Abstract
Since the domestication of plant and animal species around 10,000 years ago, cultivation and animal husbandry have been major components of global change. Agricultural activities such as tillage, fertilization, and biomass alteration lead to fundamental changes in the pools and fluxes of carbon (C), nitrogen (N), and phosphorus (P) that originally existed in native ecosystems. Land is often taken out of agricultural production for economic, social, or biological reasons, and the ability to predict the biogeochemical trajectory of this land is important to our understanding of ecosystem development and our projections of food security for the future. Tillage generally decreases soil organic matter (SOM) due to erosion and disruption of the physical, biochemical, and chemical mechanisms of SOM stabilization, but SOM can generally reaccumulate after the cessation of cultivation. The use of organic amendments causes increases in SOM on agricultural fields that can last for centuries to millennia after the termination of applications, although the locations that provide the organic amendments are concurrently depleted. The legacy of agriculture is therefore highly variable on decadal to millennial time scales and depends on the specific management practices that are followed during the agricultural period. State factors such as climate and parent material (particularly clay content and mineralogy) modify ecosystem processes such that they may be useful predictors of rates of postagricultural biogeochemical change. In addition to accurate biogeochemical budgets of postagricultural systems, ecosystem models that more explicitly incorporate mechanisms of SOM loss and formation with agricultural practices will be helpful. Developing this predictive capacity will aid in ecological restoration efforts and improve the management of modern agroecosystems as demands on agriculture become more pressing.
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References
Alvarez R. 2005. A review of nitrogen fertilizer and conservation tillage effects on soil organic carbon storage. Soil Use Manage 21:38–52
Amundson R. 2001. The carbon budget in soils. Annu Rev Earth Planet Sci 29:535–62
Baer SG, Kitchen DJ, Blair JM, Rice CW. 2002. Changes in ecosystem structure and function along a chronosequence of restored grasslands. Ecol Appl 12:1688–701
Bakels CC. 1997. The beginnings of manuring in Western Europe. Antiquity 71:442–5
Barber SA. 1979. Soil phosphorus after 25 years of cropping with five rates of phosphorus application. Comm Soil Sci Plant Anal 10:1459–68
Bennett EM, Carpenter SR, Caraco NF. 2001. Human impact on erodable phosphorus and eutrophication: a global perspective. BioScience 51:227–34
Blake L, Mercik S, Koerschens M, Moskal S, Poulton PR, Goulding KWT, Weigel A, others. 2000. Phosphorus content in soil, uptake by plants and balance in three European long-term field experiments. Nutr Cycl Agroecosyst 56:263–75.
Blake L, Johnston AE, Poulton PR, Goulding KWT. 2003. Changes in soil phosphorus fractions following positive and negative phosphorus balances for long periods. Plant Soil 254:245–61
Blume HP, Leinweber P. 2004. Plaggen soils: landscape history, properties, and classification. J Plant Nutr Soil Sci 167:319–27.
Booth MS, Stark JM, Rastetter E. 2005. Controls on nitrogen cycling in terrestrial ecosystems: a synthetic analysis of literature data. Ecol Monogr 75:139–57
Brye KR, Norman JM, Gower ST, Bundy LG. 2003. Effects of management practices on annual net N-mineralization in a restored prairie and maize agroecosystems. Biogeochemistry 63:135–60
Bull ID, Van Bergen PF, Poulton PR, Evershed RP. 1998. Organic geochemical studies of soils from the Rothamsted Classical Experiments. – II. Soils from the Hoosfield Spring Barley Experiment treated with different quantities of manure. Org Geochem 28:11–26.
Burgi M, Turner MG. 2002. Factors and processes shaping land cover and land-cover changes along the Wisconsin River. Ecosystems 5:184–201
Burke IC, Yonker CM, Parton WJ, Cole CV, Flach K, Schimel DS. 1989. Texture, climate, and cultivation effects on soil organic matter content in U. S. grassland soils. Soil Sci Soc Am J 53:800–5
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
Buyanovsky GA, Wagner GH. 1998. Carbon cycling in cultivated land and its global significance. Global Change Biol 4:131–41
Carpenter SR, Westley F, Turner MG. 2005. Surrogates for resilience of social-ecological systems. Ecosystems 8:941–4
Cassman KG, Dobermann A, Walters DT. 2002. Agroecosystems, nitrogen-use efficiency, and nitrogen management. Ambio 31:132–40
Christou M, Avramides EJ, Roberts JP, Jones DL. 2005. Dissolved organic nitrogen in contrasting agricultural ecosystems. Soil Biol & Biochem 37:1560–3
Collins HP, Elliott ET, Paustian K, Bundy LG, Dick WA, Huggins DR, Smucker AJM, others. 2000. Soil carbon pools and fluxes in long-term corn belt agroecosystems. Soil Biol & Biochem 32:157–68
Compton JE, Boone RD. 2000. Long-term impacts of agriculture on soil carbon and nitrogen in New England forests. Ecology 81:2314–30
Compton JE, Boone RD, Motzkin G, Foster DR. 1998. Soil carbon and nitrogen in a pine-oak sand plain in central Massachusetts: role of vegetation and land-use history. Oecologia 116:536–42
Crews TE. 1996. The supply of phosphorus from native, inorganic phosphorus pools in continuously cultivated Mexican agroecosystems. Agric Ecosyst Environ 57:197–208
Crews TE, Peoples MB. 2004. Legume versus fertilizer sources of nitrogen: ecological tradeoffs and human needs. Agric Ecosyst Environ 102:279–97
Daroub SH, Ellis BG, Robertson GP. 2001. Effect of cropping and low-chemical input systems on soil phosphorus fractions. Soil Sci 166:281–91
Davidson EA, Ackerman IL. 1993. Changes in soil carbon inventories following cultivation of previously untilled soils. Biogeochemistry 20:161–93
Davis R, Patton J, Teal R, Tang Y, Humphreys M, Mosali J, Girma K, others. 2004. Nitrogen balance in the Magruder Plots following 109 years in continuous winter wheat. J Plant Nutr 26:1561–80
Diamond J. 2002. Evolution, consequences and future of plant and animal domestication. Nature 418:700–7
Donahue B. 2004. The great meadow: farmers and the land in colonial Concord. New Haven (CT): Yale University Press
Drinkwater LE, Wagoner P, Sarrantonio M. 1998. Legume-based cropping systems have reduced carbon and nitrogen losses. Nature 396:262–5
Dupouey JL, Dambrine E, Laffite JD, Moares C. 2002. Irreversible impact of past land use on forest soils and biodiversity. Ecology 83:2978–84
Edmeades DC. 2003. The long-term effects of manures and fertilisers on soil productivity and quality: a review. Nutrient Cycling in Agroecosyst 66:165–80
Eidt RC. 1977. Detection and examination of anthrosols by phosphate analysis. Science 197:1327–33
Ekschmitt K, Liu M, Vetter S, Fox O, Wolters V. 2005. Strategies used by soil biota to overcome soil organic matter stability—why is dead organic matter left over in the soil? Geoderma 128:167–76
Epstein HE, Burke IC, Lauenroth WK. 2002. Regional patterns of decomposition and primary production rates in the U.S. Great Plains. Ecology 83:320–7
Fageria NK, Baligar VC. 2005. Enhancing nitrogen use efficiency in crop plants. In: Advances in agronomy; vol 88. pp 97–185
[FAO/ISSS/ISRIC] Food and Agriculture Organization. 1998. World reference base for soil resources. Rome: FA., United Nations
Follett RF. 2001. Soil management concepts and carbon sequestration in cropland soils. Soil Tillage Res 61:77–92.
Foster D, Swanson F, Aber J, Burke I, Brokaw N, Tilman D, Knapp A. 2003. The importance of land-use legacies to ecology and conservation. BioScience 53:77–88
Fraterrigo JM, Turner MG, Pearson SM, Dixon P. 2005. Effects of past land use on spatial heterogeneity of soil nutrients in southern Appalachian forests. Ecol Monogr 75:215–30
Gantzer CJ, Anderson SH, Thompson AL, Brown JR. 1991. Evaluation of soil loss after 100 years of soil and crop management. Agron J 83:74–7
Gebhart DL, Johnson HB, Mayeux HS, Polley HW. 1994. The CRP increases soil organic carbon. J Soil Water Conserv 49:488–92
Giani L, Chertov O, Gebhardt C, Kalinina O, Nadporozhskaya M, Tolkdorf-Lienemann E. 2004. Plagganthrepts in northwest Russia? Genesis, properties and classification. Geoderma 121:113–22
Glaser B, Woods W. 2004. Amazonian dark earths: explorations in space and time. Berlin: Springer
Glaser B, Balashov E, Haumaier L, Guggenberger G, Zech W. 2000. Black carbon in density fractions of anthropogenic soils of the Brazilian Amazon region. Org Geochem 31:669–78
Glaser B, Lehmann J, Zech W. 2002. Ameliorating physical and chemical properties of highly weathered soils in the tropics with charcoal: a review. Biol Fertil Soils 35:219–30
Gough MW, Marrs RH. 1990. A comparison of soil fertility between semi-natural and agricultural plant communities—implications for the creation of species-rich grassland on abandoned agricultural land. Biol Conserv 51:83–96
Griffin TS, He Z, Honeycutt CW. 2005. Manure composition affects net transformation of nitrogen from dairy manures. Plant Soil 273:29–38
Haas HJ, Grunes DL, Reichman GA. 1961. Phosphorus changes in Great Plains soils as influenced by cropping and manure applications. Soil Sci Soc Am J 25:214–8
Haynes RJ, Naidu R. 1998. Influence of lime, fertilizer and manure applications on soil organic matter content and soil physical conditions: A review. Nutrient Cycling in Agroecosystems 51:123–37
Hedley MJ, Stewart JWB, Chauhan BS. 1982. Changes in inorganic and organic soil-phosphorus fractions induced by cultivation practices and by laboratory incubations. Soil Sci Soc Am J 46:970–6
Hillel D. 1991. Out of the earth: civilization and the life of the soil. Berkeley (CA): University of California Press
Hooker TD, Compton JE. 2003. Forest ecosystem carbon and nitrogen accumulation during the first century after agricultural abandonment. Ecol Appl 13:299–313
Huggins DR, Randall GW, Russelle MP. 2001. Subsurface drain losses of water and nitrate following conversion of perennials to row crops. Agron J 93:477–86
Imhoff ML, Bounoua L, Ricketts T, Loucks C, Harriss R, Lawrence WT. 2004. Global patterns in human consumption of net primary production. Nature 429:870–3
Jacobsen T, Adams RM. 1958. Salt and silt in ancient Mesopotamian agriculture. Science 128:1251–8
Jaiyeoba IA. 2003. Changes in soil properties due to continuous cultivation in Nigerian semiarid savannah. Soil Tillage Res 70:91–8.
Janzen HH, Beauchemin KA, Bruinsma Y, Campbell CA, Desjardins RL, Ellert BH, Smith EG. 2003. The fate of nitrogen in agroecosystems: an illustration using Canadian estimates. Nutr Cycl Agroecosyst 67:85–102
Jastrow JD. 1996. Soil aggregate formation and the accrual of particulate and mineral-associated organic matter. Soil Biol Biochem 28:665–76
Jenny H. 1941. Factors of soil formation: a system of quantitative pedology. New York: McGraw Hill
Jenny H. 1980. The soil resource: origin and behavior. New York: Springer-Verlag
Johnson DW. 1992. Effects of forest management on soil carbon storage. Water Air Soil Pollut 64:83–120
Johnston AE. 1986. Soil organic matter, effects on soils and crops. Soil Use Manage 2:97–105
Johnston KJ. 2003. The intensification of pre-industrial cereal agriculture in the tropics: boserup, cultivation lengthening, and the classic Maya. J Anthropol Archaeol 22:126–61
Kirch PV, Hartshorn AS, Chadwick OA, Vitousek PM, Sherrod DR, Coil J, Holm L, others. 2004. Environment, agriculture, and settlement patterns in a marginal Polynesian landscape. Proc Nat’l Acad Sci U S A 101:9936–41
Kirchmann H, Haberhauer G, Kandeler E, Sessitsch A, Gerzabek MH. 2004. Effects of level and quality of organic matter input on carbon storage and biological activity in soil: synthesis of a long-term experiment. Global Biogeochem Cycles 18
Knops JMH, Tilman D. 2000. Dynamics of soil nitrogen and carbon accumulation for 61 years after agricultural abandonment. Ecology 81:88–98
Koerner W, Dupouey JL, Dambrine E, Benoit M. 1997. Influence of past land use on the vegetation and soils of present day forest in the Vosges mountains, France. J Ecol 85:351–8
Koerner W, Dambrine E, Dupouey JL, Benoit M. 1999. Delta15n of forest soil and understorey vegetation reflect the former agricultural land use. Oecologia 121:421–5.
Kong AYY, Six J, Bryant DC, Denison RF, van Kessel C. 2005. The relationship between carbon input, aggregation, and soil organic carbon stabilization in sustainable cropping systems. Soil Sci Soc Am J 69:1078–85
Kristensen HL, Debosz K, McCarty GW. 2003. Short-term effects of tillage on mineralization of nitrogen and carbon in soil. Soil Biol Biochem 35:979–86
Krull ES, Baldock JA, Skjemstad JO. 2003. Importance of mechanisms and processes of the stabilisation of soil organic matter for modelling carbon turnover. Function Plant Biol 30:207–22
Leff B, Ramankutty N, Foley JA. 2004. Geographic distribution of major crops across the world. Global Biogeochem Cycles 18
Lehmann J, da Silva JP, Steiner C, Nehls T, Zech W, Glaser B. 2003a. Nutrient availability and leaching in an archaeological Anthrosol and a Ferralsol of the central Amazon basin: fertilizer, manure and charcoal amendments. Plant Soil 249:343–57
Lehmann J, Kern DC, Glaser B, Woods W. 2003b. Amazonian dark earths: origin, properties, management. Boston: Kluwer
Lima HN, Schaefer CER, Mello JWV, Gilkes RJ, Ker JC. 2002. Pedogenesis and pre-Colombian land use of “Terra Preta Anthrosols” (“Indian black earth”) of western Amazonia. Geoderma 110:1–17
Lobe I, Amelung W, Du Preez CC. 2001. Losses of carbon and nitrogen with prolonged arable cropping from sandy soils of the South African highveld. Eur J Soil Sci 52:93–101
Mann LK. 1986. Changes in soil carbon storage after cultivation. Soil Sci 142:279–88
Matson PA, Parton WJ, Power AG, Swift MJ. 1997. Agricultural intensification and ecosystem properties. Science 277:504–9
McCollum RE. 1991. Buildup and decline in soil-phosphorus - 30-year trends on a typic umprabuult. Agron J 83:77–85
McLauchlan KK, Hobbie SE, Post WM. 2006. Conversion from agriculture to grassland builds soil organic matter on decadal timescales. Ecol Appl 16:143–53
Miller AJ, Amundson R, Burke IC, Yonker C. 2004. The effect of climate and cultivation on soil organic C and N. Biogeochemistry 67:57–72
Mosier AR. 2001. Exchange of gaseous nitrogen compounds between agricultural systems and the atmosphere. Plant Soil 228:17–27
Muenchrath DA, Kuratomi M, Sandor JA, Homburg JA. 2002. Observational study of maize production systems of Zuni farmers in semiarid New Mexico. J Ethnobiol 22:1–33
Murty D, Kirschbaum MUF, McMurtrie RE, McGilvray A. 2002. Does conversion of forest to agricultural land change soil carbon and nitrogen? A review of the literature. Global Change Biol 8:105–23
Needelman BA, Wander MM, Bollero GA, Boast CW, Sims GK, Bullock DG. 1999. Interaction of tillage and soil texture: biologically active soil organic matter in Illinois. Soil Sci Soc Am J 63:1326–34
Newman EI. 1997. Phosphorus balance of contrasting farming systems, past and present. Can food production be sustainable? J Appl Ecol 34:1334–47
Newman EI, Harvey PD. 1997. Did soil fertility decline in medieval English farms? Evidence from Cuxham, Oxforshire, 1320–1340. Agric Hist Rev 45:119–136
Nichols JD. 1984. Relation of organic carbon to soil properties and climate in the southern Great Plains. Soil Sci Soc Am J 48:1382–4
Norton JB, Sandor JA, White CS. 2003. Hillslope soils and organic matter dynamics within a Native American agroecosystem on the Colorado plateau. Soil Sci Soc Am J 67:225–34
Oades JM. 1988. The retention of organic matter in soils. Biogeochemistry 5:35–70
Odum EP. 1960. Organic production and turnover in old field succession. Ecology 41:34–49
Ogle SM, Breidt FJ, Paustian K. 2005. Agricultural management impacts on soil organic carbon storage under moist and dry climatic conditions of temperate and tropical regions. Biogeochemistry 72:87–121
Olson JS. 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology 44:322–31
Osher LJ, Matson PA, Amundson R. 2003. Effect of land use change on soil carbon in Hawaii. Biogeochemistry 65:213–32
Owens LB, Malone RW, Hothem DL, Starr GC, Lal R. 2002. Sediment carbon concentration and transport from small watersheds under various conservation tillage practices. Soil Tillage Res 67:65–73.
Parfitt RL, Parshotam A, Salt GJ. 2002. Carbon turnover in two soils with contrasting mineralogy under long-term maize and pasture. Aust J Soil Res 40:127–136
Parton WJ, Schimel DS, Cole CV, Ojima DS. 1987. Analysis of factors controlling soil organic matter levels on Great Plains grasslands. Soil Sci So Am J 51:1173–9
Paul EA, Morris SJ, Six J, Paustian K, Gregorich EG. 2003. Interpretation of soil carbon and nitrogen dynamics in agricultural and afforested soils. Soil Sci Soc Am J 67:1620–8
Paul KI, Polglase PJ, Nyakuengama JG, Khanna PK. 2002. Change in soil carbon following afforestation. For Ecol Manage 168:241–57
Paustian K, Andren O, Janzen HH, Lal R, Smith P, Tian G, Tiessen H, others. 1997a. Agricultural soils as a sink to mitigate CO2 emissions. Soil Use Manage 13:230–44.
Paustian K, Collins HP, Paul EA. 1997b. Management controls on soil carbon. In: Paul EA, editor. Soil organic matter in temperate agrocecosystems. Boca Raton (FL): CRC Press.
Percival HJ, Parfitt RL, Scott NA. 2000. Factors controlling soil carbon levels in New Zealand grasslands: is clay content important? Soil Sci Soc Am J 64:1623–30
Post WM, Kwon KC. 2000. Soil carbon sequestration and land-use change: processes and potential. Global Change Biol 6:317–27
Post WM, Emanuel WR, Zinke PJ, Stangenberger AG. 1982. Soil carbon pools and world life zones. Nature 298:156–9
Post WM, Izaurralde RC, Jastrow JD, McCarl BA, Amonette JE, Bailey VL, Jardine PM, others. 2004. Enhancement of carbon sequestration in US soils. BioScience 54:895–908
Potter KN, Torbert HA, Johnson HB, Tischler CR. 1999. Carbon storage after long-term grass establishment on degraded soils. Soil Sci 164:718–25
Ramankutty N, Foley JA. 1998. Characterizing patterns of global land use: an analysis of global croplands data. Global Biogeochem Cycles 12:667–85
Ramankutty N, Foley JA. 1999. Estimating historical changes in land cover: North American croplands from 1850 to 1992. Global Ecol and Biogeogr 8:381–96
Rasmussen PE, Parton WJ. 1994. Long-term effects of residue management in wheat-fallow 1. Inputs, yield, and soil organic matter. Soil Sci Soc Am J 58:523–30
Rasmussen PE, Douglas CL, Collins HP, Albrecht SL. 1998a. Long-term cropping system effects on mineralizable nitrogen in soil. Soil Biol Biochem 30:1829–37
Rasmussen PE, Goulding KWT, Brown JR, Grace PR, Janzen HH, Korschens M. 1998b. Long-term agroecosystem experiments: assessing agricultural sustainability and global change. Science 282:893–6
Reeder JD, Schuman GE, Bowman RA. 1998. Soil C and N changes on conservation reserve program lands in the Central Great Plains. Soil Tillage Res 47:339–49
Reicosky DC, Kemper WD, Langdale GW, Douglas CL, Rasmussen PE. 1995. Soil organic matter changes resulting from tillage and biomass production. J Soil Water Conserv 50:253–61.
Reicosky DC, Dugas WA, Torbert HA. 1997. Tillage-induced soil carbon dioxide loss from different cropping systems. Soil Tillage Res 41:105–18
Resh SC, Binkley D, Parrotta JA. 2002. Greater soil carbon sequestration under nitrogen-fixing trees compared with eucalyptus species. Ecosystems 5:217–31
Richter DD, Markewitz D. 2001. Understanding soil change: soil sustainability over millennia, centuries, and decades. Cambridge (UK): Cambridge University Press
Richter DD, Markewitz D, Trumbore SE, Wells CG. 1999. Rapid accumulation and turnover of soil carbon in a re-establishing forest. Nature 400:56–8
Richter DD, Markewitz D, Heine PR, Jin V, Raikes J, Tian K, Wells CG. 2000. Legacies of agriculture and forest regrowth in the nitrogen of old-field soils. For Ecol Manage 138:233–48
Riley WJ, Ortiz-Monasterio I, Matson PA. 2001. Nitrogen leaching and soil nitrate, nitrite, and ammonium levels under irrigated wheat in northern Mexico. Nutri Cycl Agroecosyst 61:223–36
Robles MD, Burke IC. 1998. Soil organic matter recovery on conservation reserve program fields in southwestern Wyoming. Soil Sci Soc Am J 62:725–30
Rotz CA, Taube F, Russelle MP, Oenema J, Sanderson MA, Wachendorf M. 2005. Whole-farm perspectives of nutrient flows in grassland agriculture. Crop Sci 45:2139–59
Sandor JA, Eash NS. 1995. Ancient agricultural soils in the Andes of southern Peru. Soil Sci Soc Am J 59:170–9
Sandor JA, Gersper PL, Hawley JW. 1986a. Soils at prehistoric agricultural terracing sites in New Mexico. II. Organic matter and bulk density changes. Soil Sci Soc Am J 50:173–7
Sandor JA, Gersper PL, Hawley JW. 1986b. Soils at prehistoric agricultural terracing sites in New Mexico. III. Phosphorus, selected micronutrients, and pH. Soil Sci Soc Am J 50:177–80
Schimel DS, Coleman DC, Horton KA. 1985. Soil organic-matter dynamics in paired rangeland and cropland toposequences in North Dakota. Geoderma 36:201–14
Schipper LA, Percival HJ, Sparling GP. 2004. An approach for estimating when soils will reach maximum nitrogen storage. Soil Use Manage 20:281–6
Schlesinger WH. 1990. Evidence from chronosequence studies for a low carbon-storage potential of soils. Nature 348:232–4
Schmidt JP, Buol SW, Kamprath EJ. 1996. Soil phosphorus dynamics during seventeen years of continuous cultivation: fractionation analyses. Soil Sci Soc Am J 60:1168–72
Simpson IA, van Bergen PF, Perret V, Elhmmali MM, Roberts DJ, Evershed RP. 1999. Lipid biomarkers of manuring practice in relict anthropogenic soils. Holocene 9:223–9
Six J, Elliott ET, Paustian K. 2000. Soil macroaggregate turnover and microaggregate formation: a mechanism for C sequestration under no-tillage agriculture. Soil Biol Biochem 32:2099–103
Six J, Conant RT, Paul EA, Paustian K. 2002. Stabilization mechanisms of soil organic matter: implications for C-saturation of soils. Plant Soil 241:155–76
Skjemstad JO, Clarke P, Taylor JA, Oades JM, McClure SG. 1996. The chemistry and nature of protected carbon in soil. Aust J Soil Res 34:251–71
Skjemstad JO, Reicosky DC, Wilts AR, McGowan JA. 2002. Charcoal carbon in U.S. agricultural soils. Soil Sci Soc Am J 66:1249–55
Smith BD. 1995. The emergence of agriculture. New York: Scientific American Library
Smith J, Smith P, Wattenbach M, Zaehle S, Hiederer R, Jones RJA, Montanarella L, others. 2005a. Projected changes in mineral soil carbon of European croplands and grasslands, 1990–2080. Global Change Biol 11:2141–52
Smith P, Andren O, Karlsson T, Perala P, Regina K, Rounsevell M, van Wesemael B. 2005b. Carbon sequestration potential in European croplands has been overestimated. Global Change Biol 11:2153–63
Smith SV, Sleezer RO, Renwick WH, Buddemeier RW. 2005c. Fates of eroded soil organic carbon: Mississippi Basin case study. Ecol Appl 15:1929–40
Springob G, Kirchmann H. 2002. C-rich sandy Ap horizons of specific historical land-use contain large fractions of refractory organic matter. Soil Biol Biochem 34:1571–81
Tiessen H, Stewart JWB. 1983. Particle-size fractions and their use in studies of soil organic matter. II. Culitvation effects on organic matter composition in size fractions. Soil Sci Soc Am J 47:509–14
Tiessen H, Stewart JW, Bettany JR. 1982. Cultivation effects on the amounts and concentrations of carbon, nitrogen, and phosphorus in grassland soils. Agron J 74:831–5
Tiessen H, Feller C, Sampaio E, Garin P. 1998. Carbon sequestration and turnover in semiarid savannas and dry forest. Clim Change 40:105–17
Tisdall JM, Oades JM. 1982. Organic matter and water-stable aggregates in soils. J Soil Sci 33:141–63
Torn MS, Trumbore SE, Chadwick OA, Vitousek PM, Hendricks DM. 1997. Mineral control of soil organic carbon storage and turnover. Nature 389:170–3
Trimble SW, Crosson P. 2000. U.S. soil erosion rates—myth and reality. Science 289:248–50
Vitousek P, Howarth R. 1991. Nitrogen limitation on land and in the sea: how can it occur? Biogeochem 13:87–115
Vitousek PM, Hattenschwiler S, Olander L, Allison S. 2002. Nitrogen and nature. Ambio 31:97–101
Vitousek PM, Ladefoged TN, Kirch PV, Hartshorn AS, Graves MW, Hotchkiss S, Tuljapurkar S, others. 2004. Soils, agriculture, and society in precontact Hawai’i. Science 304:1665–9
Watson CJ, Mills CL. 1998. Gross nitrogen transformations in grassland soils as affected by previous management intensity. Soil Biol Biochem 30:743–53
West TO, Post WM. 2002. Soil organic carbon sequestration rates by tillage and crop rotation: a global data analysis. Soil Sci Soc Am J 66:1930–46
West TO, Marland G. 2003. Net carbon flux from agriculture: carbon emissions, carbon sequestration, crop yield, and land use change. Biogeochemistry 63:73–83
White EM, Krueger CR, Moore RA. 1976. Changes in total N, organic matter, avaliable P, and bulk densities of a cultivated soil 8 years after tame pastures were established. Agronomy Journal 68:581–3
Acknowledgments
I appreciate the financial support of both the Andrew W. Mellon Foundation and the Luce Foundation during preparation of the manuscript. Many thanks to Jon Sandor, Tim Crews, Joe Craine, Ross Virginia, and the two anonymous reviewers for thorough and constructive reviews of earlier versions of the manuscript. I am also grateful for helpful discussions with Tony Hartshorn and technical assistance from Joe Craine and Andrew Elmore.
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McLauchlan, K. The Nature and Longevity of Agricultural Impacts on Soil Carbon and Nutrients: A Review. Ecosystems 9, 1364–1382 (2006). https://doi.org/10.1007/s10021-005-0135-1
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DOI: https://doi.org/10.1007/s10021-005-0135-1