Articles citing this paper
Influence of biochars on flux of N2O and CO2 from Ferrosol
L. van Zwieten A E , S. Kimber A , S. Morris A , A. Downie B C , E. Berger A , J. Rust A and C. Scheer D
+ Author Affiliations
- Author Affiliations
A NSW Industry and Investment, 1243 Bruxner Highway, Wollongbar, NSW 2477, Australia.
B Pacific Pyrolysis P/L, Somersby, NSW 2250, Australia.
C University of New South Wales, School of Materials Science and Engineering, Sydney, NSW 2052, Australia.
D Queensland University of Technology, Institute for Sustainable Resources, Gardens Point, Qld 4001, Australia.
E Corresponding author. Email: lukas.van.zwieten@industry.nsw.gov.au
Australian Journal of Soil Research 48(7) 555-568 https://doi.org/10.1071/SR10004
Submitted: 5 January 2010 Accepted: 16 June 2010 Published: 28 September 2010
334 articles found in Crossref database.
Dynamic biochar effects on nitrogen use efficiency, crop yield and soil nitrous oxide emissions during a tropical wheat-growing season
Abbruzzini Thalita Fernanda,
Davies Christian Andrew,
Toledo Fernando Henrique, Cerri Carlos Eduardo Pellegrino
Journal of Environmental Management. 2019 252 p.109638
Co‐generated fast pyrolysis biochar mitigates green‐house gas emissions and increases carbon sequestration in temperate soils
Stewart Catherine E.,
Zheng Jiyong,
Botte Jorin, Cotrufo M. Francesca
GCB Bioenergy. 2013 5(2). p.153
Mitigating Salinity Stress in Quinoa (Chenopodium quinoa Willd.) with Biochar and Superabsorber Polymer Amendments
Derbali Imed,
Derbali Walid,
Gharred Jihed,
Manaa Arafet,
Slama Inès, Koyro Hans-Werner
Plants. 2023 13(1). p.92
Does biochar accelerate the mitigation of greenhouse gaseous emissions from agricultural soil? - A global meta-analysis
Shakoor Awais,
Arif Muhammad Saleem,
Shahzad Sher Muhammad,
Farooq Taimoor Hassan,
Ashraf Fatima,
Altaf Muhammad Mohsin,
Ahmed Waqas,
Tufail Muhammad Aammar, Ashraf Muhammad
Environmental Research. 2021 202 p.111789
Biochar does not mitigate field-scale N2O emissions in a Northern California vineyard: An assessment across two years
Verhoeven Elizabeth, Six Johan
Agriculture, Ecosystems & Environment. 2014 191 p.27
Effects of activated charcoal and tannin added to compost and to soil on carbon dioxide, nitrous oxide and ammonia volatilization
Jordan Greta,
Predotova Martina,
Ingold Mariko,
Goenster Sven,
Dietz Herbert,
Joergensen Rainer Georg, Buerkert Andreas
Journal of Plant Nutrition and Soil Science. 2015 178(2). p.218
Hydrothermal processes as treatment paths for biogenic residues in Germany: A review of the technology, sustainability and legal aspects
Reißmann Daniel,
Thrän Daniela, Bezama Alberto
Journal of Cleaner Production. 2018 172 p.239
How can potatoes be smartly cultivated with biochar as a soil nutrient amendment technique in Atlantic Canada?
Farooque Aitazaz A.,
Zaman Qamar,
Abbas Farhat,
Hammad Hafiz Mohkum,
Acharya Bishnu, Easu Travis
Arabian Journal of Geosciences. 2020 13(9).
Sugarcane bagasse biochars impact respiration and greenhouse gas emissions from a latosol
Deng Wangang,
Van Zwieten Lukas,
Lin Zhaomu,
Liu Xingyuan,
Sarmah Ajit K, Wang Hailong
Journal of Soils and Sediments. 2017 17(3). p.632
Effects of solid oxygen fertilizers and biochars on nitrous oxide production from agricultural soils in Florida
Bera Tanumoy,
Inglett Kanika S., Liu Guodong D.
Scientific Reports. 2020 10(1).
Effects of Biochar Amendment on N2O Emissions from Soils with Different pH Levels
Lin Feng,
Wang Hong,
Shaghaleh Hiba,
Ali Adam Hamad Amar,
Zhang Yaojun,
Yang Bairen, Alhaj Hamoud Yousef
Atmosphere. 2024 15(1). p.68
Effects of biochar addition on greenhouse gas emissions during freeze–thaw cycles in a black soil region, Northeast China
Wang Lihong,
Liu Hui,
Li Hongyu,
Yang Aizheng,
Zhang Zuowei, Wang Lijun
Soil Use and Management. 2023 39(1). p.134
Effects of biochar application in forest ecosystems on soil properties and greenhouse gas emissions: a review
Li Yongfu,
Hu Shuaidong,
Chen Junhui,
Müller Karin,
Li Yongchun,
Fu Weijun,
Lin Ziwen, Wang Hailong
Journal of Soils and Sediments. 2018 18(2). p.546
Biochar with large specific surface area recruits N2O-reducing microbes and mitigate N2O emission
Liao Jiayuan,
Hu Ang,
Zhao Ziwei,
Liu Xiangrong,
Jiang Chu, Zhang Zhenhua
Soil Biology and Biochemistry. 2021 156 p.108212
Impact of organic fertilizer substitution and biochar amendment on net greenhouse gas budget in a tea plantation
Han Zhaoqiang,
Lin Haiyan,
Xu Pinshang,
Li Zhutao,
Wang Jinyang, Zou Jianwen
Agriculture, Ecosystems & Environment. 2022 326 p.107779
Biochar, hydrochar and uncarbonized feedstock application to permanent grassland—Effects on greenhouse gas emissions and plant growth
Schimmelpfennig Sonja,
Müller Christoph,
Grünhage Ludger,
Koch Christian, Kammann Claudia
Agriculture, Ecosystems & Environment. 2014 191 p.39
Current Developments in Biotechnology and Bioengineering (2017)
Biochar-N fertilizer interaction increases N utilization efficiency by modifying soil C/N component under N fertilizer deep placement modes
Xia Hao,
Riaz Muhammad,
Zhang Mengyang,
Liu Bo,
Li Yuxuan,
El-Desouki Zeinab, Jiang Cuncang
Chemosphere. 2022 286 p.131594
Ảnh hưởng của hai loại biochar trấu đến sự phát thải khí CH4 và N2O từ đất phù sa trong điều kiện phòng thí nghiệm
Nam Trần Sỹ,
Nhựt Hồ Minh,
Trâm Nguyễn Ngọc Bảo,
Thảo Huỳnh Văn,
Xuân Đỗ Thị, Chiếm Nguyễn Hữu
Can Tho University Journal of Science. 2020 56(SoilScience) p.109
Linking N2O emissions from biochar-amended soil to the structure and function of the N-cycling microbial community
Harter Johannes,
Krause Hans-Martin,
Schuettler Stefanie,
Ruser Reiner,
Fromme Markus,
Scholten Thomas,
Kappler Andreas, Behrens Sebastian
The ISME Journal. 2014 8(3). p.660
Rhodamine B Dye Adsorption onto Biochar from Olive Biomass Waste
Albanio Isadora Iensen,
Muraro Pâmela Cristine Ladwig, da Silva William Leonardo
Water, Air, & Soil Pollution. 2021 232(5).
Driving mechanisms of the soil aggregate breakdown-formation on soil organic carbon mineralization under splash erosion
Bai Lulu,
Shi Peng,
Xiao Jun,
Li Zhanbin,
Li Peng,
Liu Xiaohuang,
Xu Duoxun, Wang Bo
Soil and Tillage Research. 2025 254 p.106761
Cycles of carbon, nitrogen and phosphorus in poultry manure management technologies – environmental aspects
Kacprzak Małgorzata,
Malińska Krystyna,
Grosser Anna,
Sobik-Szołtysek Jolanta,
Wystalska Katarzyna,
Dróżdż Danuta,
Jasińska Anna, Meers Erik
Critical Reviews in Environmental Science and Technology. 2023 53(8). p.914
Biochar in Mitigating Abiotic Stress in Plants (2025)
Reducing Acidity of Tropical Acid Soil to Improve Phosphorus Availability and Zea mays L. Productivity through Efficient Use of Chicken Litter Biochar and Triple Superphosphate
Maru Ali,
Haruna Ahmed Osumanu,
Asap Audrey,
Majid Nik Muhamad Abd.,
Maikol Nathaniel, Jeffary Alicia Vanessa
Applied Sciences. 2020 10(6). p.2127
Biochar does not affect soil N-transformations or microbial community structure under ruminant urine patches but does alter relative proportions of nitrogen cycling bacteria
Anderson C.R.,
Hamonts K.,
Clough T.J., Condron L.M.
Agriculture, Ecosystems & Environment. 2014 191 p.63
Environment, Climate, Plant and Vegetation Growth (2020)
Effect of biochar on the properties of loamy sand Spodosol soil samples with different fertility levels: A laboratory experiment
Rizhiya E. Ya.,
Buchkina N. P.,
Mukhina I. M.,
Belinets A. S., Balashov E. V.
Eurasian Soil Science. 2015 48(2). p.192
Changes in the Soil–Plant–Water System Due to Biochar Amendment
Horel Ágota, Tóth Eszter
Water. 2021 13(9). p.1216
Role of 15N in tracing biologically driven nitrogen dynamics in soils amended with biochar: A review
Craswell Eric T.,
Chalk Phillip M., Kaudal Bhawana Bhatta
Soil Biology and Biochemistry. 2021 162 p.108416
Agricultural and Environmental Applications of Biochar: Advances and Barriers (2015)
Nano‐biochar: Properties and prospects for sustainable agriculture
Shafiq Fahad,
Anwar Sumera,
Firdaus‐e‐Bareen ,
Zhang Lixin, Ashraf Muhammad
Land Degradation & Development. 2023 34(9). p.2445
Variable responses of nitrification and denitrification in a paddy soil to long-term biochar amendment and short-term biochar addition
He Lili,
Shan Jun,
Zhao Xu,
Wang Shenqiang, Yan Xiaoyuan
Chemosphere. 2019 234 p.558
Soils and Landscape Restoration (2021)
Effect of Biogas Digested Liquid on CH4 and N2O Flux in Paddy Ecosystem
Singla Ankit, Inubushi Kazuyuki
Journal of Integrative Agriculture. 2014 13(3). p.635
Plant-biochar interactions drive the negative priming of soil organic carbon in an annual ryegrass field system
Weng Zhe (Han),
Van Zwieten Lukas,
Singh Bhupinder Pal,
Kimber Stephen,
Morris Stephen,
Cowie Annette, Macdonald Lynne M.
Soil Biology and Biochemistry. 2015 90 p.111
Benchmarking nitrous oxide emissions in deciduous tree cropping systems
Swarts Nigel,
Montagu Kelvin,
Oliver Garth,
Southam-Rogers Liam,
Hardie Marcus,
Corkrey Ross,
Rogers Gordon, Close Dugald
Soil Research. 2016 54(5). p.500
Characterization of an enriched biochar
Chia Chee H.,
Singh Bhupinder Pal,
Joseph Stephen,
Graber Ellen R., Munroe Paul
Journal of Analytical and Applied Pyrolysis. 2014 108 p.26
Does soil aging affect the N2O mitigation potential of biochar? A combined microcosm and field study
Hagemann Nikolas,
Harter Johannes,
Kaldamukova Radina,
Guzman‐Bustamante Ivan,
Ruser Reiner,
Graeff Simone,
Kappler Andreas, Behrens Sebastian
GCB Bioenergy. 2017 9(5). p.953
Differential responses of soil N2O to biochar depend on the predominant microbial pathway
Ji Cheng,
Li Shuqing,
Geng Yajun,
Miao Yingcheng,
Ding Ying,
Liu Shuwei, Zou Jianwen
Applied Soil Ecology. 2020 145 p.103348
Consumer Preferences and Willingness to Pay for Potting Mix with Biochar
Thomas McKenzie,
Jensen Kimberly L.,
Lambert Dayton M.,
English Burton C.,
Clark Christopher D., Walker Forbes R.
Energies. 2021 14(12). p.3432
‘Bioenergy from cattle manure? Implications of anaerobic digestion and subsequent pyrolysis for carbon and nitrogen dynamics in soil’
Schouten Socrates,
van Groenigen Jan W.,
Oenema Oene, Cayuela Maria L.
GCB Bioenergy. 2012 4(6). p.751
Biochar for Sustainable Soil Health: A Review of Prospects and Concerns
LONE Aabid H.,
NAJAR Ghulam R.,
GANIE Mumtaz A.,
SOFI Javid A., ALI Tahir
Pedosphere. 2015 25(5). p.639
Biochar-mediated reductions in greenhouse gas emissions from soil amended with anaerobic digestates
Martin Sarah L.,
Clarke Michèle L.,
Othman Mukhrizah,
Ramsden Stephen J., West Helen M.
Biomass and Bioenergy. 2015 79 p.39
Effect of biochar and liming on soil nitrous oxide emissions from a temperate maize cropping system
Hüppi R.,
Felber R.,
Neftel A.,
Six J., Leifeld J.
SOIL. 2015 1(2). p.707
Woody biochar's greenhouse gas mitigation potential across fertilized and unfertilized agricultural soils and soil moisture regimes
Ramlow Matt, Cotrufo M. Francesca
GCB Bioenergy. 2018 10(2). p.108
Evaluation of Biochar Addition to Digestate, Slurry, and Manure for Mitigating Carbon Emissions
Verdi Leonardo,
Dalla Marta Anna,
Orlandini Simone,
Maienza Anita,
Baronti Silvia, Vaccari Francesco Primo
Agriculture. 2024 14(1). p.162
Sustainable Agriculture Reviews 61 (2023)
Distributed biochar and bioenergy coproduction: a regionally specific case study of environmental benefits and economic impacts
Field John L.,
Keske Catherine M. H.,
Birch Greta L.,
DeFoort Morgan W., Cotrufo M. Francesca
GCB Bioenergy. 2013 5(2). p.177
Greenhouse gas emissions from soil amended with agricultural residue biochars: Effects of feedstock type, production temperature and soil moisture
Rittl Tatiana F.,
Butterbach-Bahl Klaus,
Basile Camila M.,
Pereira Lorena A.,
Alms Victoria,
Dannenmann Michael,
Couto Eduardo G., Cerri Carlos E.P.
Biomass and Bioenergy. 2018 117 p.1
Toward a Better Assessment of Biochar–Nitrous Oxide Mitigation Potential at the Field Scale
Verhoeven Elizabeth,
Pereira Engil,
Decock Charlotte,
Suddick Emma,
Angst Teri, Six Johan
Journal of Environmental Quality. 2017 46(2). p.237
Comparative assessment of carbon dioxide emissions from soil under the influence of loosening and the introduction of additives in the form of compost and biochar
Babichuk Vyacheslav,
Danilova Natalya,
Kuryntseva Polina,
Gilmutdinova Ilsina,
Selivanovskaya Svetlana,
Tao I.,
Perskaya V.,
Morkovkin D., Suyunov A.
E3S Web of Conferences. 2025 623 p.01032
Biodegradation of a Nanocellulose Superabsorbent and Its Effect on the Growth of Spinach (Spinacea oleracea)
Barajas-Ledesma Ruth M.,
Stocker Craig W.,
Wong Vanessa N.L.,
Little Karen,
Patti Antonio F., Garnier Gil
ACS Agricultural Science & Technology. 2022 2(1). p.90
Dynamics of soil N2O emissions and functional gene abundance in response to biochar application in the presence of earthworms
Wu Yupeng,
Liu Jiao,
Shaaban Muhammad, Hu Ronggui
Environmental Pollution. 2021 268 p.115670
Impact of biochar application on the productivity of a temperate vegetable cropping system
Boersma Mark,
Wrobel-Tobiszewska Anna,
Murphy Louise, Eyles Alieta
New Zealand Journal of Crop and Horticultural Science. 2017 45(4). p.277
Effects of biochar on soil microbial communities: A meta-analysis
Deshoux Maëlle,
Sadet-Bourgeteau Sophie,
Gentil Solène, Prévost-Bouré Nicolas Chemidlin
Science of The Total Environment. 2023 902 p.166079
Biochar application to reduce CO2 emissions from farmland and increase crop yields: a 22-year study based on big data analysis and ideal scenario modeling
Chen Can,
Wang Kexin,
Cai Peng, Dai Zaiqiang
Environmental Science and Pollution Research. 2023 30(35). p.83319
Effects of biochar on nitrous oxide and nitric oxide emissions from paddy field during the wheat growth season
Xiang Jian,
Liu Deyan,
Ding Weixin,
Yuan Junji, Lin Yongxin
Journal of Cleaner Production. 2015 104 p.52
Effects of pyrolysis conditions on migration and distribution of biochar nitrogen in the soil-plant-atmosphere system
Ye Zhixiong,
Liu Liyun,
Tan Zhongxin,
Zhang Limei, Huang Qiaoyun
Science of The Total Environment. 2020 723 p.138006
Soil application of biochar produced from biomass grown on trace element contaminated land
Evangelou Michael W.H.,
Brem Anette,
Ugolini Fabio,
Abiven Samuel, Schulin Rainer
Journal of Environmental Management. 2014 146 p.100
Impact of biochar field aging on laboratory greenhouse gas production potentials
Spokas Kurt A.
GCB Bioenergy. 2013 5(2). p.165
Increase in soil carbon sequestration using rice husk charcoal without stimulating CH4and N2O emissions in an Andosol paddy field in Japan
Koyama Shinichi,
Inazaki Fumihiko,
Minamikawa Kazunori,
Kato Morio, Hayashi Hisayoshi
Soil Science and Plant Nutrition. 2015 61(5). p.873
Phosphorus speciation and bioavailability in diverse biochars
Rose Terry J.,
Schefe Cassandra,
Weng Zhe,
Rose Michael T.,
van Zwieten Lukas,
Liu Lei, Rose Andrew L.
Plant and Soil. 2019 443(1-2). p.233
A CoOxHy/β-NiOOH electrocatalyst for robust ammonia oxidation to nitrite and nitrate
Cohen Sam,
Johnston Sam,
Nguyen Cuong K.,
Nguyen Tam D.,
Hoogeveen Dijon A.,
Van Zeil Daniel,
Giddey Sarbjit,
Simonov Alexandr N., MacFarlane Douglas R.
Green Chemistry. 2023 25(18). p.7157
Effects of co‐produced biochar on life cycle greenhouse gas emissions of pyrolysis‐derived renewable fuels
Wang Zhichao,
Dunn Jennifer B.,
Han Jeongwoo, Wang Michael Q.
Biofuels, Bioproducts and Biorefining. 2014 8(2). p.189
Application of woody biochar and woody mulch to mitigate nitrous oxide emissions from a poultry litter-amended soil in the subtropics
Rose Terry J.,
Keen Brad,
Morris Stephen G.,
Quin Peter,
Rust Josh,
Kearney Lee,
Kimber Stephen, Van Zwieten Lukas
Agriculture, Ecosystems & Environment. 2016 228 p.1
Effect of Biochar and Straw Application on Nitrous Oxide and Methane Emissions from Eutric Regosols with Different pH in Sichuan Basin: A Mesocosm Study
Ntacyabukura Tite,
Uwiringiyimana Ernest,
Zhou Minghua,
Zhang Bowen,
Zhu Bo,
Harerimana Barthelemy,
Nambajimana Jean de Dieu,
Nsabimana Gratien, Nsengumuremyi Pascal
Atmosphere. 2021 12(6). p.729
Effect of Biochar Application and Mineral Fertilization on Biomass Production and Structural Carbohydrate Content in Forage Plant Mixture
Stopa Wojciech,
Wróbel Barbara,
Paszkiewicz-Jasińska Anna, Strzelczyk Maria
Sustainability. 2023 15(19). p.14333
Weak Effects of Biochar and Nitrogen Fertilization on Switchgrass Photosynthesis, Biomass, and Soil Respiration
Hui Dafeng,
Yu Chih-Li,
Deng Qi,
Saini Priya,
Collins Kenya, Koff Jason de
Agriculture. 2018 8(9). p.143
Carbon Abatement and Emissions Associated with the Gasification of Walnut Shells for Bioenergy and Biochar Production
Pujol Pereira Engil Isadora,
Suddick Emma C.,
Six Johan, Liang Wenju
PLOS ONE. 2016 11(3). p.e0150837
Management of biosolids-derived hydrochar (Sewchar): Effect on plant germination, and farmers' acceptance
Melo Tatiane Medeiros,
Bottlinger Michael,
Schulz Elke,
Leandro Wilson Mozena,
Botelho de Oliveira Sérgio,
Menezes de Aguiar Filho Adelmo,
El-Naggar Ali,
Bolan Nanthi,
Wang Hailong,
Ok Yong Sik, Rinklebe Jörg
Journal of Environmental Management. 2019 237 p.200
Short-term effects of raw rice straw and its derived biochar on greenhouse gas emission in five typical soils in China
Li Feiyue,
Cao Xinde,
Zhao Ling,
Yang Fan,
Wang Jianfei, Wang Shuwei
Soil Science and Plant Nutrition. 2013 59(5). p.800
Biochar (2024)
Short-term biochar-induced increase in soil CO2 release is both biotically and abiotically mediated
Jones D.L.,
Murphy D.V.,
Khalid M.,
Ahmad W.,
Edwards-Jones G., DeLuca T.H.
Soil Biology and Biochemistry. 2011 43(8). p.1723
Effect of pyrochar and hydrochar amendments on the mineralization of the herbicide isoproturon in an agricultural soil
Eibisch Nina,
Schroll Reiner, Fuß Roland
Chemosphere. 2015 134 p.528
Pyrolyzed or Unpyrolyzed Manure? Implications for Carbon Stability and Soil N 2 O Emissions
Ginebra Milagros,
Muñoz Cristina, Zagal Erick
SSRN Electronic Journal . 2022
Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape
Xu Hui-Juan,
Wang Xiao-Hui,
Li Hu,
Yao Huai-Ying,
Su Jian-Qiang, Zhu Yong-Guan
Environmental Science & Technology. 2014 48(16). p.9391
Biochar properties: Transport, fate, and impact
Aller M. Fernanda
Critical Reviews in Environmental Science and Technology. 2016 46(14-15). p.1183
Stoichiometric ratio of dissolved organic carbon to nitrate regulates nitrous oxide emission from the biochar-amended soils
Lan Z.M.,
Chen C.R.,
Rashti M. Rezaei,
Yang H., Zhang D.K.
Science of The Total Environment. 2017 576 p.559
Urban biochar improves nitrogen and phosphorus availability in growing media
Kaudal Bhawana Bhatta,
Chen Deli, Weatherley Anthony J.
Soil Research. 2018 56(7). p.675
Costs of biomass pyrolysis as a negative emission technology: A case study
Snyder Brian F.
International Journal of Energy Research. 2019 43(3). p.1232
Effects of biochar application on fluxes of three biogenic greenhouse gases: a meta‐analysis
Song Xinzhang,
Pan Genxing,
Zhang Chao,
Zhang Lu, Wang Hailong
Ecosystem Health and Sustainability. 2016 2(2).
Wood biochar increases nitrogen retention in field settings mainly through abiotic processes
Bai Shahla Hosseini,
Reverchon Frédérique,
Xu Cheng-Yuan,
Xu Zhihong,
Blumfield Timothy J.,
Zhao Haitao,
Van Zwieten Lukas, Wallace Helen M.
Soil Biology and Biochemistry. 2015 90 p.232
Greenhouse gas emissions from excreta patches of grazing animals and their mitigation strategies
Cai Yanjiang,
Chang Scott X., Cheng Yi
Earth-Science Reviews. 2017 171 p.44
Understanding the molecular mechanisms of interactions between biochar and denitrifiers in N₂O emissions reduction: Pathway to more economical and sustainable fertilizers
Minofar Babak,
Milčić Nevena,
Maroušek Josef,
Gavurová Beata, Maroušková Anna
Soil and Tillage Research. 2025 248 p.106405
Biochar's role in mitigating soil nitrous oxide emissions: A review and meta-analysis
Cayuela M.L.,
van Zwieten L.,
Singh B.P.,
Jeffery S.,
Roig A., Sánchez-Monedero M.A.
Agriculture, Ecosystems & Environment. 2014 191 p.5
No evidence for higher agronomic N use efficiency or lower nitrous oxide emissions from enhanced efficiency fertilisers in aerobic subtropical rice
Rose Terry J.,
Quin Peter,
Morris Stephen G.,
Kearney Lee J.,
Kimber Stephen,
Rose Michael T., Van Zwieten Lukas
Field Crops Research. 2018 225 p.47
Effects of inhibitors and biochar on nitrous oxide emissions, nitrate leaching, and plant nitrogen uptake from urine patches of grazing animals on grasslands: a meta-analysis
Cai Yanjiang, Akiyama Hiroko
Soil Science and Plant Nutrition. 2017 63(4). p.405
Developments in biochar application for pesticide remediation: Current knowledge and future research directions
Varjani Sunita,
Kumar Gopalakrishnan, Rene Eldon R.
Journal of Environmental Management. 2019 232 p.505
Pyrolysing poultry litter reduces N2O and CO2 fluxes
Van Zwieten L.,
Kimber S.W.L.,
Morris S.G.,
Singh B.P.,
Grace P.R.,
Scheer C.,
Rust J.,
Downie A.E., Cowie A.L.
Science of The Total Environment. 2013 465 p.279
Biochar and nitrogen fertilizer application increased yield and economic benefits in no-till lowland rice production system
Iboko Maduabuchi P.,
Dossou-Yovo Elliott R.,
Obalum Sunday E.,
Brümmer Christian,
Ndindeng Sali. Atanga,
Diedhiou Simeon, Teme Niaba
Archives of Agronomy and Soil Science. 2025 71(1). p.1
Is sustainability certification for biochar the answer to environmental risks?
Cowie Annette L.,
Downie Adriana E.,
George Brendan H.,
Singh Bhupinder-Pal,
Van Zwieten Lukas, O'Connell Deborah
Pesquisa Agropecuária Brasileira. 2012 47(5). p.637
Analysis of two biochars and one hydrochar from different feedstock: focus set on environmental, nutritional and horticultural considerations
Fornes Fernando,
Belda Rosa Maria, Lidón Antonio
Journal of Cleaner Production. 2015 86 p.40
Low pH of a High Carbon Gleysol Contributes to Nitrification Inhibition Resulting in Low N2O Soil Emissions and Limited Effectiveness of Nitrification Inhibitors
Rose Terry J.,
Kearney Lee J.,
Van Zwieten Lukas, Rose Michael T.
Soil Systems. 2020 4(4). p.75
Taxon-specific responses of soil microbial communities to different soil priming effects induced by addition of plant residues and their biochars
Su Peng,
Lou Jun,
Brookes Philip C.,
Luo Yu,
He Yan, Xu Jianming
Journal of Soils and Sediments. 2017 17(3). p.674
Biochar suppressed the decomposition of organic carbon in a cultivated sandy loam soil: A negative priming effect
Lu Weiwei,
Ding Weixin,
Zhang Junhua,
Li Yi,
Luo Jiafa,
Bolan Nanthi, Xie Zubin
Soil Biology and Biochemistry. 2014 76 p.12
Can biochar reduce soil greenhouse gas emissions from aMiscanthus bioenergy crop?
Case Sean D. C.,
McNamara Niall P.,
Reay David S., Whitaker Jeanette
GCB Bioenergy. 2014 6(1). p.76
Agronomic and remedial benefits and risks of applying biochar to soil: Current knowledge and future research directions
Kuppusamy Saranya,
Thavamani Palanisami,
Megharaj Mallavarapu,
Venkateswarlu Kadiyala, Naidu Ravi
Environment International. 2016 87 p.1
Application of biochar to soil and N2O emissions: potential effects of blending fast-pyrolysis biochar with anaerobically digested slurry
Bruun E. W.,
Müller-Stöver D.,
Ambus P., Hauggaard-Nielsen H.
European Journal of Soil Science. 2011 62(4). p.581
Annual accounting of net greenhouse gas balance response to biochar addition in a coastal saline bioenergy cropping system in China
Zhang Yaojun,
Lin Feng,
Wang Xiaofei,
Zou Jianwen, Liu Shuwei
Soil and Tillage Research. 2016 158 p.39
Biochar and Earthworm Effects on Soil Nitrous Oxide and Carbon Dioxide Emissions
Augustenborg Cara A.,
Hepp Simone,
Kammann Claudia,
Hagan David,
Schmidt Olaf, Müller Christoph
Journal of Environmental Quality. 2012 41(4). p.1203
Biochar-induced N2O emission reductions after field incorporation in a loam soil
Ameloot Nele,
Maenhout Peter,
De Neve Stefaan, Sleutel Steven
Geoderma. 2016 267 p.10
Green Technologies for Industrial Contaminants (2025)
Biochar amendment alters the partitioning of nitrate reduction by significantly enhancing DNRA in a paddy field
Wei Zhijun,
Senbayram Mehmet,
Zhao Xu,
Li Chenglin,
Jin Ke,
Wu Min,
Rahman M. Mizanur,
Shan Jun, Yan Xiaoyuan
Biochar. 2022 4(1).
Sorption of Pure N2O to Biochars and Other Organic and Inorganic Materials under Anhydrous Conditions
Cornelissen Gerard,
Rutherford David W.,
Arp Hans Peter H.,
Dörsch Peter,
Kelly Charlene N., Rostad Colleen E.
Environmental Science & Technology. 2013 47(14). p.7704
Biochar mitigates the N2O emissions from acidic soil by increasing the nosZ and nirK gene abundance and soil pH
Aamer Muhammad,
Shaaban Muhammad,
Hassan Muhammad Umair,
Guoqin Huang,
Ying Liu,
Hai Ying Tang,
Rasul Fahd,
Qiaoying Ma,
Zhuanling Li,
Rasheed Adnan, Peng Zhang
Journal of Environmental Management. 2020 255 p.109891
The impacts of biochar on carbon sequestration, soil processes, and microbial communities: a review
Enebe Matthew C.,
Ray Ram L., Griffin Richard W.
Biochar. 2025 7(1).
Nutrient and greenhouse gas dynamics through a range of wastewater-loaded carbonate sand treatments
Tait Douglas R.,
Shepherd Benjamin O.,
Befus Kevin M., Erler Dirk V.
Ecological Engineering. 2015 82 p.126
Effects of aged biochar additions at different addition ratios on soil greenhouse gas emissions
Zhou Yongchun,
Zhao Zili,
Li Danyang,
Wang Yapeng,
Yang Jinrong,
Han Wei, Li Song
Science of The Total Environment. 2024 955 p.176914
Effects of biochar and other amendments on the physical properties and greenhouse gas emissions of an artificially degraded soil
Mukherjee A.,
Lal R., Zimmerman A.R.
Science of The Total Environment. 2014 487 p.26
Warming reduces soil priming effects in a subtropical forest regardless of soil depth and carbon input amount
Bai Xinyu,
Zhang Qiufang,
Feng Jiguang,
Wu Xiaoxia,
Zeng Quanxin,
Zhang Xiaoqing,
Yuan Xiaochun,
Ni Xiangyin, Chen Yuehmin
Plant and Soil. 2025
Biochar Co-Compost: A Promising Soil Amendment to Restrain Greenhouse Gases and Improve Rice Productivity and Soil Fertility
Umair Hassan Muhammad,
Huang Guoqin,
Munir Rizwan,
Khan Tahir Abbas, Noor Mehmood Ali
Agronomy. 2024 14(7). p.1583
Engineered biochar/hydrochar derived from organic wastes for energy, environmental, and agricultural applications
Sharma Hari Bhakta,
Vanapalli Kumar Raja,
Bhatia Deepika,
Singh Simranjeet,
Arora Gaurav,
Panigrahi Sagarika,
Dubey Brajesh K.,
Ramamurthy Praveen C., Mohanty Bijayananda
Clean Technologies and Environmental Policy. 2024 26(12). p.4059
A synthetic analysis of greenhouse gas emissions from manure amended agricultural soils in China
Ren Fengling,
Zhang Xubo,
Liu Jian,
Sun Nan,
Wu Lianhai,
Li Zhongfang, Xu Minggang
Scientific Reports. 2017 7(1).
The legacy effect of biochar application on soil nitrous oxide emissions
Guo Shumin,
Wu Jie,
Han Zhaoqiang,
Li Zhutao,
Xu Pinshang,
Liu Shuwei,
Wang Jinyang, Zou Jianwen
GCB Bioenergy. 2023 15(4). p.478
Continuous applications of biochar to rice: Effects on nitrogen uptake and utilization
Huang Min,
Fan Long,
Chen Jiana,
Jiang Ligeng, Zou Yingbin
Scientific Reports. 2018 8(1).
Nitrogen addition stimulates priming effect in a subtropical forest soil
Zhang Qiufang,
Cheng Lei,
Feng Jiguang,
Mei Kongcan,
Zeng Quanxin,
Zhu Biao, Chen Yuehmin
Soil Biology and Biochemistry. 2021 160 p.108339
Land Application of Biosolids-Derived Biochar in Australia: A Review
Sinha Payel,
Marchuk Serhiy,
Harris Peter,
Antille Diogenes L., McCabe Bernadette K.
Sustainability. 2023 15(14). p.10909
Slow Release Brown Coal-Urea Fertilizer Potentially Influences Greenhouse Gas Emissions, Nitrogen Use Efficiency, and Sweet Corn Yield in Oxisol
Saha Biplob K.,
Rose Michael T.,
Van Zwieten Lukas,
Wong Vanessa N.L., Patti Antonio F.
ACS Agricultural Science & Technology. 2021 1(5). p.469
The different effects of applying fresh, composted or charred manure on soil N2O emissions
Zhu Kun,
Christel Wibke,
Bruun Sander, Jensen Lars Stoumann
Soil Biology and Biochemistry. 2014 74 p.61
Carboxylated nanocellulose superabsorbent: Biodegradation and soil water retention properties
Barajas‐Ledesma Ruth M.,
Wong Vanessa N. L.,
Little Karen,
Patti Antonio F., Garnier Gil
Journal of Applied Polymer Science. 2022 139(3).
Effect of biochar amendment on the soil-atmosphere exchange of greenhouse gases from an intensive subtropical pasture in northern New South Wales, Australia
Scheer Clemens,
Grace Peter R.,
Rowlings David W.,
Kimber Stephen, Van Zwieten Lukas
Plant and Soil. 2011 345(1-2). p.47
Returning Tea Pruning Residue and Its Biochar Had a Contrasting Effect on Soil N2O and CO2 Emissions from Tea Plantation Soil
Oo Aung,
Sudo Shigeto,
Win Khin,
Shibata Akira,
Sano Tomohito, Hirono Yuhei
Atmosphere. 2018 9(3). p.109
Contrasting effects of banana peels waste and its biochar on greenhouse gas emissions and soil biochemical properties
Sial Tanveer Ali,
Khan Muhammad Numan,
Lan Zhilong,
Kumbhar Farhana,
Ying Zhao,
Zhang Jianguo,
Sun Daquan, Li Xiu
Process Safety and Environmental Protection. 2019 122 p.366
Co-application of poultry-litter biochar with Azolla has synergistic effects on CH4 and N2O emissions from rice paddy soils
Kimani Samuel Munyaka,
Bimantara Putu Oki,
Hattori Satoshi,
Tawaraya Keitaro,
Sudo Shigeto,
Xu Xingkai, Cheng Weiguo
Heliyon. 2020 6(9). p.e05042
The effect of biochar addition on N2O and CO2 emissions from a sandy loam soil – The role of soil aeration
Case Sean D.C.,
McNamara Niall P.,
Reay David S., Whitaker Jeanette
Soil Biology and Biochemistry. 2012 51 p.125
Effect of carbonized apple wood on nitrogen‐transforming microorganisms and nitrogen oxides in soil of apple tree root zone
Cao H.,
Feng F.,
Xun M.,
Huang P.,
Li Y. G.,
Ji T.,
Wei G. Q.,
Zhang W. W., Yang H. Q.
European Journal of Soil Science. 2018 69(3). p.545
An estimation of annual nitrous oxide emissions and soil quality following the amendment of high temperature walnut shell biochar and compost to a small scale vegetable crop rotation
Suddick Emma C., Six Johan
Science of The Total Environment. 2013 465 p.298
Soil and foliar nutrient and nitrogen isotope composition (δ15N) at 5 years after poultry litter and green waste biochar amendment in a macadamia orchard
Hosseini Bai Shahla,
Xu Cheng-Yuan,
Xu Zhihong,
Blumfield Timothy J.,
Zhao Haitao,
Wallace Helen,
Reverchon Frédérique, Van Zwieten Lukas
Environmental Science and Pollution Research. 2015 22(5). p.3803
Effect of six engineered biochars on GHG emissions from two agricultural soils: A short-term incubation study
Brassard Patrick,
Godbout Stéphane,
Palacios Joahnn H.,
Jeanne Thomas,
Hogue Richard,
Dubé Patrick,
Limousy Lionel, Raghavan Vijaya
Geoderma. 2018 327 p.73
A 2-year study on the effect of biochar on methane and nitrous oxide emissions in an intensive rice–wheat cropping system
Wang Shuwei,
Ma Shutan,
Shan Jun,
Xia Yongqiu,
Lin Jinghui, Yan Xiaoyuan
Biochar. 2019 1(2). p.177
Effects of dairy processing sludge and derived biochar on greenhouse gas emissions from Danish and Irish soils
Hu Yihuai,
Thomsen Tobias Pape,
Fenton Owen,
Sommer Sven Gjedde,
Shi Wenxuan, Cui Wenjing
Environmental Research. 2023 216 p.114543
Biochar alters nitrogen transformations but has minimal effects on nitrous oxide emissions in an organically managed lettuce mesocosm
Pereira Engil Isadora Pujol,
Suddick Emma C.,
Mansour India,
Mukome Fungai N. D.,
Parikh Sanjai J.,
Scow Kate, Six Johan
Biology and Fertility of Soils. 2015 51(5). p.573
Pinto peanut cover crop nitrogen contributions and potential to mitigate nitrous oxide emissions in subtropical coffee plantations
Rose Terry J.,
Kearney Lee J.,
Morris Stephen,
Van Zwieten Lukas, Erler Dirk V.
Science of The Total Environment. 2019 656 p.108
Biochar Applications in Agriculture and Environment Management (2020)
Effects of biochar amendment on greenhouse gas emissions, net ecosystem carbon budget and properties of an acidic soil under intensive vegetable production
Wang J.,
Chen Z.,
Xiong Z.,
Chen C.,
Xu X.,
Zhou Q.,
Kuzyakov Y., Wang Qiubing
Soil Use and Management. 2015 31(3). p.375
Biochar soil amendment increased bacterial but decreased fungal gene abundance with shifts in community structure in a slightly acid rice paddy from Southwest China
Chen Junhui,
Liu Xiaoyu,
Zheng Jinwei,
Zhang Bin,
Lu Haifei,
Chi Zhongzhi,
Pan Genxing,
Li Lianqing,
Zheng Jufeng,
Zhang Xuhui,
Wang Jiafang, Yu Xinyan
Applied Soil Ecology. 2013 71 p.33
Biochar Impacts on Soil Physical Properties and Greenhouse Gas Emissions
Mukherjee Atanu, Lal Rattan
Agronomy. 2013 3(2). p.313
Low seasonal nitrous oxide emissions in tea tree farming systems following nitrogen fertilisation using poultry litter application or green manure legumes
Rose Terry J.,
Kearney Lee J.,
Morris Stephen, Van Zwieten Lukas
Soil Research. 2020 58(3). p.238
Soil Carbon Stabilization to Mitigate Climate Change (2021)
Soil Science: Fundamentals to Recent Advances (2021)
Effects of biochar compared to organic and inorganic fertilizers on soil quality and plant growth in a greenhouse experiment
Schulz Hardy, Glaser Bruno
Journal of Plant Nutrition and Soil Science. 2012 175(3). p.410
Biochar and its effects on plant productivity and nutrient cycling: a meta‐analysis
Biederman Lori A., Harpole W. Stanley
GCB Bioenergy. 2013 5(2). p.202
Aerodynamic Properties of Biochar Particles: Effect of Grinding and Implications
Gao Xiangpeng, Wu Hongwei
Environmental Science & Technology Letters. 2014 1(1). p.60
Effects of biochar amendment on the net greenhouse gas emission and greenhouse gas intensity in a Chinese double rice cropping system
Liu Jieyun,
Shen Jianlin,
Li Yong,
Su Yirong,
Ge Tida,
Jones Davey L., Wu Jinshui
European Journal of Soil Biology. 2014 65 p.30
Research and Application of Biochar in Soil CO2 Emission, Fertility, and Microorganisms: A Sustainable Solution to Solve China’s Agricultural Straw Burning Problem
Wang Huanhuan,
Ren Tianbao,
Yang Huijuan,
Feng Yuqing,
Feng Huilin,
Liu Guoshun,
Yin Quanyu, Shi Hongzhi
Sustainability. 2020 12(5). p.1922
Yield-scaled N 2 O emissions were effectively reduced by biochar amendment of sandy loam soil under maize - wheat rotation in the North China Plain
Niu Yuhui,
Chen Zengming,
Müller Christoph,
Zaman Monhammad M.,
Kim Donggill,
Yu Hongyan, Ding Weixin
Atmospheric Environment. 2017 170 p.58
Advanced Biofuels and Bioproducts (2013)
Rice straw biochar alters inorganic nitrogen availability in paddy soil mainly through abiotic processes
Lv Rujie,
Wang Yong,
Wang Qiuju,
Wen Yangping, Shang Qingyin
Journal of Soils and Sediments. 2023 23(2). p.568
Combined maize straw-biochar and oxalic acids induced a relay activity of abundant specific degraders for efficient phenanthrene degradation: Evidence based on the DNA-SIP technology
Li Xiaona,
Yao Shi,
Bolan Nanthi,
Wang Zhenyu,
Jiang Xin, Song Yang
Environmental Pollution. 2022 310 p.119867
Biochar Application (2016)
Different effects of biochar and a nitrification inhibitor application on paddy soil denitrification: A field experiment over two consecutive rice-growing seasons
Wang Shuwei,
Shan Jun,
Xia Yongqiu,
Tang Quan,
Xia Longlong,
Lin Jinghui, Yan Xiaoyuan
Science of The Total Environment. 2017 593-594 p.347
Organic fertilizers have divergent effects on soil N2O emissions
He Tiehu,
Yuan Junji,
Luo Jiafa,
Wang Weijin,
Fan Jianling,
Liu Deyan, Ding Weixin
Biology and Fertility of Soils. 2019 55(7). p.685
Environmental degradation and efficacy of a sprayable, biodegradable polymeric mulch
Borrowman Cuyler K.,
Johnston Priscilla,
Adhikari Raju,
Saito Kei, Patti Antonio F.
Polymer Degradation and Stability. 2020 175 p.109126
Biochar but not humic acid product amendment affected maize yields via improving plant-soil moisture relations
Haider Ghulam,
Koyro Hans-Werner,
Azam Farooqe,
Steffens Diedrich,
Müller Christoph, Kammann Claudia
Plant and Soil. 2015 395(1-2). p.141
Effect of biochar on CH4 and N2O emission from soils vegetated with paddy
Singla Ankit, Inubushi Kazuyuki
Paddy and Water Environment. 2014 12(1). p.239
Impact of biochar on soil N2O emissions under different biochar-carbon/fertilizer-nitrogen ratios at a constant moisture condition on a silt loam soil
Feng Zhengjun, Zhu Lizhong
Science of The Total Environment. 2017 584-585 p.776
Effect of biochar on N2O emission, crop yield and properties of Stagnic Luvisol in a field experiment
Rizhiya Elena Y.,
Mukhina Irina M.,
Balashov Eugene V.,
Šimansky Vladimír, Buchkina Natalya P.
Zemdirbyste-Agriculture. 2019 106(4). p.297
Biochar impacts on soil chemical properties, greenhouse gas emissions and forage productivity: A field experiment
Ginebra Milagros,
Muñoz Cristina,
Calvelo-Pereira Roberto,
Doussoulin Marcelo, Zagal Erick
Science of The Total Environment. 2022 806 p.150465
Greenhouse Gas Production in Mixtures of Soil with Composted and Noncomposted Biochars Is Governed by Char-Associated Organic Compounds
Borchard Nils,
Spokas Kurt,
Prost Katharina, Siemens Jan
Journal of Environmental Quality. 2014 43(3). p.971
N2O Emissions Mitigation in Acidic Soil Following Biochar Application Under Different Moisture Regimes
Aamer Muhammad,
Shaaban Muhammad,
Hassan Muhammad Umair,
Ying Liu,
Haiying Tang,
Qiaoying Ma,
Munir Hassan,
Rasheed Adnan,
Xinmei Li,
Ping Li, Guoqin Huang
Journal of Soil Science and Plant Nutrition. 2020 20(4). p.2454
The potential value of biochar in the mitigation of gaseous emission of nitrogen
Thangarajan Ramya,
Bolan Nanthi S.,
Kunhikrishnan Anitha,
Wijesekara Hasintha,
Xu Yilu,
Tsang Daniel C.W.,
Song Hocheol,
Ok Yong Sik, Hou Deyi
Science of The Total Environment. 2018 612 p.257
Assessing the viability of soil successive straw biochar amendment based on a five-year column trial with six different soils: Views from crop production, carbon sequestration and net ecosystem economic benefits
Bi Yucui,
Cai Siyuan,
Wang Yu,
Xia Yongqiu,
Zhao Xu,
Wang Shenqiang, Xing Guangxi
Journal of Environmental Management. 2019 245 p.173
Effects of Biochar on Acid Black Soil Nutrient, Soybean Root and Yield
Yin Da Wei,
Meng Jun,
Zheng Gui Ping,
Zhong Xue Mei,
Yu Lan,
Gao Ji Ping, Chen Wen Fu
Advanced Materials Research. 2012 524-527 p.2278
The potential role of biochar in combating climate change in Scotland: an analysis of feedstocks, life cycle assessment and spatial dimensions
Ahmed Sohel,
Hammond Jim,
Ibarrola Rodrigo,
Shackley Simon, Haszeldine Stuart
Journal of Environmental Planning and Management. 2012 55(4). p.487
Leaching characteristics and phytotoxic effects of sewage sludge biochar
Phoungthong Khamphe,
Zhang Hua,
Shao Li-Ming, He Pin-Jing
Journal of Material Cycles and Waste Management. 2018 20(4). p.2089
Effect of Biochar and Poultry Litter Application on Chemical Properties and Nutrient Availability of an Acidic Soil
Toluwase Oreoluwa Adegoke,
Tolulope Yetunde Akande,
Joseph Urhie E.,
Chengsen Zhao, Hongyan Wang
Communications in Soil Science and Plant Analysis. 2020 51(12). p.1670
Influence of pruning waste biochar and oyster shell on N2O and CO2 emissions from Japanese pear orchard soil
Oo Aung Zaw,
Sudo Shigeto,
Win Khin Thuzar,
Shibata Akira, Gonai Takeru
Heliyon. 2018 4(3). p.e00568
Biochar addition can reduce NOx gas emissions from a calcareous soil
Wang Bing,
Lee Xinqing,
Theng Benny K. G.,
Zhang Like,
Cheng Hongguang,
Cheng Jianzhong, Lyu Wenqiang
Environmental Pollutants and Bioavailability. 2019 31(1). p.38
CH4 and N2O Emissions From Cattle Excreta: A Review of Main Drivers and Mitigation Strategies in Grazing Systems
Rivera Julián Esteban, Chará Julian
Frontiers in Sustainable Food Systems. 2021 5
Catalase activity as a diagnostic indicator of the health of oil-contaminated soils after remediation
Revina Sofia,
Minnikova Tatiana,
Ruseva Anna,
Kolesnikov Sergei, Kutasova Anastasia
Environmental Monitoring and Assessment. 2024 196(5).
Short-term CO2 and N2O emissions and microbial properties of biochar amended sandy loam soils
Ameloot Nele,
De Neve Stefaan,
Jegajeevagan Kanagaratnam,
Yildiz Güray,
Buchan David,
Funkuin Yvonne Nkwain,
Prins Wolter,
Bouckaert Liesbeth, Sleutel Steven
Soil Biology and Biochemistry. 2013 57 p.401
Increased retention of soil nitrogen over winter by biochar application: Implications of biochar pyrolysis temperature for plant nitrogen availability
Zhou Yangxue,
Berruti Franco,
Greenhalf Charles,
Tian Xiaohong, Henry Hugh A.L.
Agriculture, Ecosystems & Environment. 2017 236 p.61
Greenhouse gas emission mitigation from rice through efficient use of industrial and value-added agricultural wastes: a review
Padhi Purbasha Priyadarshini,
Padhy Soumya Ranjan,
Swain Saubhagyalaxmi, Bhattacharyya Pratap
Environment, Development and Sustainability. 2024
Impact of pine chip biochar on trace greenhouse gas emissions and soil nutrient dynamics in an annual ryegrass system in California
Angst Teri E.,
Six Johan,
Reay Dave S., Sohi Saran P.
Agriculture, Ecosystems & Environment. 2014 191 p.17
Microbial activity and metabolic quotient of microbes in soils amended with biochar and contaminated with atrazine and paraquat
Sam Ama Tanoa,
Asuming-Brempong S., Nartey E. K.
Acta Agriculturae Scandinavica, Section B — Soil & Plant Science. 2017 67(6). p.492
Effects of biochar application methods on greenhouse gas emission and nitrogen use efficiency in paddy fields
Zhao Yanze,
Jiang Hongfang,
Gao Jiping,
Wan Xue,
Yan Bingchun,
Liu Ya,
Cheng Guoqing,
Chen Liqiang, Zhang Wenzhong
Science of The Total Environment. 2024 915 p.169809
Soil properties, greenhouse gas emissions and crop yield under compost, biochar and co-composted biochar in two tropical agronomic systems
Bass Adrian M.,
Bird Michael I.,
Kay Gavin, Muirhead Brian
Science of The Total Environment. 2016 550 p.459
Effects of industrial and agricultural waste amendment on soil greenhouse gas production in a paddy field in Southeastern China
Wang Weiqi,
Neogi Suvadip,
Lai Derrick Y.F.,
Zeng Congsheng,
Wang Chun, Zeng Dongping
Atmospheric Environment. 2017 164 p.239
Interactive effect of biochar size and organic amendments on methane consumption in a tropical vertisol
Kollah B.,
Dubey G.,
Parasai P.,
Saha J. K.,
Gangil S., Mohanty S. R.
Soil Use and Management. 2015 31(1). p.52
Biochar Administration to San Marzano Tomato Plants Cultivated Under Low-Input Farming Increases Growth, Fruit Yield, and Affects Gene Expression
Tartaglia Maria,
Arena Simona,
Scaloni Andrea,
Marra Mauro, Rocco Mariapina
Frontiers in Plant Science. 2020 11
(2011)
Effects of Enriched Biochars Containing Magnetic Iron Nanoparticles on Mycorrhizal Colonisation, Plant Growth, Nutrient Uptake and Soil Quality Improvement
JOSEPH Stephen,
ANAWAR Hossain M.,
STORER Paul,
BLACKWELL Paul,
CHIA Chee,
LIN Yun,
MUNROE Paul,
DONNE Scott,
HORVAT Josip,
WANG Jianli, SOLAIMAN Zakaria M.
Pedosphere. 2015 25(5). p.749
Supplement of biochar and vermicompost amendments in coir and peat growing media improves N management and yields of leafy vegetables
Messiga Aimé J.,
Hao Xiuming,
Dorais Martine,
Bineng Carine S.,
Ziadi Noura, Naeth M. Anne
Canadian Journal of Soil Science. 2022 102(1). p.39
Biochar effects on soil biota – A review
Lehmann Johannes,
Rillig Matthias C.,
Thies Janice,
Masiello Caroline A.,
Hockaday William C., Crowley David
Soil Biology and Biochemistry. 2011 43(9). p.1812
Effects of biochar on soil available inorganic nitrogen: A review and meta-analysis
Nguyen Thi Thu Nhan,
Xu Cheng-Yuan,
Tahmasbian Iman,
Che Rongxiao,
Xu Zhihong,
Zhou Xuhui,
Wallace Helen M., Bai Shahla Hosseini
Geoderma. 2017 288 p.79
Biochar and denitrification in soils: when, how much and why does biochar reduce N2O emissions?
Cayuela Maria Luz,
Sánchez-Monedero Miguel Angel,
Roig Asunción,
Hanley Kelly,
Enders Akio, Lehmann Johannes
Scientific Reports. 2013 3(1).
Effect of biochar origin and soil pH on greenhouse gas emissions from sandy and clay soils
Wu Di,
Senbayram Mehmet,
Zang Huadong,
Ugurlar Ferhat,
Aydemir Salih,
Brüggemann Nicolas,
Kuzyakov Yakov,
Bol Roland, Blagodatskaya Evgenia
Applied Soil Ecology. 2018 129 p.121
Effects of straw and biochar addition on soil nitrogen, carbon, and super rice yield in cold waterlogged paddy soils of North China
CUI Yue-feng,
MENG Jun,
WANG Qing-xiang,
ZHANG Wei-ming,
CHENG Xiao-yi, CHEN Wen-fu
Journal of Integrative Agriculture. 2017 16(5). p.1064
The effects of woodchip biochar application on crop yield, carbon sequestration and greenhouse gas emissions from soils planted with rice or leaf beet
Lai Wei-Yu,
Lai Chao-Ming,
Ke Guang-Ruei,
Chung Ren-Shih,
Chen Chien-Teh,
Cheng Chih-Hsin,
Pai Chuang-Wen,
Chen Szu-Yun, Chen Chang-Chun
Journal of the Taiwan Institute of Chemical Engineers. 2013 44(6). p.1039
Carbon stability and soil N2O emissions. Pyrolyzed or unpyrolyzed manure?
Ginebra Milagros,
Muñoz Cristina, Zagal Erick
Journal of Environmental Management. 2022 322 p.116095
Encyclopedia of Sustainability Science and Technology (2012)
Variation of Greenhouse Gases Fluxes and Soil Properties with Addition of Biochar from Farm-Wastes in Volcanic and Non-Volcanic Soils
Muñoz Cristina,
Ginebra Milagros, Zagal Erick
Sustainability. 2019 11(7). p.1831
Comparative effectiveness of exogenous organic amendments on soil fertility, growth, photosynthesis and heavy metal accumulation in cereal crops
Boudjabi Sonia, Chenchouni Haroun
Heliyon. 2023 9(4). p.e14615
Waste to Wealth (2018)
Biochar modulates mineral nitrogen dynamics in soil and terrestrial ecosystems: A critical review
Ahmad Zahoor,
Mosa Ahmed,
Zhan Lu, Gao Bin
Chemosphere. 2021 278 p.130378
Response of N2O emissions to biochar amendment on a tea field soil in subtropical central China: A three-year field experiment
Wu Yanzheng,
Li Yong,
Wang Honghao,
Wang Zijun,
Fu Xiaoqing,
Shen Jianlin,
Wang Yi,
Liu Xinliang,
Meng Lei, Wu Jinshui
Agriculture, Ecosystems & Environment. 2021 318 p.107473
Biochar can increase nitrogen use efficiency of Malus hupehensis by modulating nitrate reduction of soil and root
Cao Hui,
Ning Liufang,
Xun Mi,
Feng Feng,
Li Ping,
Yue Songqing,
Song Jianfei,
Zhang Weiwei, Yang Hongqiang
Applied Soil Ecology. 2019 135 p.25
Effect of biochar and nitrapyrin on nitrous oxide and nitric oxide emissions from a sandy loam soil cropped to maize
Niu Yuhui,
Luo Jiafa,
Liu Deyan,
Müller Christoph,
Zaman Mohammad,
Lindsey Stuart, Ding Weixin
Biology and Fertility of Soils. 2018 54(5). p.645
Biochar decreases soil N2O emissions in Moso bamboo plantations through decreasing labile N concentrations, N-cycling enzyme activities and nitrification/denitrification rates
Song Yuze,
Li Yongfu,
Cai Yanjiang,
Fu Shenglei,
Luo Yu,
Wang Hailong,
Liang Chenfei,
Lin Ziwen,
Hu Shuaidong,
Li Yongchun, Chang Scott X.
Geoderma. 2019 348 p.135
Innovations in Sustainable Agriculture (2019)
Investigating the Influence of Biochar Particle Size and Depth of Placement on Nitrous Oxide (N2O) Emissions from Simulated Urine Patches
Mahmud Ainul Faizah,
Camps-Arbestain Marta, Hedley Mike
Agriculture. 2018 8(11). p.175
Biochar-Induced Changes in Soil Resilience: Effects of Soil Texture and Biochar Dosage
AJAYI Ayodele Ebenezer, HORN Rainer
Pedosphere. 2017 27(2). p.236
A slow release brown coal-urea fertiliser reduced gaseous N loss from soil and increased silver beet yield and N uptake
Saha Biplob K.,
Rose Michael T.,
Wong Vanessa N.L.,
Cavagnaro Timothy R., Patti Antonio F.
Science of The Total Environment. 2019 649 p.793
Wood base biochar alters inorganic N
Hosseini Bai S.,
Xu C.-Y.,
Xu Z.H.,
Blumfield T.J.,
Wallace H.M.,
Walton D.A.,
Randall B.W., Van Zwieten L.
Acta Horticulturae. 2016 (1109). p.151
A comprehensive review of engineered biochar: Production, characteristics, and environmental applications
Kazemi Shariat Panahi Hamed,
Dehhaghi Mona,
Ok Yong Sik,
Nizami Abdul-Sattar,
Khoshnevisan Benyamin,
Mussatto Solange I.,
Aghbashlo Mortaza,
Tabatabaei Meisam, Lam Su Shiung
Journal of Cleaner Production. 2020 270 p.122462
Effects of Biochar on Pulse C and N Cycling After a Short-term Drought: a Laboratory Study
Citerne Nadine,
Wallace Helen M.,
Lewis Tom,
Reverchon Frédérique,
Omidvar Negar,
Hu Hang-Wei,
Shi Xiu-Zhen,
Zhou Xuhui,
Zhou Guiyao,
Farrar Michael,
Rashti Mehran Rezaei, Bai Shahla Hosseini
Journal of Soil Science and Plant Nutrition. 2021 21(4). p.2815
Contrasting effects of wheat straw and its biochar on greenhouse gas emissions and enzyme activities in a Chernozemic soil
Wu Fengping,
Jia Zhikuan,
Wang Sunguo,
Chang Scott X., Startsev Andrei
Biology and Fertility of Soils. 2013 49(5). p.555
Biochar as a negative emission technology: A synthesis of field research on greenhouse gas emissions
Shrestha Raj K.,
Jacinthe Pierre‐Andre,
Lal Rattan,
Lorenz Klaus,
Singh Maninder P.,
Demyan Scott M.,
Ren Wei, Lindsey Laura E.
Journal of Environmental Quality. 2023 52(4). p.769
High pyrolysis temperature biochars reduce nitrogen availability and nitrous oxide emissions from an acid soil
Lan Zhongming,
Chen Chengrong,
Rezaei Rashti Mehran,
Yang Hong, Zhang Dongke
GCB Bioenergy. 2018 10(12). p.930
Char and Carbon Materials Derived from Biomass (2019)
Evaluation of a New Generation of Coated Fertilizers to Reduce the Leaching of Mineral Nutrients and Greenhouse Gas (N2O) Emissions
Benlamlih Fatima Zahra,
Lamhamedi Mohammed S.,
Pepin Steeve,
Benomar Lahcen, Messaddeq Younès
Agronomy. 2021 11(6). p.1129
The effects of short term, long term and reapplication of biochar on soil bacteria
Nguyen Thi Thu Nhan,
Wallace Helen M.,
Xu Cheng-Yuan,
(Van) Zwieten Lukas,
Weng Zhe Han,
Xu Zhihong,
Che Rongxiao,
Tahmasbian Iman,
Hu Hang-Wei, Bai Shahla Hosseini
Science of The Total Environment. 2018 636 p.142
Biochar Diminishes Nitrous Oxide and Nitrate Leaching from Diverse Nutrient Sources
Angst Teri E.,
Patterson Colin J.,
Reay David S.,
Anderson Peter,
Peshkur Tanya A., Sohi Saran P.
Journal of Environmental Quality. 2013 42(3). p.672
Hydrothermal carbonization of biomass residuals: a comparative review of the chemistry, processes and applications of wet and dry pyrolysis
Libra Judy A,
Ro Kyoung S,
Kammann Claudia,
Funke Axel,
Berge Nicole D,
Neubauer York,
Titirici Maria-Magdalena,
Fühner Christoph,
Bens Oliver,
Kern Jürgen, Emmerich Karl-Heinz
Biofuels. 2011 2(1). p.71
Canola straw biochars produced under different pyrolysis temperatures and nitrapyrin independently affected cropland soil nitrous oxide emissions
Li Jinbiao,
Kwak Jin-Hyeob,
Chen Jinlin,
An Zhengfeng,
Gong Xiaoqiang, Chang Scott X.
Biology and Fertility of Soils. 2021 57(2). p.319
Influence of biochar on drought tolerance of Chenopodium quinoa Willd and on soil–plant relations
Kammann Claudia Irene,
Linsel Sebastian,
Gößling Johannes W., Koyro Hans-Werner
Plant and Soil. 2011 345(1-2). p.195
Soil Fertility, N2 Fixation and Yield of Chickpea as Influenced by Long-Term Biochar Application under Mung–Chickpea Cropping System
Khan Shadman,
Shah Zahir,
Mian Ishaq Ahmad,
Dawar Khadim,
Tariq Muhammad,
Khan Bushra,
Mussarat Maria,
Amin Hazrat,
Ismail Muhammad,
Ali Shamsher,
Shah Tasneem,
Alamri Saud,
Siddiqui Manzer H.,
Adnan Muhammad,
Romman Muhammad,
Fahad Shah,
Nouman Aqib, Kamal Abid
Sustainability. 2020 12(21). p.9008
Biochar Amendments and Phytoremediation: A Combined Approach for Effective Lead Removal in Shooting Range Soils
Maceiras Rocio,
Perez-Rial Leticia,
Alfonsin Victor,
Feijoo Jorge, Lopez Ignacio
Toxics. 2024 12(7). p.520
Impact of Biochar on Earthworm Populations: A Review
Weyers Sharon L., Spokas Kurt A.
Applied and Environmental Soil Science. 2011 2011 p.1
Biochar for environmental management: Mitigating greenhouse gas emissions, contaminant treatment, and potential negative impacts
Zhang Chen,
Zeng Guangming,
Huang Danlian,
Lai Cui,
Chen Ming,
Cheng Min,
Tang Wangwang,
Tang Lin,
Dong Haoran,
Huang Binbin,
Tan Xiaofei, Wang Rongzhong
Chemical Engineering Journal. 2019 373 p.902
Global patterns and controls of soil greenhouse gas fluxes and crop yield under biochar application
Jia Xiaoyu,
Yan Weiming,
Yang Jingyi,
Chen Weiguang,
Ma Hongze,
Chen Xi,
Liu Jin,
Zhong Yangquanwei, Shangguan Zhouping
Land Degradation & Development. 2023 34(17). p.5622
Divergent Gas Transfer Velocities of CO2, CH4, and N2O Over Spatial and Temporal Gradients in a Subtropical Estuary
Rosentreter Judith A.,
Wells Naomi S.,
Ulseth Amber J., Eyre Bradley D.
Journal of Geophysical Research: Biogeosciences. 2021 126(10).
Chars produced by slow pyrolysis and hydrothermal carbonization vary in carbon sequestration potential and greenhouse gases emissions
Malghani Saadatullah,
Gleixner Gerd, Trumbore Susan E.
Soil Biology and Biochemistry. 2013 62 p.137
Degradation of Miscanthus × giganteus biochar, hydrochar and feedstock under the influence of disturbance events
Schimmelpfennig Sonja,
Kammann Claudia,
Mumme Jan,
Marhan Sven,
Bamminger Chris,
Moser Gerald, Müller Christoph
Applied Soil Ecology. 2017 113 p.135
Response of N2O emissions to N fertilizer reduction combined with biochar application in a rain-fed winter wheat ecosystem
Li Wei,
Xie Huanxin,
Ren Zhangheng,
Li Tong,
Wen Xiaoxia,
Han Juan, Liao Yuncheng
Agriculture, Ecosystems & Environment. 2022 333 p.107968
Biochar and Nitrogen Fertilizer Alters Soil Nitrogen Dynamics and Greenhouse Gas Fluxes from Two Temperate Soils
Zheng Jiyong,
Stewart Catherine E., Cotrufo M. Francesca
Journal of Environmental Quality. 2012 41(5). p.1361
Biochar production and applications in soil fertility and carbon sequestration – a sustainable solution to crop-residue burning in India
Mohan Dinesh,
Abhishek Kumar,
Sarswat Ankur,
Patel Manvendra,
Singh Prachi, Pittman Charles U.
RSC Advances. 2018 8(1). p.508
Biochar Addition Altered Bacterial Community and Improved Photosynthetic Rate of Seagrass: A Mesocosm Study of Seagrass Thalassia hemprichii
Zhang Jian,
Ling Juan,
Zhou Weiguo,
Zhang Wenqian,
Yang Fangfang,
Wei Zhangliang,
Yang Qingsong,
Zhang Ying, Dong Junde
Frontiers in Microbiology. 2021 12
The molar H:Corg ratio of biochar is a key factor in mitigating N2O emissions from soil
Cayuela M.L.,
Jeffery S., van Zwieten L.
Agriculture, Ecosystems & Environment. 2015 202 p.135
Effect of different biochar and fertilizer types on N2O and NO emissions
Nelissen Victoria,
Saha Biplob Kumar,
Ruysschaert Greet, Boeckx Pascal
Soil Biology and Biochemistry. 2014 70 p.244
Agricultural and Environmental Applications of Biochar: Advances and Barriers (2015)
Effects of biochar application on soil greenhouse gas fluxes: a meta‐analysis
He Yanghui,
Zhou Xuhui,
Jiang Liling,
Li Ming,
Du Zhenggang,
Zhou Guiyao,
Shao Junjiong,
Wang Xihua,
Xu Zhihong,
Hosseini Bai Shahla,
Wallace Helen, Xu Chengyuan
GCB Bioenergy. 2017 9(4). p.743
Insight into biochar properties and its cost analysis
Ahmed Mohammad Boshir,
Zhou John L.,
Ngo Huu Hao, Guo Wenshan
Biomass and Bioenergy. 2016 84 p.76
Impacts of greenwaste biochar on ammonia volatilisation from bauxite processing residue sand
Chen C. R.,
Phillips I. R.,
Condron L. M.,
Goloran J.,
Xu Z. H., Chan K. Y.
Plant and Soil. 2013 367(1-2). p.301
Soil CO2 and N2O Emission Drivers in a Vineyard (Vitis vinifera) under Different Soil Management Systems and Amendments
Horel Ágota,
Tóth Eszter,
Gelybó Györgyi,
Dencső Márton, Potyó Imre
Sustainability. 2018 10(6). p.1811
Pyrogenic carbon and carbonating minerals for carbon capture and storage (PyMiCCS) part I: production, physico-chemical characterization and C-sink potential
Meyer zu Drewer Johannes,
Vorrath Maria-Elena,
Amann Thorben,
Hartmann Jens,
De la Rosa Jose Maria,
Möllmer Jens,
Pérez-Dalí Sara Maria,
Meredith William,
Uguna Clement,
Snape Colin,
Kammann Claudia,
Schmidt Hans-Peter, Hagemann Nikolas
Frontiers in Climate. 2025 7
Application of Biochars for Soil Constraints: Challenges and Solutions
SOLAIMAN Zakaria M., ANAWAR Hossain M.
Pedosphere. 2015 25(5). p.631
Biochar reduces the efficiency of nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) mitigating N2O emissions
Fuertes-Mendizábal T.,
Huérfano X.,
Vega-Mas I.,
Torralbo F.,
Menéndez S.,
Ippolito J. A.,
Kammann C.,
Wrage-Mönnig N.,
Cayuela M. L.,
Borchard N.,
Spokas K.,
Novak J.,
González-Moro M. B.,
González-Murua C., Estavillo J. M.
Scientific Reports. 2019 9(1).
Carbon dioxide and gaseous nitrogen emissions from biochar‐amended soils under wastewater irrigated urban vegetable production of Burkina Faso and Ghana
Manka'abusi Delphine,
Lompo Désiré J. P.,
Steiner Christoph,
Ingold Mariko,
Akoto-Danso Edmund Kyei,
Werner Steffen,
Häring Volker,
Nyarko George,
Marschner Bernd, Buerkert Andreas
Journal of Plant Nutrition and Soil Science. 2020 183(4). p.500
Soil acidification and the liming potential of biochar
Bolan Nanthi,
Sarmah Ajit K.,
Bordoloi Sanandam,
Bolan Shankar,
Padhye Lokesh P.,
Van Zwieten Lukas,
Sooriyakumar Prasanthi,
Khan Basit Ahmed,
Ahmad Mahtab,
Solaiman Zakaria M.,
Rinklebe Jörg,
Wang Hailong,
Singh Bhupinder Pal, Siddique Kadambot H.M.
Environmental Pollution. 2023 317 p.120632
Kinetics of Carbon Mineralization of Biochars Compared with Wheat Straw in Three Soils
Qayyum Muhammad Farooq,
Steffens Diedrich,
Reisenauer Hans Peter, Schubert Sven
Journal of Environmental Quality. 2012 41(4). p.1210
The combined effects of nitrogen fertilizer and biochar on soil aggregation, N2O emission, and yield from a vegetable field in southeastern China
Han Ying,
Ma Jing,
Xu Xianghua,
Lu Xinyu,
Wang Ziyao, Sun Liying
Environmental Science and Pollution Research. 2023 30(48). p.105944
Influence of variable biochar concentration on yield-scaled nitrous oxide emissions, Wheat yield and nitrogen use efficiency
Dawar Khadim,
Saif-ur-Rahman ,
Fahad Shah,
Alam Syed Sartaj,
Khan Shah Alam,
Dawar Atif,
Younis Uzma,
Danish Subhan,
Datta Rahul, Dick Richard P.
Scientific Reports. 2021 11(1).
The biochar dilemma
Mukherjee A., Lal R.
Soil Research. 2014 52(3). p.217
Greenhouse gas emissions from sub-tropical agricultural soils after addition of organic by-products
Nguyen Dai H,
Biala Johannes,
Grace Peter R,
Scheer Clemens, Rowlings David W
SpringerPlus. 2014 3(1).
Maturity indices in co-composting of chicken manure and sawdust with biochar
Khan Naser,
Clark Ian,
Sánchez-Monedero Miguel A.,
Shea Syd,
Meier Sebastian, Bolan Nanthi
Bioresource Technology. 2014 168 p.245
Soil biochar amendment as a climate change mitigation tool: Key parameters and mechanisms involved
Brassard Patrick,
Godbout Stéphane, Raghavan Vijaya
Journal of Environmental Management. 2016 181 p.484
Biochar-mediated changes in soil quality and plant growth in a three year field trial
Jones D.L.,
Rousk J.,
Edwards-Jones G.,
DeLuca T.H., Murphy D.V.
Soil Biology and Biochemistry. 2012 45 p.113
Temporal evolution of biochar's impact on soil nitrogen processes – a15N tracing study
Nelissen Victoria,
Rütting Tobias,
Huygens Dries,
Ruysschaert Greet, Boeckx Pascal
GCB Bioenergy. 2015 7(4). p.635
A Review of Biochar and Soil Nitrogen Dynamics
Clough Tim,
Condron Leo,
Kammann Claudia, Müller Christoph
Agronomy. 2013 3(2). p.275
Impact of pyrolysis and hydrothermal biochar on gas-emitting activity of soil microorganisms and bacterial and archaeal community composition
Andert Janet, Mumme Jan
Applied Soil Ecology. 2015 96 p.225
Greenhouse gas mitigation and soil carbon stabilization potential of forest biochar varied with biochar type and characteristics
Sapkota Sundar,
Ghimire Rajan,
Bista Prakriti,
Hartmann Dale,
Rahman Tawsif, Adhikari Sushil
Science of The Total Environment. 2024 931 p.172942
Biochar-induced reduction of N2O emission from East Asian soils under aerobic conditions: Review and data analysis
Lee Sun-Il,
Park Hyun-Jin,
Jeong Young-Jae,
Seo Bo-Seong,
Kwak Jin-Hyeob,
Yang Hye In,
Xu Xingkai,
Tang Shuirong,
Cheng Weiguo,
Lim Sang-Sun, Choi Woo-Jung
Environmental Pollution. 2021 291 p.118154
Biochar Incorporation into Pasture Soil Suppresses in situ Nitrous Oxide Emissions from Ruminant Urine Patches
Taghizadeh‐Toosi Arezoo,
Clough Tim J.,
Condron Leo M.,
Sherlock Robert R.,
Anderson Craig R., Craigie Robin A.
Journal of Environmental Quality. 2011 40(2). p.468
A fast chemical oxidation method for predicting the long-term mineralization of biochar in soils
Liu Benjuan,
Liu Qi,
Wang Xiaojie,
Bei Qicheng,
Zhang Yanhui,
Lin Zhibin,
Liu Gang,
Zhu Jianguo,
Hu Tianlong,
Jin Haiyang,
Wang Hui,
Sun Xiaoli,
Lin Xingwu, Xie Zubin
Science of The Total Environment. 2020 718 p.137390
Biochar mitigates N2O emissions by promoting complete denitrification in acidic and alkaline paddy soils
Wei Zhijun,
Li Chenglin,
Ma Xiaofang,
Ma Shutan,
Han Zongyang,
Yan Xiaoyuan, Shan Jun
European Journal of Soil Science. 2023 74(6).
Sustainability of biochar amendment in a tropical paddy soil
Ong’injo Rogers Omondi,
Kengara Fredrick Orori,
Shikanga Emmanuel, Wang Fang
Sustainable Chemistry for the Environment. 2024 7 p.100113
An incubation study investigating the mechanisms that impact N2O flux from soil following biochar application
Van Zwieten L.,
Singh B.P.,
Kimber S.W.L.,
Murphy D.V.,
Macdonald L.M.,
Rust J., Morris S.
Agriculture, Ecosystems & Environment. 2014 191 p.53
Microbial metabolic efficiency and community stability in high and low fertility soils following wheat residue addition
Liu Benjuan,
Bei Qicheng,
Wang Xiaojie,
Liu Qi,
Hu Shuijin,
Lin Zhibin,
Zhang Yanhui,
Lin Xingwu,
Jin Haiyang,
Hu Tianlong, Xie Zubin
Applied Soil Ecology. 2021 159 p.103848
A method for screening the relative long‐term stability of biochar
Cross Andrew, Sohi Saran P.
GCB Bioenergy. 2013 5(2). p.215
Biochar affects community composition of nitrous oxide reducers in a field experiment
Krause Hans-Martin,
Hüppi Roman,
Leifeld Jens,
El-Hadidi Mohamed,
Harter Johannes,
Kappler Andreas,
Hartmann Martin,
Behrens Sebastian,
Mäder Paul, Gattinger Andreas
Soil Biology and Biochemistry. 2018 119 p.143
Advances and future directions of biochar characterization methods and applications
Igalavithana Avanthi Deshani,
Mandal Sanchita,
Niazi Nabeel Khan,
Vithanage Meththika,
Parikh Sanjai J.,
Mukome Fungai N. D.,
Rizwan Muhammad,
Oleszczuk Patryk,
Al-Wabel Mohammad,
Bolan Nanthi,
Tsang Daniel C. W.,
Kim Ki-Hyun, Ok Yong Sik
Critical Reviews in Environmental Science and Technology. 2017 47(23). p.2275
Biochar-Root Exudate Induced a Relay Activity of Abundant Specific Degraders for Efficient Phenanthrene Degradation
Li Xiaona,
Yao Shi,
Bolan Nanthi,
Wang Zhenyu,
Jiang Xin, Song Yang
SSRN Electronic Journal . 2022
Elaboration, characteristics and advantages of biochars for the management of contaminated soils with a specific overview on Miscanthus biochars
Janus Adeline,
Pelfrêne Aurélie,
Heymans Sophie,
Deboffe Christophe,
Douay Francis, Waterlot Christophe
Journal of Environmental Management. 2015 162 p.275
Effect of barley straw biochar application on greenhouse gas emissions from upland soil for Chinese cabbage cultivation in short-term laboratory experiments
Kang Se-Won,
Seo Dong-Cheol,
Cheong Yong-Hwa,
Park Ju-Wang,
Park Jong-Hwan,
Kang Hang-Won,
Park Ki-Do,
Ok Yong Sik, Cho Ju-Sik
Journal of Mountain Science. 2016 13(4). p.693
Wood gasification biochar enhances soil carbon sequestration without affecting greenhouse gas fluxes or wheat yield in sub-alkaline soil
Trozzo Laura,
D’Ottavio Paride,
Kishimoto-Mo Ayaka Wenhong, Francioni Matteo
Soil and Tillage Research. 2025 251 p.106556
Effects of Sewage Sludge Hydrochar on the Emission of Climate-Relevant Trace Gases N 2O and CO 2 from Loamy Sand Soil
Joshi Arpan,
Breulmann Marc,
Schulz Elke, Ruser Reiner
SSRN Electronic Journal . 2022
Rice husk biochar and crop residue amendment in subtropical cropping soils: effect on biomass production, nitrogen use efficiency and greenhouse gas emissions
Nguyen Dai H.,
Scheer Clemens,
Rowlings David W., Grace Peter R.
Biology and Fertility of Soils. 2016 52(2). p.261
Modified biochar reduces the greenhouse gas emission intensity and enhances the net ecosystem economic budget in black soil soybean fields
Gong Yidan,
Hou Renjie,
Fu Qiang,
Li Tianxiao,
Wang Jinwu,
Su Zhongbin,
Shen Weizheng,
Zhou Wenqi,
Wang Yijia, Li Mo
Soil and Tillage Research. 2024 237 p.105978
Rice husk and melaleuca biochar additions reduce soil CH4 and N2O emissions and increase soil physicochemical properties
Tran Sy Nam,
Huynh Van Thao,
Chiem Nguyen Huu,
Nguyen Van Cong, Mitsunori Tarao
F1000Research. 2022 10 p.1128
Biochar with Inorganic Nitrogen Fertilizer Reduces Direct Greenhouse Gas Emission Flux from Soil
Ayaz Muhammad,
Feizienė Dalia,
Tilvikienė Vita,
Feiza Virginijus,
Baltrėnaitė-Gedienė Edita, Ullah Sana
Plants. 2023 12(5). p.1002
Long-term effects of grain husk and paper fibre sludge biochar on acidic and calcareous sandy soils – A scale-up field experiment applying a complex monitoring toolkit
Farkas Éva,
Feigl Viktória,
Gruiz Katalin,
Vaszita Emese,
Fekete-Kertész Ildikó,
Tolner Mária,
Kerekes Ivett,
Pusztai Éva,
Kari András,
Uzinger Nikolett,
Rékási Márk,
Kirchkeszner Csaba, Molnár Mónika
Science of The Total Environment. 2020 731 p.138988
Potential hazards of biochar: The negative environmental impacts of biochar applications
Xiang Ling,
Liu Shaoheng,
Ye Shujing,
Yang Hailan,
Song Biao,
Qin Fanzhi,
Shen Maocai,
Tan Chang,
Zeng Guangming, Tan Xiaofei
Journal of Hazardous Materials. 2021 420 p.126611
Restauration de la productivité des sols tropicaux et méditerranéens (2017)
Biochar field testing in the UK: outcomes and implications for use
Hammond Jim,
Shackley Simon,
Prendergast-Miller Miranda,
Cook Jason,
Buckingham Sarah, Pappa Valentini A
Carbon Management. 2013 4(2). p.159
Impacts of straw biochar additions on agricultural soil quality and greenhouse gas fluxes in karst area, Southwest China
Fang Bin,
Lee Xinqing,
Zhang Jian,
Li Yuqing,
Zhang Like,
Cheng Jianzhong,
Wang Bing, Cheng Hongguang
Soil Science and Plant Nutrition. 2016 62(5-6). p.526
Urea-based nitrogen fertilization in agriculture: a key source of N2O emissions and recent development in mitigating strategies
Zhang Yingying,
Wang Weijin, Yao Huaiying
Archives of Agronomy and Soil Science. 2023 69(5). p.663
Biochar Decelerates Soil Organic Nitrogen Cycling but Stimulates Soil Nitrification in a Temperate Arable Field Trial
Prommer Judith,
Wanek Wolfgang,
Hofhansl Florian,
Trojan Daniela,
Offre Pierre,
Urich Tim,
Schleper Christa,
Sassmann Stefan,
Kitzler Barbara,
Soja Gerhard,
Hood-Nowotny Rebecca Clare, Jose Shibu
PLoS ONE. 2014 9(1). p.e86388
Adsorption and desorption of nitrous oxide by raw and thermally air-oxidized chars
Xiao Feng,
Gámiz Beatriz, Pignatello Joseph J.
Science of The Total Environment. 2018 643 p.1436
Biochar increases nitrogen retention and lowers greenhouse gas emissions when added to composting poultry litter
Agyarko-Mintah Eunice,
Cowie Annette,
Singh Bhupinder Pal,
Joseph Stephen,
Van Zwieten Lukas,
Cowie Alan,
Harden Steven, Smillie Robert
Waste Management. 2017 61 p.138
Organic matter dynamics, soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues, biochar and marble waste
Moreno-Barriga Fabián,
Díaz Vicente,
Acosta José A.,
Muñoz M. Ángeles,
Faz Ángel, Zornoza Raúl
Geoderma. 2017 301 p.19
How biochar works, and when it doesn't: A review of mechanisms controlling soil and plant responses to biochar
Joseph Stephen,
Cowie Annette L.,
Van Zwieten Lukas,
Bolan Nanthi,
Budai Alice,
Buss Wolfram,
Cayuela Maria Luz,
Graber Ellen R.,
Ippolito James A.,
Kuzyakov Yakov,
Luo Yu,
Ok Yong Sik,
Palansooriya Kumuduni N.,
Shepherd Jessica,
Stephens Scott,
Weng Zhe (Han), Lehmann Johannes
GCB Bioenergy. 2021 13(11). p.1731
Biochar: A Synthesis of Its Agronomic Impact beyond Carbon Sequestration
Spokas Kurt A.,
Cantrell Keri B.,
Novak Jeffrey M.,
Archer David W.,
Ippolito James A.,
Collins Harold P.,
Boateng Akwasi A.,
Lima Isabel M.,
Lamb Marshall C.,
McAloon Andrew J.,
Lentz Rodrick D., Nichols Kristine A.
Journal of Environmental Quality. 2012 41(4). p.973
Combined effects of nitrogen deposition and biochar application on emissions of N2O, CO2and NH3from agricultural and forest soils
Sun Liying,
Li Lu,
Chen Zhaozhi,
Wang Jinyang, Xiong Zhengqin
Soil Science and Plant Nutrition. 2014 60(2). p.254
The Effect of Manure from Cattle Fed Barley- vs. Corn-Based Diets on Greenhouse Gas Emissions Depends on Soil Type
Weber Tien L.,
Hao Xiying,
Gross Cole D.,
Beauchemin Karen A., Chang Scott X.
Soil Systems. 2022 6(2). p.47
Nitrogen fertilization value of compost and dried dung in soils with contrasting synthetic nitrogen fertilization histories
Langworthy Adam D.,
Corkrey Ross,
Rawnsley Richard P.,
Raedts Pieter J. M., Hills James L.
Grass and Forage Science. 2023 78(1). p.184
Positive priming effect explained by microbial nitrogen mining and stoichiometric decomposition at different stages
Song Xiaojun,
Liu Xiaotong,
Liang Guopeng,
Li Shengping,
Li Jingyu,
Zhang Mengni,
Zheng Fengjun,
Ding Weiting,
Wu Xueping, Wu Huijun
Soil Biology and Biochemistry. 2022 175 p.108852
(2016)
The effects of walnut shell and wood feedstock biochar amendments on greenhouse gas emissions from a fertile soil
Mukome Fungai N.D.,
Six Johan, Parikh Sanjai J.
Geoderma. 2013 200-201 p.90
Biotransformation of Waste Biomass into High Value Biochemicals (2014)
Biochar improves diary pasture yields by alleviating P and K constraints with no influence on soil respiration or N2O emissions
van Zwieten Lukas,
Kimber Stephen,
Morris Stephen,
Macdonald Lynne M.,
Rust Josh,
Petty Scott,
Joseph Stephen, Rose Terry
Biochar. 2019 1(1). p.115
Management Strategies to Mitigate N2O Emissions in Agriculture
Hassan Muhammad Umair,
Aamer Muhammad,
Mahmood Athar,
Awan Masood Iqbal,
Barbanti Lorenzo,
Seleiman Mahmoud F.,
Bakhsh Ghous,
Alkharabsheh Hiba M.,
Babur Emre,
Shao Jinhua,
Rasheed Adnan, Huang Guoqin
Life. 2022 12(3). p.439
Soil greenhouse gas, carbon content, and tree growth response to biochar amendment in western United States forests
Sarauer Jessica L.,
Page‐Dumroese Deborah S., Coleman Mark D.
GCB Bioenergy. 2019 11(5). p.660
Rice husk and melaleuca biochar additions reduce soil CH4 and N2O emissions and increase soil organic matter and nutrient availability
Tran Sy Nam,
Huynh Van Thao,
Chiem Nguyen Huu,
Nguyen Van Cong, Mitsunori Tarao
F1000Research. 2021 10 p.1128
Effects of biochar addition on N2O and CO2 emissions from two paddy soils
Wang Jinyang,
Zhang Man,
Xiong Zhengqin,
Liu Pingli, Pan Genxing
Biology and Fertility of Soils. 2011 47(8). p.887
A feasibility study of agricultural and sewage biomass as biochar, bioenergy and biocomposite feedstock: Production, characterization and potential applications
Srinivasan Prakash,
Sarmah Ajit K.,
Smernik Ron,
Das Oisik,
Farid Mohammed, Gao Wei
Science of The Total Environment. 2015 512-513 p.495
Nitrous oxide emissions from applied nitrate fertiliser in commercial cherry orchards
Quin P.,
Swarts N.,
Oliver G.,
Paterson S.,
Friedl J., Rowlings D.
Soil Research. 2021 59(1). p.60
Biochar Pyrolyzed at Two Temperatures Affects Escherichia coli
Transport through a Sandy Soil
Bolster Carl H., Abit Sergio M.
Journal of Environmental Quality. 2012 41(1). p.124
Biochar Promotes Nitrogen Transformation and Tomato Yield by Regulating Nitrogen-Related Microorganisms in Tomato Cultivation Soil
Guo Lili,
Yu Huiwen,
Niu Wenquan, Kharbach Mourad
Agronomy. 2021 11(2). p.381
Plant Invasions and Global Climate Change (2023)
Lowering N2O emissions from soils using eucalypt biochar: the importance of redox reactions
Quin P,
Joseph S,
Husson O,
Donne S,
Mitchell D,
Munroe P,
Phelan D,
Cowie A, Van Zwieten L
Scientific Reports. 2015 5(1).
Effect of dolomite and biochar addition on N2O and CO2 emissions from acidic tea field soil
Oo Aung Zaw,
Sudo Shigeto,
Akiyama Hiroko,
Win Khin Thuzar,
Shibata Akira,
Yamamoto Akinori,
Sano Tomohito,
Hirono Yuhei, Paz-Ferreiro Jorge
PLOS ONE. 2018 13(2). p.e0192235
Soil application of activated hydrochar derived from sewage sludge enhances plant growth and reduces nitrogen loss
Gebretsadkan Angesom Aregawi,
Belete Yonas Zeslase,
Krounbi Leilah,
Gelfand Ilya,
Bernstein Roy, Gross Amit
Science of The Total Environment. 2024 949 p.174965
Quantification of Soil Organic Carbon in Biochar-Amended Soil Using Ground Penetrating Radar (GPR)
Shen Xiaoqing,
Foster Tyler,
Baldi Heather,
Dobreva Iliyana,
Burson Byron,
Hays Dirk,
Tabien Rodante, Jessup Russell
Remote Sensing. 2019 11(23). p.2874
Predicting Slow Pyrolysis Process Outcomes with Simplified Empirical Correlations for a Consistent Higher Heating Temperature: Biochar Yield and Ash Content
Allen Jessica. A., Downie Adriana. E.
Energy & Fuels. 2020 34(11). p.14223
Bioenergy Research: Advances and Applications (2014)
Linking feedstock and application rate of biochars to N2O emission in a sandy loam soil: Potential mechanisms
Lan Z.M.,
Chen C.R.,
Rezaei Rashti M.,
Yang H., Zhang D.K.
Geoderma. 2019 337 p.880
DMPP-urea restricts nitrification in the first month without improving agronomic N use efficiency
Rose Terry J.,
Kearney Lee J.,
Zeng Yongjun,
Van Zwieten Lukas, Rose Michael T.
Nutrient Cycling in Agroecosystems. 2023 126(1). p.115
Impact of biochar on nitrous oxide emissions from upland rice
Petter Fabiano André,
Borges de Lima Larissa,
Marimon Júnior Ben Hur,
Alves de Morais Leidimar, Marimon Beatriz Schwantes
Journal of Environmental Management. 2016 169 p.27
Environmental applications of carbon-based materials: a review
Gopinath Kannapan Panchamoorthy,
Vo Dai-Viet N.,
Gnana Prakash Dhakshinamoorthy,
Adithya Joseph Antonysamy,
Viswanathan Samynaathan, Arun Jayaseelan
Environmental Chemistry Letters. 2021 19(1). p.557
Nitrogen addition decreases the soil cumulative priming effect and favours soil net carbon gains in Robinia pseudoacacia plantation soil
Su Zhuoxia, Shangguan Zhouping
Geoderma. 2023 433 p.116444
Localisation of nitrate in the rhizosphere of biochar-amended soils
Prendergast-Miller Miranda T.,
Duvall Michael, Sohi Saran P.
Soil Biology and Biochemistry. 2011 43(11). p.2243
The nitrification inhibitor DMPP applied to subtropical rice has an inconsistent effect on nitrous oxide emissions
Rose Terry J.,
Morris Stephen G.,
Quin Peter,
Kearney Lee J.,
Kimber Stephen, Van Zwieten Lukas
Soil Research. 2017 55(6). p.547
Fındık kabuğundan üretilen biyokömürün toprağın besin maddesi kapsamı üzerine etkisi
Tarakçıoğlu Ceyhan,
Bender Özenç Damla,
Irmak Yılmaz Funda,
Kulaç Sezen, Aygün Selahattin
Anadolu Journal of Agricultural Sciences. 2019 p.107
Biochar and Hydrochar Effects on Greenhouse Gas (Carbon Dioxide, Nitrous Oxide, and Methane) Fluxes from Soils
Kammann Claudia,
Ratering Stefan,
Eckhard Christian, Müller Christoph
Journal of Environmental Quality. 2012 41(4). p.1052
Nitrous oxide emission from agricultural soils: Application of animal manure or biochar? A global meta-analysis
Shakoor Awais,
Shahzad Sher Muhammad,
Chatterjee Nilovna,
Arif Muhammad Saleem,
Farooq Taimoor Hassan,
Altaf Muhammad Mohsin,
Tufail Muhammad Aammar,
Dar Afzal Ahmed, Mehmood Tariq
Journal of Environmental Management. 2021 285 p.112170
Production of biochar from squeezed liquid of fruit and vegetable waste: Impacts on soil N2O emission and microbial community
Liu Xiaoxuan,
Jiang Cancan,
Qin Yu,
Wang Cong,
Wang Jinglin,
Zheng Xiaoxu,
Maihaiti Mairemu,
Zhang Xupo,
Ma Shuanglong,
Xu Shengjun, Zhuang Xuliang
Environmental Research. 2023 239 p.117245
Soil Health and Climate Change (2011)
N use efficiencies and N
2
O emissions in two contrasting, biochar amended soils under winter wheat—cover crop—sorghum rotation
Hüppi Roman,
Neftel Albrecht,
Lehmann Moritz F,
Krauss Maike,
Six Johan, Leifeld Jens
Environmental Research Letters. 2016 11(8). p.084013
The feasibility and costs of biochar deployment in the UK
Shackley Simon,
Hammond Jim,
Gaunt John, Ibarrola Rodrigo
Carbon Management. 2011 2(3). p.335
Phytoremediation (2015)
Bổ sung than sinh học trấu và tre làm giảm phát thải khí CH4 của đất ngập nước trong điều kiện phòng thí nghiệm
Trần Sỹ Nam,
Hồ Vũ Khanh,
Hồ Minh Nhựt, Nguyễn Hữu Chiếm
Can Tho University Journal of Science. 2021 57(Environment and Climate change). p.32
Biochar's dual impact on soil acidity management and crop yield enhancement in acidic soils: a meta-analysis
Zhang Weina,
Pang Jiayin,
Qi Junfeng,
Lu Yang,
Liu Junhe,
Yu Mingfu,
Li Haigang,
Wang Enli, Lambers Hans
Plant and Soil. 2025
Denitrification kinetics in biomass- and biochar-amended soils of different landscape positions
Chintala Rajesh,
Owen Rachel K,
Schumacher Thomas E,
Spokas Kurt A,
McDonald Louis M,
Kumar Sandeep,
Clay David E,
Malo Douglas D, Bleakley Bruce
Environmental Science and Pollution Research. 2015 22(7). p.5152
Soil concentration profiles and diffusion and emission of nitrous oxide influenced by the application of biochar in a rice-wheat annual rotation system
Zhou Ziqiang,
Xu Xin,
Bi Zhichao,
Li Lu,
Li Bo, Xiong Zhengqin
Environmental Science and Pollution Research. 2016 23(8). p.7949
Co-production of biochar, bio-oil and syngas from halophyte grass (Achnatherum splendens L.) under three different pyrolysis temperatures
Irfan Muhammad,
Chen Qun,
Yue Yan,
Pang Renzhong,
Lin Qimei,
Zhao Xiaorong, Chen Hao
Bioresource Technology. 2016 211 p.457
Slow pyrolysis pine wood-derived biochar reduces nitrous oxide production from surface but not subsurface soil
Deng Hongyuan,
Ejack Leanne,
Gul Shamim,
Prasher Shiv O.,
Whalen Joann K., Naeth M. Anne
Canadian Journal of Soil Science. 2022 102(1). p.147
Biochar and biochar with N-fertilizer affect soil N2O emission in Haplic Luvisol
Horák Ján,
Kondrlová Elena,
Igaz Dušan,
Šimanský Vladimír,
Felber Raphael,
Lukac Martin,
Balashov Eugene V.,
Buchkina Natalya P.,
Rizhiya Elena Y., Jankowski Michal
Biologia. 2017 72(9). p.995
Geoengineering Responses to Climate Change (2013)
Effect of Biochar Application and Arbuscular Mycorrhizal Inoculation on Root Colonization and Soil Chemical Properties
Yusif Sunusi Abdu, Dare Michael Olajire
International Annals of Science. 2016 1(1). p.33
Nitrogen nutrition in cotton and control strategies for greenhouse gas emissions: a review
Khan Aziz,
Tan Daniel Kean Yuen,
Munsif Fazal,
Afridi Muhammad Zahir,
Shah Farooq,
Wei Fan,
Fahad Shah, Zhou Ruiyang
Environmental Science and Pollution Research. 2017 24(30). p.23471
Recycling of Solid Waste for Biofuels and Bio-chemicals (2016)
Pine Chip and Poultry Litter Derived Biochars Affect C and N Dynamics in Two Georgia, USA, Ultisols
Weyers Sharon L.,
Das Keshav C.,
Gaskin Julia W., Liesch Amanda M.
Agronomy. 2023 13(2). p.531
