, Harding DJ (2002) Lidar remote sensing for ecosystem studies. BioScience 52:19–30
Li X, Feng Y (2002) Carbon sequestration potentials in agricultural soils. AIDIS-CANADA Environmental Project, p 11
Marland G, West TO, Schlamadinger B, Canella L (2003) Managing soil organic carbon in agriculture: the net effect on greenhouse gas emissions. Tellus B 55:613–621
McConkey BG, Liang BC, Campbell CA (1999) Estimating gains of soil carbon over 15-yr period due to changes in fallow frequency, tillage system, and fertilization practices for the Canadian Prairies (an expert opinion). Agriculture and Agri-Food Canada, Publication #379M0209, p 14
McConkey BG, Liang BC, Campbell CA et al (2003) Crop rotation and tillage impact on carbon sequestration in Canadian prairie soils. Soil Till Res 74:81–90
McLauchlan K (2006) Agricultural impacts on soil carbon and nutrients: a review. Ecosystems 9:1364–1382
Melillo JM, Borchers J, Chaney J et al (1995) Vegetation/ecosystem modeling and analysis project comparing biogeography and biogeochemistry models in a continental-scale study of terrestrial ecosystem response to climate change and CO2 doubling. Global Biogeochem Cy 9:407–437
Miller PR, McConkey BG, Clayton GW et al (2002) Pulse crop adaptation in the northern Great Plains. Agron J 94:261–272
Mooney S, Gerow K, Antle J et al (2007) Reducing standard errors by incorporating spatial autocorrelation into a measurement scheme for soil carbon credits. Climatic Change 80:55–72
Moore DS (2004) The basic practice of statistics. Freeman, New York, p 674
NCOC (2008) Exchange soil offset eligible practices and offset issuance rates by zone: cropland protocol guidelines. National Carbon Offset Coalition, Butte, p 23
NRCS (2007a) Major biomes map. Natural Resource Conservation Service. Available online at http://soils.usda.gov/use/worldsoils/mapindex/biomes.html. Accessed 12 Dec 2009
NRCS (2007b) Interactive soil survey map. Natural Resources Conservation Service. Available online at http://websoilsurvey.nrcs.usda.gov/app/WebSoilSurvey.aspx. Accessed 10 Dec 2009
NRCS (2008) Tillage practice guide: a guide to USDA-NRCS practice standards 329 no till/strip till/direct seed & 345 mulch till. USDA Practice Standard 329. Natural Resource Conservation Service, United States Department of Agriculture, USA, p 1
NWS (2007) Past weather: local climate information. National Weather Service, National Oceanic and Atmospheric Administration. Available online at http://www.nws.noaa.gov. Accessed 3 May 2008
Padbury G, Waltman S, Caprio J et al (2002) Agroecosystems and land resources of the northern Great Plains. Agron J 94:251–261
Paltsev S, Jacoby HD, Reilly JM et al (2007) Assessment of US Cap-and-Trade proposals. Working Paper 13176. National Bureau of Economic Research, Cambridge, p 77
Parton WJ, Ojima DS, Schimel DS (2005) CENTURY: modeling ecosystem responses to climate change, Version 4 (VEMAP 1995) Natural Resources Ecology Laboratory. Colorado State University, USA. Available online at http://www.cgd.ucar.edu/vemap/abstracts/CENTURY.html. Accessed 20 Nov 2009
Paustian K, Six J, Elliott ET, Hunt HW (2000) Management options for reducing CO2 emissions from agricultural soils. Biogeochemistry 48:147–163
Post WM, Kwon KC (2000) Soil carbon sequestration and land-use change: processes and potential. Global Change Biol 6:317–327
Post WM, Izaurralde RC, Jastrow JD et al (2004) Enhancement of carbon sequestration in US soils. BioScience 54:895–908
Potter KN, Jones OR, Torbert HA, Unger PW (1997) Crop rotation and tillage effects on organic carbon sequestration in the semiarid southern Great Plains. Soil Sci 162:140–147
Price KP, Egbert SL, Nellis MD, Lee RY, Boyce R (1997) Mapping land cover in a High Plains agro-ecosystem using a multi-date Landsat Thematic Mapper modeling approach. Trans Kans Acad Sci 100:21–33
Purakayastha TJ, Huggins DR, Smith JL (2008) Carbon sequestration in native prairie, perennial grass, no-till, and cultivated palouse silt loam. Soil Sci Soc Am J 72:534–540
Reeder JD, Schuman GE (2002) Influence of livestock grazing on C sequestration in semi-arid mixed grass and short-grass rangelands. Environ Pollut 116:457–463
Robles MD, Burke IC (1997) Legume, grass, and conservation reserve program effects on soil organic matter recovery. Ecol Appl 7:345–357
Sainju UM, Caesar-TonThat T, Lenssen AW et al (2007) Long-term tillage and cropping sequence effects on dryland residue and soil carbon fractions. Soil Sci Soc Am J 71:1730–1739
Schimel DS, Braswell BH, Holland EA et al (1994) Climatic, edaphic, and biotic controls over storage and turnover of carbon in soils. Global Biogeochem Cy 8:279–293
Schlesinger WH (1977) Carbon balance in terrestrial detritus. Annu Rev Ecol Syst 8:51–81
Schuman GE, Janzen HH, Herrick JE (2002) Soil carbon dynamics and potential carbon sequestration by rangelands. Environ Pollut 116:391–396
Schrag DP (2007) Preparing to capture carbon. Science 315:812–813
Sherrod LA, Peterson GA, Westfall DG, Ahuja LR (2003) Cropping intensity enhances soil organic carbon and nitrogen in a no-till agroecosystem. Soil Sci Soc Am J 67:1533–1543
Smith P (2004) How long before a change in soil organic carbon can be detected? Glob Change Biol 10:1878–1883
Sperow M, Eve M, Paustian K (2003) Potential soil C sequestration on U.S. agricultural soils. Climatic Change 57:319–339
Staben ML, Bezdicek DF, Fauci MF, Smith JL (1997) Assessment of soil quality in conservation reserve program and wheat-fallow soils. Soil Sci Soc Am J 61:124–130
Turner DP, Koerper ME, Harmon E, Lee JJ (1995) Carbon sequestration by forests of the United States. Current status and projections to the year 2040. Tellus Ser B 47:232–239
Uri ND (2001) The potential impact of conservation practices in US agriculture on global climate change. J Sustain Agr 18:109–131
USDA-FSA (2007) Managed haying and grazing on conservation reserve program (CRP) acres (new provisions). USDA Service Center white pages. Farm Service Agency, United States Department of Agriculture, USA, p 2
USDA-FSA (2009) News release: FSA announces spring grazing on CRP acres. USDA Service Center white pages. Farm Service Agency, United States Department of Agriculture, USA, p 1
USDA-NASS (2007) Field crops: 2007 and 2002. Census of Agriculture - United States data, Montana, Table 26. USDA National Agricultural Statistics Service, USA, p 10
Vasques GM, Grunwald S, Sickman JO (2009) Modeling of soil organic carbon fractions using visible-near-infrared spectroscopy. Soil Sci Soc Am J 73:176–184
Watts JD, Lawrence RL, Miller PR, Montagne C (2009) Monitoring of cropland practices for carbon sequestration purposes in north central Montana by Landsat remote sensing. Remote Sens Environ 113:1843–1852
West TO, Six J (2007) Considering the influence of sequestration duration and carbon saturation on estimates of soil carbon capacity. Climatic Change 80:25–41
West TO, Post WM (2002) Soil organic carbon sequestration rates by tillage and crop rotation: a global data analysis. Soil Sci Soc Am J 66:1930–1946
White EM, Krueger CR, Moore RA (1976) Changes in total N, organic matter, available P, and bulk densities of a cultivated soil 8 years after tame pastures were established. Agron J 68:581–583
WRCC (2006) Historical climate information. Western Regional Climate Center. Available online at http://www.wrcc.dri.edu/CLIMATEDATA.html. Accessed 10 Nov 2009
Wu T, Schoenau JJ, Li F et al (2003) Effect of tillage and rotation on organic carbon forms of chernozemic soils in Saskatchewan. J Plant Nutr Soil Sc 166:328–335
Xie H, Tian YQ, Granillo JA, Keller GR (2007) Suitable remote sensing method and data for mapping and measuring active crop fields. Int J Remote Sens 28:395–411
Young LM (2003) Carbon sequestration in agriculture: the U.S. policy context. Am J Agr Econ 85:1164–1170
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Watts, J.D., Lawrence, R.L., Miller, P. et al. An analysis of cropland carbon sequestration estimates for North Central Monana. Climatic Change 108, 301–331 (2011). https://doi.org/10.1007/s10584-010-0009-1
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DOI: https://doi.org/10.1007/s10584-010-0009-1