Bibliography concerning Biochar, working Zotero references in a folder of Jan Hollan

(exported as MLA with URLs, hypertexted by a sed command fromMLAurl2url.sh)

“5 Ways That Biochar Is Different from Charcoal | Soil Reef Blog.” 18 Jun. 2012. (url).
Asai, Hidetoshi et al. “Biochar Amendment Techniques for Upland Rice Production in Northern Laos: 1. Soil Physical Properties, Leaf SPAD and Grain Yield.” Field Crops Research 111.1–2 (2009) : 81–84. 2 Jan. 2013. (url).
Atkinson, Christopher J., Jean D. Fitzgerald, and Neil A. Hipps. “Potential Mechanisms for Achieving Agricultural Benefits from Biochar Application to Temperate Soils: a Review.” Plant and Soil 337.1-2 (2010) : 1–18. 2 Jan. 2013. (url).
“Biochar & Forest Ecosystems.” 18 Jun. 2012. (url).
“Biochar Blanket Turns Plant Waste Into A Kiln.” 18 Jun. 2012. (url).
“Biochar Earth Network - Latest Biochar Projects in the Developed World.” 20 Mar. 2012. (url).
“Biochar Stove - A Technical Profile.” Biochar Stove. 6 Jan. 2013. (url).
“Carbon Sequestration in Terrestrial Ecosystems.” Wikipedia, the Free Encyclopedia 1 Oct. 2012. 20 Oct. 2012. (url).
Carter, S., and S. Shackley. Biochar Stoves: An Innovation Studies Perspective. 2011. . (url).
DOWNIE, ADRIANA et al. “Biochar as a Geoengineering Climate Solution: Hazard Identification and Risk Management.” Critical Reviews in Environmental Science and Technology 42.3 (2012) : 225–250. 3 Jan. 2013. (url).
Esipisu, Isaiah. “Garbage-fed Community Cooker Cuts Wood Use, Energy Costs - AlertNet.” 10 Apr. 2012. 24 Jun. 2012. (url).
“Farmers Go Green with Waste-fuelled Cooking Stoves - Environment - VietNam News.” 24 Jun. 2012. (url).
“Forest Biomass-derived Biochar Can Profitably Reduce Global Warming and Bushfire Risk - Yarra Valley Climate Action Group.” 18 Jun. 2012. (url).
Gaunt, John L., and Johannes Lehmann. “Energy Balance and Emissions Associated with Biochar Sequestration and Pyrolysis Bioenergy Production.” Environmental Science & Technology 42.11 (2008) : 4152–4158. 2 Jan. 2013. (url).
“Hopebuilding / Waste-burning Community Cooker Solves Many Problems in Kenyan Slum.” 2012 2009. 24 Jun. 2012. (url).
“Improved Biomass Cooking Stoves | This Site Exists to Help People Develop Better Stoves for Cooking with Biomass Fuels in Developing Regions.” 6 Jan. 2013. (url).
“In Africa’s Largest Slum, a Cooker That Turns Trash into Fuel - CNN.com.” 24 Jun. 2012. (url).
Jaworski, Jacek. “Kontekst Ponownego ‘odkrycia’ Zastosowania Węgla Drzewnego w Agrokulturze Oraz Jego Potencjalne Znaczenie Odnośnie Kryzysów Globalnych, a Także Ruch Społeczny z Tym Związany (przedsiębiorstwa, Organizacje, Konferencje, Źródła Informacji Online).” 2010. . (url).
---. “Potencjalna Rola w Sekwestracji CO2 Oraz Inne Możliwe Zastosowania (wzmacnianie Żyzności i Trwałości Gleb, Regeneracja Gleb Zdegradowanych, Zahamowanie Globalnego Ocieplenia i Globalnego Kryzysu Żywieniowego, Produkcja Biopaliw i Energii) i Technologie Wytwarzania.” 2010 2009. . (url).
Jetter, James J., and Peter Kariher. “Solid-fuel Household Cook Stoves: Characterization of Performance and Emissions.” Biomass and Bioenergy 33.2 (2009) : 294–305. 6 Jan. 2013. (url).
Joseph, S. D. et al. “Biochar for Carbon Sequestration, Reduction of Greenhouse Gas Emissions and Enhancement of Soil Fertility; A Review of the Materials Science.” Proceedings of the Australian Combustion Symposium. 2007. 130–133. . (url).
Lehmann, Johannes et al. “Biochar Effects on Soil Biota – A Review.” Soil Biology and Biochemistry 43.9 (2011) : 1812–1836. 2 Jan. 2013. (url).
Lehmann, Johannes, John Gaunt, and Marco Rondon. “Bio-char Sequestration in Terrestrial Ecosystems – A Review.” Mitigation and Adaptation Strategies for Global Change 11.2 (2006) : 395–419. 2 Jan. 2013. (url).
Lehmann, Johannes, and Stephen Joseph, eds. Biochar for Environmental Management: Science and Technology. Routledge, 2009. . (url).
Maroušek, Josef. “Dezintegrace Lignocelulózy Pro Bioplynové Stanice.” Biom.cz 14.8 (2012) : n. pag. . (url).
---. “o Autorovi Na CZ BIOMu. Biom.cz 14.8 (2012). (url)
---. “Removal of Hardly Fermentable Ballast from the Maize Silage to Accelerate Biogas Production.” Industrial Crops and Products 44.0 (2013) : 253–257. 1 Jan. 2013. (url).
---. “Study on Agriculture Decision-Makers Behavior on Sustainable Energy Utilization.” Journal of Agricultural and Environmental Ethics : 1–11. 1 Jan. 2013. (url).
Panwar, N.L., and N.S. Rathore. “Design and Performance Evaluation of a 5 kW Producer Gas Stove.” Biomass and Bioenergy 32.12 (2008) : 1349–1352. 6 Jan. 2013. (url).
Powell, Alison. “Democratizing Production Through Open Source Knowledge: From Open Software to Open Hardware.” Media, Culture & Society 34.6 (2012) : 691–708. 6 Jan. 2013. (url).
Reddy, Sai Bhaskar N. “GEO.” 6 Jan. 2013. (url).
---. “GOOD STOVE.” 6 Jan. 2013. (url).
Reddy, Sai Bhaskar Nakka. Understanding Stoves - For Environment and Humanity. ’s-Hertogenbosch, The Netherlands: MetaMeta, 2012. . (url).
Roberts, Kelli G. et al. “Life Cycle Assessment of Biochar Systems: Estimating the Energetic, Economic, and Climate Change Potential.” Environmental Science & Technology 44.2 (2010) : 827–833. 2 Jan. 2013. (url).
“SAI BHASKAR REDDY NAKKA.” 6 Jan. 2013. (url).
“Śląski Ogród Botaniczny w Mikołowie: Biologiczna Sekwestracja CO2.” 2 Jan. 2013. (url).
“Stove Performance Tests.” 6 Jan. 2013. (url).
Taghizadeh-Toosi, Arezoo et al. “Biochar Adsorbed Ammonia Is Bioavailable.” Plant and Soil 350.1-2 (2012) : 57–69. 3 Jan. 2013. (url).
Verheijen, F. et al. Biochar Application to Soils. Luxembourg: Office for the Official Publications of the European  Communities, 2009. . (url).
Warnock, Daniel D. et al. “Mycorrhizal Responses to Biochar in Soil – Concepts and Mechanisms.” Plant and Soil 300.1-2 (2007) : 9–20. 2 Jan. 2013. (url).
“Why Pyrolytic Stoves | World Stove.” 24 Jun. 2012. (url).
Winsley, Peter. “Biochar and Bioenergy Production for Climate Change Mitigation.” New Zealand Science Review 64.1 (2007) : 5–10. . (url).
Woolf, Dominic. “Biochar as a Soil Amendment: A Review of the Environmental Implications.” Jan. 2008. 2 Jan. 2013. (url).