Charcoal Volatile Matter Content Influences Plant Growth and Soil Nitrogen Transformations

Deenik, Jonathan; McClellan, Tai; Uehara, G.; Antal, Michael Jerry; Campbell, Sonia

doi:10.2136/sssaj2009.0115

Cited by 407 publications

(278 citation statements)

References 43 publications

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“…Commonly available commercial BCs, derived from wood biomass and crop residues, are poor in nutrients, but can positively affect nutrient availability and crop growth only if enriched with nutrients pre-application or if applied in combination with fertilisers (Deenik et al, 2010;Yao et al, 2015). Manure and biosolid-derived BCs, which are used less often than wood BCs, can function as both amendments and biofertilisers given their nutrient-rich original feedstocks Hossain et al, 2015;Cantrell et al, 2012;Subedi et al, 2016aSubedi et al, , 2016b.…”

Section: Nutrient Availabilitymentioning

confidence: 99%

“…Others have reported no yield effect (Cornelissen et al, 2013;Uzoma et al, 2011;Nelissen et al, 2015;Subedi et al, 2016aSubedi et al, , 2016bNielsen et al, 2014;Tammeorg et al, 2014;Suddick and Six, 2013;Schmidt et al, 2014;Bass et al, 2016). Conversly, few studies have instead described reduced crop yields (Deenik et al, 2010;Baronti et al, 2010;Marks et al, 2014;Nelissen et al, 2014;Bass et al, 2016;Butnan et al, 2015;Laghari et al, 2015). Therefore, interest has emerged to study BC effects that negatively alter crop growth (Jeffery et al, 2011(Jeffery et al, , 2015aSpokas et al, 2012;Biederman and Harpole, 2013;Wang et al, 2016, Olmo et al, 2016.…”

Section: Biochar Effects On Crop Productivitymentioning

confidence: 99%

“…organic as well as inorganic (Steiner et al, 2007;Deenik et al, 2010;Subedi et al, 2015). This is probably due to the positive interaction between BC and applied fertiliser that improved the availability of nutrients associated with enhanced plant uptake and reduced losses of these nutrients.…”

Section: Interaction With Organic and Inorganic Fertilisersmentioning

confidence: 99%

“…Despite its many benefits, BC also poses risks, associated with the properties of the original feedstock and thermal process conditions (Deenik et al, 2010;Spokas et al, 2011;Freddo et al, 2012;Barrow, 2012;Quilliam et al, 2013b;Butnan et al, 2015;CampsArbestain et al, 2015;Domene et al, 2015;Genesio et al, 2016). These can range from heavy metal soil accumulation to toxic compound release, and to other negative effects on soil biota and human health.…”

Section: Introductionmentioning

confidence: 99%

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Crop response to soils amended with biochar: expected benefits and unintended risks

et al. 2017

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Biochar (BC) from biomass waste pyrolysis has been widely studied due to its ability to increase carbon sequestration, reduce greenhouse gas emissions, and enhance both crop growth and soil quality. This review summarises the current knowledge of BC production, characterisation, and types, with a focus on its positive effects on crop yield and soil properties vs the unintended risks associated with these effects. Biochar-amended soils enhance crop growth and yield via several mechanisms: expanded plant nutrient and water availability through increased use efficiencies, improved soil quality, and suppression of soil and plant diseases. Yield response to BC has been shown to be more evident in acidic and sandy soils than in alkaline and fine-textured soils. Biochar composition and properties vary considerably with feedstock and pyrolysis conditions so much that its concentrations of toxic compounds and heavy metals can negatively impact crop and soil health. Consequently, more small-scale and greenhouse-sited studies are in process to investigate the role of BC/soil/crop types on crop growth, and the mechanisms by which they influence crop yield. Similarly, a need exists for long-term, field-scale studies on the effects (beneficial and harmful) of BC amendment on soil health and crop yields, so that production guidelines and quality standards may be developed for BCs derived from a range of feedstocks.

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Section: Nutrient Availabilitymentioning

confidence: 99%

Section: Biochar Effects On Crop Productivitymentioning

confidence: 99%

Section: Interaction With Organic and Inorganic Fertilisersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Crop response to soils amended with biochar: expected benefits and unintended risks

et al. 2017

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“…As the pyrolysis temperature increases (400 to 500°C), most of the volatile material is removed as a gas, and the remaining non-volatile solid material undergoes further structural conversion. Some volatile material can re-condense as tar-like compounds and become associated with the biochar matrix [16]. After the loss of volatile material, biochars will possess an amorphous core matrix composed of aromatic and aliphatic compounds that can have attached carbonyl and hydroxyl functional groups [17].…”

Section: Biochar Characterizationmentioning

confidence: 99%

Soil Health, Crop Productivity, Microbial Transport, and Mine Spoil Response to Biochars

et al. 2016

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Biochars vary widely in pH, surface area, nutrient concentration, porosity, and metal binding capacity due to the assortment of feedstock materials and thermal conversion conditions under which it is formed. The wide variety of chemical and physical characteristics have resulted in biochar being used as an amendment to rebuild soil health, improve crop yields, increase soil water storage, and restore soils/spoils impacted by mining. Meta-analysis of the biochar literature has shown mixed results when using biochar as a soil amendment to improve crop productivity. For example, in one meta-analysis, biochar increased crop yield by approximately 10 %, while in another, approximately 50 % of the studies reported minimal to no crop yield increases. In spite of the mixed crop yield reports, biochars have properties that can improve soil health characteristics, by increasing carbon (C) sequestration and nutrient and water retention. Biochars also have the ability to bind enteric microbes and enhance metal binding in soils impacted by mining. In this review, we present examples of both effective and ineffective uses of biochar to improve soil health for agricultural functions and reclamation of degraded mine spoils. Biochars are expensive to manufacture and cannot be purged from soil after application, so for efficient use, they should be targeted for specific uses in agricultural and environmental sectors. Thus, we introduce the designer biochar concept as an alternate paradigm stating that biochars should be designed with properties that are tailored to specific soil deficiencies or problems. We then demonstrate how careful selection of biochars can increase their effectiveness as a soil amendment.

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Production of Biochar and Activated Carbon via Intermediate Pyrolysis – Recent Studies for Non‐Woody Biomass

Hornung

Schröder

2014

Transformation of Biomass

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Charcoal Volatile Matter Content Influences Plant Growth and Soil Nitrogen Transformations

Cited by 407 publications

References 43 publications

Crop response to soils amended with biochar: expected benefits and unintended risks

Crop response to soils amended with biochar: expected benefits and unintended risks

Soil Health, Crop Productivity, Microbial Transport, and Mine Spoil Response to Biochars

Production of Biochar and Activated Carbon via Intermediate Pyrolysis – Recent Studies for Non‐Woody Biomass

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