A Systematic Review of Biochar Research, with a Focus on Its Stability in situ and Its Promise as a Climate Mitigation Strategy

PLoS ONE

Volumn 8, Issue 9, 2013, Pages

  Gurwick, Noel P ^a   Moore, Lisa A ^b   Kelly, Charlene ^c   Elias, Patricia ^d  

^a SMITHSONIAN ENVIRONMENTAL RESEARCH CENTER   (United States)

^b ENVIRONMENTAL DEFENSE FUND   (United States)

^c WESTERN CAROLINA UNIVERSITY   (United States)

^d UNION OF CONCERNED SCIENTISTS   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CARBON DIOXIDE; METHANE; SOIL ORGANIC MATTER;

AIR POLLUTION CONTROL; ARTICLE; BIOCHAR; BIOMASS; CARBON FOOTPRINT; CARBON SEQUESTRATION; CLIMATE CHANGE; DECOMPOSITION; POLLUTION CONTROL; SOIL AMENDMENT; SOIL POLLUTION; SOIL PROPERTY; SOIL RESPIRATION; SYSTEMATIC REVIEW;

AGRICULTURE; CHARCOAL; CONSERVATION OF NATURAL RESOURCES; FERTILIZERS; GREENHOUSE EFFECT; SOIL;

EID: 84884764997     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0075932     Document Type: Article

References (87)

1. Lal R, (2004) Soil Carbon Sequestration Impacts on Global Climate Change and Food Security. Science 304: 1623-1627.
2. Lal R, Follett RF, Stewart BA, Kimble JM, (2007) Soil Carbon Sequestration to Mitigate Climate Change and Advance Food Security. Soil Science 172: 943-956 910.1097/ss.1090b1013e31815cc31498.
3. Paustian K, Six J, Elliott ET, Hunt HW, (2000) Management options for reducing CO2 emissions from agricultural soils. Biogeochemistry 48: 147-163.
4. Smith P, Fang C, Dawson JJC, Moncrieff JB (2008) Impact of Global Warming on Soil Organic Carbon. In: Donald LS, editor. Advances in Agronomy: Academic Press. pp. 1-43.
5. Magdoff F, Van Es H (2009) Building soils for better crops: sustainable soil management 3rd edn. Sustainable Agriculture Network handbook series 10. Sustainable Agriculture Publications, Waldorf, MD.
6. Powlson DS, Gregory PJ, Whalley WR, Quinton JN, Hopkins DW, et al. (2011) Soil management in relation to sustainable agriculture and ecosystem services. Food Policy 36: S72-S87.
7. Olander LP, Murray BC, Profeta T, Galik C, Dawson M (2008) Designing Offsets Policy for the US: Principles, challenges, and options for encouraging domestic and international emissions reductions and sequestration from uncapped entities as part of a federal cap-and-trade for greenhouse gases: Nicholas Institute for Environmental Policy Solutions, Nicholas School of the Environment and Earth Sciences.
8. Laird DA, Brown RC, Amonette JE, Lehmann J, (2009) Review of the pyrolysis platform for coproducing bio-oil and biochar. Biofuels Bioproducts & Biorefining-Biofpr 3: 547-562.
9. Sohi SP, Krull E, Lopez-Capel E, Bol R (2010) A review of biochar and its use and function in soil. In: Sparks DL, editor. Advances in Agronomy, Vol 105. pp. 47-82.
10. Larson RW. Using biochar for cost-effective CO2 sequestration in soils; 2009. Springer. pp. 2462-2467.
11. Spokas KA, (2010) Review of the stability of biochar in soils: predictability of O: C molar ratios. Carbon Management 1: 289-303.
12. Matovic D, (2011) Biochar as a viable carbon sequestration option: Global and Canadian perspective. Energy 36: 2011-2016.
13. Kanter J (2009) Debating the Climate Benefits of 'Biochar'. Green: The New York Times.
14. Lovins HL, Cohen B (2011) Biochar. The Way Out Kick-Starting Capitalizm to Save Our Economic Ass. New York: Hill and Wang. pp. 390.
15. De Gryze S, Cullen M, Durschinger L, Lehmann J, Bluhm D, et al. (2010) Evaluation of the opportunities for generating carbon offsets from soil sequestration of biochar. An issues paper commissioned by the Climate Action Reserve, final version.
16. Weisberg P, Delaney M, Hawkes J (2010) Carbon Market Investment Criteria for Biochar Projects. PortlandOR: The Climate Trust. 38 p.
17. International Biochar Initiative (2013) How much CO2 can biochar potentially remove from the atmosphere?: International Biochar Initiative website. Available: http://www.biochar-international.org/biochar/faqs#q10. Accessed 27 Aug 2013.
18. International Biochar Initiative (2013) International Policy. International Biochar Initiative website. Available: http://www.biochar-international.org/policy/international. Accessed 27 August 2013.
19. International Biochar Initiative (2013) Apr 2013 Update: Biochar Carbon Offset Protocol Submitted for Validation at American Carbon Registry. International Biochar Initiative website. Available: http://www.biochar-international.org/protocol. Accessed 27 Aug 2013.
20. Glaser B, Haumaier L, Guggenberger G, Zech W, (2001) The 'Terra Preta' phenomenon: a model for sustainable agriculture in the humid tropics. Naturwissenschaften 88: 37-41.
21. International Biochar Initiative (2013) What Is Biochar? International Biochar Initiative website. Available: http://www.biochar-international.org/biochar. Accessed 27 Aug 2013.
22. Glaser B, Balashov E, Haumaier L, Guggenberger G, Zech W, (2000) Black carbon in density fractions of anthropogenic soils of the Brazilian Amazon region. Organic Geochemistry 31: 669-678.
23. Roberts KG, Gloy BA, Joseph S, Scott NR, Lehmann J, (2010) Life Cycle Assessment of Biochar Systems: Estimating the Energetic, Economic, and Climate Change Potential. Environmental Science & Technology 44: 827-833.
24. Asai H, Samson BK, Stephan HM, Songyikhangsuthor K, Homma K, et al. (2009) Biochar amendment techniques for upland rice production in Northern Laos 1. Soil physical properties, leaf SPAD and grain yield. Field Crops Research 111: 81-84.
25. Blackwell P, Krull E, Butler G, Herbert A, Solaiman Z, (2010) Effect of banded biochar on dryland wheat production and fertiliser use in south-western Australia: an agronomic and economic perspective. Soil Research 48: 531-545.
26. Jeffery S, Verheijen FGA, van der Velde M, Bastos AC, (2011) A quantitative review of the effects of biochar application to soils on crop productivity using meta-analysis. Agriculture Ecosystems & Environment 144: 175-187.
27. Kammann CI, Linsel S, Gossling JW, Koyro HW, (2011) Influence of biochar on drought tolerance of Chenopodium quinoa Willd and on soil-plant relations. Plant and Soil 345: 195-210.
28. Karami N, Clemente R, Moreno-Jimenez E, Lepp NW, Beesley L, (2011) Efficiency of green waste compost and biochar soil amendments for reducing lead and copper mobility and uptake to ryegrass. Journal of Hazardous Materials 191: 41-48.
29. Karhu K, Mattila T, Bergstrom I, Regina K, (2011) Biochar addition to agricultural soil increased CH4 uptake and water holding capacity- Results from a short-term pilot field study. Agriculture Ecosystems & Environment 140: 309-313.
30. Streubel JD, Collins HP, Garcia-Perez M, Tarara J, Granatstein D, et al. (2011) Influence of Contrasting Biochar Types on Five Soils at Increasing Rates of Application. Soil Science Society of America Journal 75: 1402-1413.
31. Jeffery S, Verheijen FGA, Bastos AC, Van Der Velde M, (2013) A comment on 'Biochar and its effects on plant productivity and nutrient cycling: a meta-analysis': on the importance of accurate reporting in supporting a fast-moving research field with policy implications. GCB Bioenergy pp. n/a-n/a.
32. Kookana RS, Sarmah AK, Van Zwieten L, Krull E, Singh B (2011) Biochar application to soil: Agronomic and environmental benefits and unintended consequences. In: Sparks DL, editor. Advances in Agronomy, Vol 112. pp. 103-143.
33. Moher D, Liberati A, Tetzlaff J, Altman DG, (2009) Group TP (2009) Preferred Reporting Items for Systematic Reviews and Meta-Analyses: The PRISMA Statement. PLoS Med 6: e1000097.
34. Anderson CR, Condron LM, Clough TJ, Fiers M, Stewart A, et al. (2011) Biochar induced soil microbial community change: Implications for biogeochemical cycling of carbon, nitrogen and phosphorus. Pedobiologia 54: 309-320.
35. Cheng C-H, Lehmann J, Thies JE, Burton SD, Engelhard MH, (2006) Oxidation of black carbon by biotic and abiotic processes. Organic Geochemistry 37: 1477-1488.
36. Biederman LA, Harpole WS, (2013) Biochar and its effects on plant productivity and nutrient cycling: a meta-analysis. GCB Bioenergy 5: 202-214.
37. Vaccari FP, Baronti S, Lugato E, Genesio L, Castaldi S, et al. (2011) Biochar as a strategy to sequester carbon and increase yield in durum wheat. European Journal of Agronomy 34: 231-238.
38. Knorr W, Prentice IC, House JI, Holland EA, (2005) Long-term sensitivity of soil carbon turnover to warming. Nature 433: 298-301.
39. Luo Y, (2007) Terrestrial Carbon-Cycle Feedback to Climate Warming. Annual Review of Ecology, Evolution, and Systematics 38: 683-712.
40. Melillo JM, Steudler PA, Aber JD, Newkirk K, Lux H, et al. (2002) Soil Warming and Carbon-Cycle Feedbacks to the Climate System. Science 298: 2173-2176.
41. Carpenter SR, Mooney HA, Agard J, Capistrano D, DeFries RS, et al. (2009) Science for managing ecosystem services: Beyond the Millennium Ecosystem Assessment. Proceedings of the National Academy of Sciences 106: 1305-1312.
42. Reid W, Chen D, Goldfarb L, Hackmann H, Lee Y, et al. (2010) Earth system science for global sustainability: Grand challenges. Science(Washington) 330: 916-917.
43. Schindler DW, (1974) Eutrophication and Recovery in Experimental Lakes: Implications for Lake Management. Science 184: 897-898.
44. Likens GE, Bormann FH (1995) Biogeochemistry of a Forested Ecosystem. New York: Springer-Verlag. 159 p.
45. Dukes JS, Chiariello NR, Cleland EE, Moore LA, Shaw MR, et al. (2005) Responses of grassland production to single and multiple global environmental changes. PLoS Biology 3: e319.
46. Reich PB, Hungate BA, Luo Y, (2006) Carbon-Nitrogen Interactions in Terrestrial Ecosystems in Response to Rising Atmospheric Carbon Dioxide. Annual Review of Ecology, Evolution, and Systematics 37: 611-636.
47. Hammes K, Torn MS, Lapenas AG, Schmidt MWI, (2008) Centennial black carbon turnover observed in a Russian steppe soil. Biogeosciences 5: 1339-1350.
48. Major J, Lehmann J, Rondon M, Goodale C, (2010) Fate of soil-applied black carbon: downward migration, leaching and soil respiration. Global Change Biology 16: 1366-1379.
49. Nguyen BT, Lehmann J, Kinyangi J, Smernik R, Riha SJ, et al. (2009) Long-term black carbon dynamics in cultivated soil. Biogeochemistry 92: 163-176.
50. Bird MI, Moyo C, Veenendaal EM, Lloyd J, Frost P, (1999) Stability of elemental carbon in a savanna soil. Global Biogeochem Cycles 13: 923-932.
51. Knoblauch C, Maarifat AA, Pfeiffer EM, Haefele SM, (2011) Degradability of black carbon and its impact on trace gas fluxes and carbon turnover in paddy soils. Soil Biology & Biochemistry 43: 1768-1778.
52. Kameyama K, Shinogi Y, Miyamoto T, Agarie K, (2010) Estimation of net carbon sequestration potential with farmland application of bagasse charcoal: life cycle inventory analysis through a pilot sugarcane bagasse carbonisation plant. Australian Journal of Soil Research 48: 586-592.
53. Ogawa M, Okimori Y, Takahashi F, (2006) Carbon sequestration by carbonization of biomass and forestation: three case studies. Mitigation and Adaptation Strategies for Global Change 11: 421-436.
54. Pratt K, Moran D, (2010) Evaluating the cost-effectiveness of global biochar mitigation potential. Biomass & Bioenergy 34: 1149-1158.
55. Cooper JM, Butler G, Leifert C, (2011) Life cycle analysis of greenhouse gas emissions from organic and conventional food production systems, with and without bio-energy options. Njas-Wageningen Journal of Life Sciences 58: 185-192.
56. Yanai RD, Arthur MA, Siccama TG, Federer CA, (2000) Challenges of measuring forest floor organic matter dynamics:: Repeated measures from a chronosequence. Forest Ecology and Management 138: 273-283.
57. Cheng C-h, Lehmann JC, Engelhard MH, (2008) Natural Oxidation of Black Carbon in Soils: Changes in Molecular Form and Surface Charge along a Climosequence. Geochimica et Cosmochimica Acta 72: 1598-1610.
58. Haefele SM, Konboon Y, Wongboon W, Amarante S, Maarifat AA, et al. (2011) Effects and fate of biochar from rice residues in rice-based systems. Field Crops Research 121: 430-440.
59. Whitman T, Nicholson CF, Torres D, Lehmann J, (2011) Climate Change Impact of Biochar Cook Stoves in Western Kenyan Farm Households: System Dynamics Model Analysis. Environmental Science & Technology 45: 3687-3694.
60. Woolf D, Amonette JE, Street-Perrott FA, Lehmann J, Joseph S, (2010) Sustainable biochar to mitigate global climate change. Nature Communications 1.
61. Chan KY, Van Zwieten L, Meszaros I, Downie A, Joseph S, (2008) Using poultry litter biochars as soil amendments. Australian Journal of Soil Research 46: 437-444.
62. Gaskin JW, Steiner C, Harris K, Das KC, Bibens B, (2008) Effect of low-temperature pyrolysis conditions on biochhar for agricultural use. Transactions of the Asabe 51: 2061-2069.
63. Busscher WJ, Novak JM, Evans DE, Watts DW, Niandou MAS, et al. (2010) Influence of Pecan Biochar on Physical Properties of a Norfolk Loamy Sand. Soil Science 175: 10-14 10.1097/SS.1090b1013e3181cb1097f1046.
64. Spokas K, Reicosky D, (2009) Impacts of sixteen different biochars on soil greenhouse gas production. Annals of Environmental Science 3.
65. Dai X, Boutton TW, Glaser B, Ansley RJ, Zech W, (2005) Black carbon in a temperate mixed-grass savanna. Soil Biology and Biochemistry 37: 1879-1881.
66. Kane E, Hockaday W, Turetsky M, Masiello C, Valentine D, et al. (2010) Topographic controls on black carbon accumulation in Alaskan black spruce forest soils: implications for organic matter dynamics. Biogeochemistry 100: 39-56.
67. Fraser LH, Henry HAL, Carlyle CN, White SR, Beierkuhnlein C, et al. (2012) Coordinated distributed experiments: an emerging tool for testing global hypotheses in ecology and environmental science. Frontiers in Ecology and the Environment 11: 147-155.
68. Cheng C-H, Lehmann J, Engelhard MH, (2008) Natural oxidation of black carbon in soils: Changes in molecular form and surface charge along a climosequence. Geochimica et Cosmochimica Acta 72: 1598-1610.
69. Castaldi S, Riondino M, Baronti S, Esposito FR, Marzaioli R, et al. (2011) Impact of biochar application to a Mediterranean wheat crop on soil microbial activity and greenhouse gas fluxes. Chemosphere 85: 1464-1471.
70. Scheer C, Grace PR, Rowlings DW, Kimber S, Van Zwieten L, (2011) Effect of biochar amendment on the soil-atmosphere exchange of greenhouse gases from an intensive subtropical pasture in northern New South Wales, Australia. Plant and Soil 345: 47-58.
71. Zhang AF, Cui LQ, Pan GX, Li LQ, Hussain Q, et al. (2010) Effect of biochar amendment on yield and methane and nitrous oxide emissions from a rice paddy from Tai Lake plain, China. Agriculture Ecosystems & Environment 139: 469-475.
72. Cheng WX, Coleman DC, (1990) Effect of Living Roots On Soil Organic-Matter Decomposition. Soil Biology & Biochemistry 22: 781-787.
73. Dijkstra FA, Cheng W, (2007) Interactions between soil and tree roots accelerate long-term soil carbon decomposition. Ecology Letters 10: 1406.
74. Kuzyakov Y, Bol R, (2006) Sources and mechanisms of priming effect induced in two grassland soils amended with slurry and sugar. Soil Biology & Biochemistry 38: 747-758.
75. Zhang W, Wang X, Wang S, (2013) Addition of External Organic Carbon and Native Soil Organic Carbon Decomposition: A Meta-Analysis. PLoS ONE 8: e54779.
76. Wardle DA, Nilsson M-C, Zackrisson O, (2008) Fire-Derived Charcoal Causes Loss of Forest Humus. Science 320: 629.
77. Lehmann J, Sohi S, (2008) Comment on "Fire-Derived Charcoal Causes Loss of Forest Humus". Science 321: 1295.
78. Zimmerman AR, Gao B, Ahn MY, (2011) Positive and negative carbon mineralization priming effects among a variety of biochar-amended soils. Soil Biology & Biochemistry 43: 1169-1179.
79. Kline KL, Dale VH, (2008) Biofuels: effects on land and fire. Science (Washington) 321.
80. McKone TE, Nazaroff WW, Berck P, Auffhammer M, Lipman T, et al. (2011) Grand Challenges for Life-Cycle Assessment of Biofuels. Environmental Science & Technology 45: 1751-1756.
81. Searchinger T, Heimlich R, Houghton RA, Dong F, Elobeid A, et al. (2008) Use of US croplands for biofuels increases greenhouse gases through emissions from land-use change. Science 319: 1238-1240.
82. Hammond J, Shackley S, Sohi S, Brownsort P, (2011) Prospective life cycle carbon abatement for pyrolysis biochar systems in the UK. Energy Policy 39: 2646-2655.
83. Gaunt JL, Lehmann J, (2008) Energy Balance and Emissions Associated with Biochar Sequestration and Pyrolysis Bioenergy Production. Environmental Science & Technology 42: 4152-4158.
84. Freschet GT, Weedon JT, Aerts R, van Hal JR, Cornelissen JH, (2012) Interspecific differences in wood decay rates: insights from a new short-term method to study long-term wood decomposition. Journal of Ecology 100: 161-170.
85. Schowalter T, Caldwell B, Carpenter S, Griffiths R, Harmon M, et al. (1992) Decomposition of fallen trees: effects of initial conditions and heterotroph colonization rates. In: Singh K, Singh J, editors. Tropical Ecosystems: Ecology and Management. New Delhi: Wiley Eastern Limited. pp. 373-383.
86. Harmon ME, Franklin JF, Swanson FJ, Sollins P, Gregory S, et al. (1986) Ecology of coarse woody debris in temperate ecosystems. Advances in ecological research 15: 302.
87. Skog KE, (2008) Sequestration of carbon in harvested wood products for the United States. Forest Products Journal 58: 56.