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Challenges and opportunities for carbon sequestration in grassland systemsA Technical Report on Grassland Management and Climate Change MitigationSchlamadinger B, Bird N, Johns T . Brown, S., Canadell, J., Ciccarese, L.,Dutschke, M., Fiedler, j., Fischlin, A., Fearnside, P., Forner, C., Freibauer,A., Frumhoff, P., Hoehne, N., Kirschbaum, M.U.F., Labat, A., Marland,G., Michaelowa, A., Montanarella, L., Moutinho, P., Murdivarso, D.,Pena, N., Pingound, K., Rakonczav, Z., Rometsteiner, E., Rock, J., Sanz,M.J., Schneider, U.A., Shvidenko, A., Skutsch, M., Smith, P., Somogyi, Z.,Trines, E., ward, M. & Yamagata, Y. 2007. A synopsis of land use, land-usechange and forestry (LULUCF) under the Kyoto Protocol and MarrakechAccords. Environ. Science & Policy. 10: 271–282Schlesinger, W.H. 1990. Evidence from chronosequence studies for a lowcarbon-storage potential of soils. Nature. 348:232–234.Schlesinger, W.H. 1977. Carbon balance in terrestrial detritus. Ann. Rev. Ecol.Syst., 8: 51–81.Schlesinger, W.H. 2000. Carbon sequestration in soils: some cautions amidstoptimism. Agric. Ecosyst. Environ., 82: 121–127.Schneider, L. 2009. Assessing the additionality of CDM projects: practicalexperiences and lessons learned. Climate Policy, 9: 242–254.Shevliakova, E., Pacala, S.W., Malyshev, S., Hurtt, G.C., Milly, P.C.D.,Caspersen, J.P., Sentman, L.T., Fisk, J.P., Wirth, C. & Crevoisier. C.2009. Carbon cycling under 300 years of land use change: importance of thesecondary vegetation sink. Global Biogeochem. Cycles, 23, GB2022.Smith, P. 2005. An overview of the permanence of soil organic carbon stocks:influence of direct human-induced, indirect and natural effects. Eur. J. SoilSci., 56: 673–680.Smith, P., Martino, D., Cai, Z., Gwary, D., Janzen, H., Kumar, P., McCarl,B., Ogle, S., O’Mara, F., Rice, C., Scholes, B., Sirotenko, O., Howden, M.,McAllister, T., Pan, G., Romanenkov, V., Schneider, U. & Towprayoon, S.2006. Policy and technological constraints to implementation of greenhousegas mitigation options in agriculture. Agriculture, Ecosystems & Environment,118(1–4): 6–28.Smith, P., Martino, D., Cai, Z., Gwary, D., Janzen, H., Kumar, P., McCarl,B., Ogle, S., O’Mara, F., Rice, C., Scholes, B., Sirotenko, O., Howden, M.,McAllister, T., Pan, G., Romanenkov, V., Schneider, U., Towprayoon, S.,Wattenbach, M. & Smith, J. 2008. Greenhouse gas mitigation in agriculture.Philosophical Transactions of the Royal Society B - Biological Sciences, 363:789–813.Sombroek, W.G., Nachtergaele, F.O. & Hebel, A. 1993. Amounts, dynamicsand sequesteting of carbon in tropical and subtropical soils. Ambio, 22:417–426.46Integrated Crop Management
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Integrated Crop Management Vol. 9 -
Page 4 and 5: The designations employed and the p
Page 7: Executive SummaryImplementing grass
Page 11 and 12: Chapter 2BackgroundGrasslands cover
Page 13 and 14: ackgroundGrasslands are intensively
Page 15 and 16: Chapter 3OpportunitiesCarbon seques
Page 17 and 18: opportunitiesStephens et al., 2007)
Page 19 and 20: opportunitiesMany management techni
Page 21 and 22: opportunities1.31.21.11.00.90.8nomi
Page 23 and 24: opportunitiesgrowing, suggesting co
Page 25 and 26: opportunities©FAO/m. marzotnationa
Page 27 and 28: opportunitiesPractices that sequest
Page 31: Chapter 4ChallengesDeveloping worka
Page 39 and 40: challengesinnovation by agricultura
Page 41 and 42: Chapter 5The way forwardFoundations
Page 43 and 44: the way forwardthe strategic object
Page 45 and 46: the way forwardassess carbon seques
Page 47 and 48: eferencesBoyd, E., Corbera, E. & Es
Page 49 and 50: eferencesGifford, R.M., Cheney, N.P
Page 51 and 52: eferencesLal, R., Kimble, J.M. & St
Page 53: eferencesPaustian, K., Collins, H.P
Page 57 and 58: AcknowledgementsIn April 2009, 20 i
Page 59 and 60: Policy briefPastoralistsPlaying a c
Page 61 and 62: policy briefMuch of the world’s g
Page 63 and 64: policy briefpost copenhagen agricul
Page 65 and 66: policy brief>N0 2 000 4 000kilomete
Page 67: Challenges and opportunities for ca
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