Abstract
Temperate forests, located between 25 and 55° N and S of equator, are highly diverse in species, soils, and the ecosystems’ carbon (C) pool. Their composition and characteristics change among regions. Principal forest types are broad-leaved deciduous, broad-leaved evergreen, coniferous, and mixed. Temperate forests are primarily located in North America, Central and Western Europe, north-eastern Asia, southern Chile, New Zealand and the Mediterranean. Principal soils of the temperate forests are Alfisols, Inceptisols, Mollisols, Spodosols, and Ultisols. These are generally fertile soils with high soil organic C (SOC) pool. Typical temperate forest soils contain about 100 Mg C ha−1 in the soil profile, and often more. Total ecosystem C pool in biomes and soils of temperate forest is equivalent to, and sometimes even more, than that of the tropical rainforest ecosystems. The projected change in climate may shift the temperate forest biome polewards, alter species composition, and change the ecosystem C pool. With favorable climate characterized by four distinct seasons and relatively fertile soils, the temperate forest biomes have a high C sink capacity. Thus, sustainable forest management, planting and rehabilitation can contribute to recarbonize the biome previously disturbed by deforestation, degradation and poor forest management, and create draw down in the atmospheric concentration of carbon dioxide (CO2). Fast growing temperate trees can accumulate about 20 Mg of wood ha−1 year−1. The strategy is also to preserve the old-growth forests, and establish new forests on degraded lands and agriculturally marginal soils through afforestation and reforestation. In addition to biomass, C can also be sequestered in soils. The rate of soil C sequestration is lower than that in the biomass, and depends on soil type, antecedent pool, species and other natural and marginal factors. While trading C credits can promote adoption of an appropriate forest land use and management to enhance C sequestration, how to account for changes in forest C pools (soil and biota) remains a contentious issue. Additional research is needed in understanding processes and practices to sequester C in soils and vegetation of temperate forests, and to develop methods of measurement, monitoring and verification of C pool and changes over short periods of 2–5 years.
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Abbreviations
- Ra :
-
autotrophic respiration
- C:
-
carbon
- CO2 :
-
carbon dioxide
- FACE:
-
Free Air Atmospheric Carbon Dioxide Enrichment
- GCC:
-
global carbon cycle
- GHGs:
-
greenhouse gases
- HAC:
-
high activity clays
- LAC:
-
low activity clays
- MRT:
-
mean residence time
- NBP:
-
net biome productivity
- NEP:
-
net ecosystem production
- NPP:
-
net primary production
- SOC:
-
soil organic C
- SOM:
-
soil organic matter content
References
Anderson RG, Canadell JG, Randerson JT et al (2011) Biophysical considerations in forestry for climate protection. Front Ecol Environ 9:174–182
Andersson FO, Ågren GI, Führer E (2000) Sustainable tree biomass production. For Ecol Manage 132:51–62
Bahn M, Reichstein M, Davidson EA et al (2010) Soil respiration at mean annual temperature predicts annual total across vegetation types and biomes. Biogeosciences 7:1247–1257
Barford CC, Wofsy SC, Goulden ML et al (2001) Factors controlling long and short-term sequestration of atmospheric CO2 in a mid-latitude forest. Science 294:1688–1690
Batjes NH (2010) A global framework of soil organic carbon stocks under native vegetation for use with the simple assessment option of the carbon benefits project system. Report 2010-10. ISRIC, Wageningen, Holland
Batjes NH (2011) Soil organic carbon stocks under native vegetation-revised estimates for use with the simple assessment option of the carbon benefits project system. Agric Ecosyst Environ 142:365–373
Beniston M, Tol RSJ (1998) Europe. In: Watson RT, Zinyowers MC, Moss RH (eds) Regional impacts of climate change. Cambridge University Press, Cambridge
Birdsey RA, Lewis GM (2003) Carbon in U.S. Forests and wood products, 1987–1997: state by state estimates. USDA-F.S., Newton Square
Borken W, Davidson E, Savage K et al (2003) Drying and wetting effects on carbon dioxide release from organic horizons. Soil Sci Am J 67:1888–1896
Bormann B, Homann P, Darbyshire R et al (2008) Intense forest wildfire sharply reduces mineral soil C and N: the first direct evidence. Can J For Res 38:2771–2783
Brady N, Weil R (2002) Nature and properties of soil. Prentice Hall, Upper Saddle River
Broecker WS, Takahashi T, Simpson HH et al (1979) Fate of fossil fuel carbon dioxide and the global measures. Science 206:409–418
Canadell JG, Raupach MR (2008) Managing forests for climate change mitigation. Science 320:1456–1457
Carnell R (ed) (2010) The role of forests in carbon capture and climate change. Nova, New York
Ciais P, Canadell J, Luyssaert S et al (2010) Can we reconcile atmospheric estimates of the Northern terrestrial carbon sink with land-based accounting? Curr Opin Environ Sustain 2:225–230
Ciccarese L, Brown S, Schlamadinger B (2005) Carbon sequestration through restoration of temperate and boreal forests. In: Stanturf JA, Madsen P (eds) Restoration of boreal and temperate forests. CRC Press, Boca Raton
Davidson E, Hirsch A (2001) Fertile forest experiments. Science 411:431–433
Dixon RK, Brown S, Houghton RA et al (1994) Carbon pools and flux of global forest ecosystems. Science 263:185–190
Eswaran H, van den Berg RP (1993) Organic carbon in soils of the world. SSSA J 57:192–194
FAO (1988) FAO-UNESCO soil map of the world, revised legend with correction and updates. Technical paper 20. FAO and ISRIC, Wageningen, Holland
FAO-UNESCO (1974) Soil map of the world. 1:5,000,000, vol 1 – legend. United Nations Educational, Scientifics and Cultural Organization, Paris, France
Friedlingstein P, Dufresne J, Cox P et al (2003) How positive is the feedback between climate changes and the carbon cycle? Tellus 55B:692–700
Gorte RW, Johnson R (2010) Measuring and monitoring carbon in the agricultural and forestry sectors. In: Carnell R (ed) The role of forest in carbon capture and climate change. Nova, New York
Gorte RW, Ramseur JL (2010) Forests carbon markets: potential and drawbacks. In: Carnell R (ed) The role of forest in carbon capture and climate change. Nova, New York
Gough CM, Vogel CS, Schmid HP, Curtis PS (2008) Controls on annual forest carbon storage: lessons from the past and predictions for the future. Bioscience 58:609–622
Gower ST, Landsberg JJ, Bisbee RL (2003) Forest biomes of the world. In: Young RA, Giese RL (eds) Forest ecosystem science and management. Wiley, Hoboken
Grabherr G, Gottfried M, Pauli H (1994) Climate effects on mountain plants. Nature 369:448
Heath S, Kimble JM, Binsey RA et al (2003) The potential of U.S. forest soils to sequester carbon. In: Kimble JM, Heath LS, Birdsey RA et al (eds) The potential of U.S. forest soils to sequester carbon and mitigate the greenhouse effect. Lewis Publishers, Boca Ratan
Houghton RA (1993) Is carbon accumulating in the northern temperate zone? Glob Biogeochem Cycles 7(3):611–617
Houghton RA, Hall F, Goetz SJ (2009) Importance of biomass in the global carbon cycle. J Geophys Res 114. http://dx.doi.org/10.1029/2009JG000935
House J, Prentice I, Ramankutty N et al (2003) Reconciling apparent inconsistencies in estimates of terrestrial CO2 sources and sinks. Tellus 55B:345–363
Huston MA, Wolverton S (2009) The global distribution of net primary production: resolving the paradox. Ecol Appl 79:343–377
Janssens IA, Dieleman W, Luyssaert A et al (2010) Reduction of forest soil respiration in response to nitrogen deposition. Nat Geosci 3:315–322
Jenny H (1941) Factors of soil formation: a system of quantified pedology. McGraw-Hill, New York (reprinted in 1994)
Jobbagy E, Jackson R (2000) The vertical distribution of soil organic carbon and its relation to climate and vegetation. Ecol Appl 10:423–436
Johnson MG, Kern JS (2003) Quantifying the organic carbon held in forested soils of the U.S. and Puerto Rico. In: Kimble JM, Heath LS, Bindsey Ra et al (eds) The potential of U.S. forests soils to sequester carbon and mitigate the greenhouse effect. Lewis Publishers, Boca Raton
Keith H, Mackey B, Lindenmayer D (2009) Re-evaluation of forest biomass carbon stocks and lessons from the world’s most carbon-dense forests. Proc Natl Acad Sci USA 106:11635–11640
Körner C (2006) Plant CO2 responses: an issue of definition, time and resource supply. New Phytol 172:393–411
Lorenz K, Lal R (2010) Carbon sequestration in forest ecosystems. Springer, Dordrecht
Luyssaert S, Inglima I, Jungs M et al (2007) CO2 balance of boreal, temperate, and tropical forests derived from a global database. Global Change Biol 13:2509–2537. doi:10.1111/j.1365-2486.2007.01439.x
Magnani F, Dewar RC, Borghetti M (2009) Leakage and spillover effects of forest management on carbon storage: theoretical insights from a simple model. Tellus 61B:385–393
Martin PH, Nabuurs GJ, Aubinet M et al (2001) Carbon sinks in temperate forests. Annu Rev Energy Environ 26:435–465
Mayer A, Khalyani A (2011) Grass trumps trees with fire. Science 334:188–189
Menzel A, Fabian P (1999) Growing season extended in Europe. Nature 397:659
Norby RJ, Zak DR (2011) Ecological lessons from free-air CO2 enrichment (FACE) experiments. Annu Rev Ecol Evol Syst 42:181–203
Pacala S, Hurtt G, Baker D et al (2001) Consistent land- and atmosphere-based U.S. carbon sink estimates. Science 292:2316–2320
Pan Y, Birdsey R, Fang J et al (2011) A large and persistent carbon sink in the world’s forests. Science 333:988–993
Powlson DS, Whitmore AP, Goulding KWT (2011) Soil carbon sequestration to mitigate climate change: a critical re-examination to identify the true and the false. Eur J Soil Sci 62:42–55
Prescott C (2010) Litter decomposition: what controls it and how can we alter it to sequester more carbon in forest soils? Biogeochemistry 101:133–149
Rasse D, Longdoz B, Ceulemans R (2001) TRAP: a modelling approach to below-ground carbon allocation in temperate forests. Plant Soil 229:281–293
Rautiainen A, Wernick I, Waggoner PE et al (2011) A national and international analysis of changing forest density. PLoS One 6(5):e19577. doi:10.1371/journal.pone.0019577
Sarmiento J, Gloor M, Gruber N et al (2010) Trends and regional distributions of land and ocean carbon sinks. Biogeosciences 7:2351–2367
Schlesigner WH (2000) Carbon sequestration in soils: some cautions amidst optimism. Agric Ecosyst Environ 82:121–127
Schmidt MWI, Torn MS, Abiven S et al (2011) Persistence of soil organic matter as an ecosystem property. Nature 478:49–56
Schmitt A, Glaser B (2011) Organic matter dynamics in a temperate forest soil following enhanced drying. Soil Biol Biochem 43:478–489
Stallard RF (1998) Terrestrial sedimentation and the carbon cycle: coupling weathering and erosion to carbon burial. Global Biogeochem Cycles 12:231–257. doi:10.1029/98GB00741
Staver AC, Archibald S, Levin SA (2011) The global extent and determinants of savanna and forest as alternative biome states. Science 334:230–232
Streck C, Scholz S (2006) The role of forests in global climate change: whence we come and where we go. Int Affairs 82:861–879
Study of Critical Environmental Problems (1970) Man’s impact on the global environment: assessment and recommendations for action. In study of critical environmental problems. MIT Press, Cambridge, MA
Study of Critical Environmental Problems (1971) Inadvertent climate modification, report. MIT Press, Cambridge, MA
Tans PP, Fung IY, Takahashi T (1990) Observational constraints on the global atmospheric CO2 budget. Science 247:1431–1438
Teneva L, Gonzalez-Meler M (2008) Decomposition kinetics of soil carbon of different age from a forest exposed to 8 years of elevated atmospheric CO2 concentration. Soil Biol Biochem 40:2670–2677
UNEP (1992) The impacts of climate change on agriculture. Fact sheet 101, information unit on Climate change. Palais des Nations, Geneva, Switzerland
van Hees P, Jones D, Finlay R et al (2005) The carbon we do not see – the impact of low molecular weight compounds on carbon dynamics and respiration in forest soils: a review. Soil Biol Biochem 37:1–13
Van Wambeke A (1992) Soils of the tropics. McGraw Hill, New York
von Lützow M, Kögel-Knabner I, Ekschmitt K et al (2006) Stabilization of organic matter in temperate soils: mechanisms and their relevance under different soil conditions – a review. Eur J Soil Sci 57:426–445
Woodwell FM, Pecan EV (eds) (1973) Carbon and the biosphere. In: Proceedings of symposium, symposium series 30. Brookhaven National lab. Upton, NY, May 1972. US Atomic Energy Comm CONF-720510, 400 p
Zheng J, Han S, Zhou Y et al (2010) Microbial activity in a temperate forest soil as affected by elevated atmospheric CO(2). Pedosphere 20:427–435
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Lal, R., Lorenz, K. (2012). Carbon Sequestration in Temperate Forests. In: Lal, R., Lorenz, K., Hüttl, R., Schneider, B., von Braun, J. (eds) Recarbonization of the Biosphere. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4159-1_9
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