Effects of biochars produced from different feedstocks on soil properties and sunflower growth

Alburquerque, José Antonio; Calero, Juan; Barrón, Vidal; Torrent, J.; Campillo, M. C. del; Gallardo, Antonio; Villar, Rafael

doi:10.1002/jpln.201200652

Cited by 231 publications

(140 citation statements)

References 33 publications

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“…The pore structure changes in the switchgrass biochars were similar to those in other lignocellulosic biochars (Xiao et al 2014). The biochar produced at 500 °C had a greater number of smaller pores and a larger surface area, which might enhance its performance as soil amendment and improve soil fertility (Alburquerque et al 2014;Liu et al 2016). Moreover, the small pores in the biochar may be conducive to bacterial and fungal colonization, and protect plants from being preyed on by soil fauna, such as protozoa (Warnock et al 2007).…”

Section: B500 B700mentioning

confidence: 74%

Characteristics and Potential Values of Bio-Products Derived from Switchgrass Grown in a Saline Soil Using a Fixed-Bed Slow Pyrolysis System

et al. 2017

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Section: B500 B700mentioning

confidence: 74%

Characteristics and Potential Values of Bio-Products Derived from Switchgrass Grown in a Saline Soil Using a Fixed-Bed Slow Pyrolysis System

et al. 2017

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“…The authors reported no changes in soil pH after applying Miscanthus biochar in lower doses (30 and 60 t ha -1 ). Also Alburquerque et al (2013) found that the application of wheat straw biochar in doses below 1% (30 t ha -1 ) in slightly acidic soil did not affect its pH. They observed a significant increase in the soil pH to the value of 8.5 only after applying a 225 t ha -1 dose of wheat straw biochar.…”

Section: Resultsmentioning

confidence: 96%

“…They observed a significant increase in the soil pH to the value of 8.5 only after applying a 225 t ha -1 dose of wheat straw biochar. However, Alburquerque et al (2013) argued that the biochar applied by them in doses of over 30 t ha -1 had a negative effect on the crop yield due to significantly increased electrical conductivity. The doses of organic materials applied in this study did not significantly increase electrical conductivity (EC) compared to the parameter value determined in the MF treatment (Table 3).…”

Section: Resultsmentioning

confidence: 99%

“…Consumption of unstable nutrients by soil microorganisms affects numerous biological parameters of the soil, such as enzymatic activity (Kuzyakov et al, 2009;Mierzwa-Hersztek et al, 2016;Paz-Ferreiro et al, 2014), microbial biomass (Zavalloni et al, 2011), and diversity of microorganisms (Lehmann and Joseph, 2015). Ameloot et al (2015) and Alburquerque et al (2013) suggested that biochar is an excellent source of nitrogen available not only to microorganisms, but also to plants. This is mainly due to changes in the soil pH and C:N ratio, which play an important role in the stimulation of microorganisms involved in the mineralisation of organic matter and nitrogen transformations.…”

Section: Introductionmentioning

confidence: 99%

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Effect of wheat and Miscanthus straw biochars on soil enzymatic activity, ecotoxicity, and plant yield

Mierzwa–Hersztek¹,

Gondek²,

Klimkowicz‐Pawlas³

et al. 2017

International Agrophysics

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The variety of technological conditions and raw materials from which biochar is produced is the reason why its soil application may have different effects on soil properties and plant growth. The aim of this study was to evaluate the effect of the addition of wheat straw andMiscanthus giganteusstraw (5 t DM ha−1) and biochar obtained from this materials in doses of 2.25 and 5 t DM ha−1on soil enzymatic activity, soil ecotoxicity, and plant yield (perennial grass mixture with red clover). The research was carried out under field conditions on soil with the granulometric composition of loamy sand. No significant effect of biochar amendment on soil enzymatic activity was observed. The biochar-amended soil was toxic toVibrio fischeriand exhibited low toxicity toHeterocypris incongruens. Application of wheat straw biochar andM. giganteusstraw biochar in a dose of 5 t DM ha−1contributed to an increase in plant biomass production by 2 and 14%, respectively, compared to the soil with mineral fertilisation. Biochars had a more adverse effect on soil enzymatic activity and soil ecotoxicity toH. incongruensandV. fischerithan non-converted wheat straw andM. giganteusstraw, but significantly increased the grass crop yield.

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“…This insignificant response on plant growth was probably associated with the insignificant improvement in nutrients uptake. The delayed effects of biochar on plant nutrients uptake (especially N, P and K) was likely due to temporary unavailability of nutrients for plant uptake (Lentz and Ippolito 2012) and N immobilisation when C:N ratio was above 16 (Alburquerque et al 2014;Walter and Rao 2015). The C:N ratio of EFB biochar was 93, and therefore, it potentially induced the immobilisation of mineral N. This was also supported by the observation in plant N, P, and K uptake, where the treatments with biochar showed no significant contribution in both 75 and 100% fertiliser rates.…”

Section: Discussionmentioning

confidence: 99%

Biochar-compost mixture as amendment for improvement of polybag-growing media and oil palm seedlings at main nursery stage

Radin

Bakar

Ishak

et al. 2017

Int J Recycl Org Waste Agricult

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Purpose Production of oil palm seedling in the nursery mainly utilises top soil as polybag medium. These soils, especially in tropical regions, are acidic and have low organic matter content. The aim of this study was to investigate the effects of oil palm empty fruit bunch (EFB) biochar and compost incorporation as amendment in polybag medium for oil palm seedlings growth at the nursery stage. Methods A polybag experiment was conducted with four biochar rates (0, 0.5, 1.0 and 1.5% w/w C addition), two compost rates (0 and 30% v/v), and two fertiliser application rates (75 and 100% of recommended rate). The effects of biochar, compost, and biochar-compost combination on oil palm seedling growth was evaluated and the effectiveness of EFB biochar in retaining soil nutrients was determined indirectly by measuring amount of nutrient leached through the polybag medium. Results Biochar, compost, and biochar-compost amendment improved polybag media's chemical properties (pH, total C and N, C:N ratio, CEC, Mg, and Ca). There were no significant effects of the amendments on shoot biomass. However, root growth and shoot:root ratio significantly improved with 1.5% w/w C addition and 30% (v/v) compost with 75% recommended fertiliser rates applied. Furthermore, nutrient leaching measurement indicates that, EFB biochar significantly reduced ammonium-N leaching up to 21-46%. Conclusions Overall, this study demonstrates the potential of biochar and compost co-application to improve the chemical properties of polybag medium and root development of oil palm seedlings.

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Effects of biochars produced from different feedstocks on soil properties and sunflower growth

Cited by 231 publications

References 33 publications

Characteristics and Potential Values of Bio-Products Derived from Switchgrass Grown in a Saline Soil Using a Fixed-Bed Slow Pyrolysis System

Characteristics and Potential Values of Bio-Products Derived from Switchgrass Grown in a Saline Soil Using a Fixed-Bed Slow Pyrolysis System

Effect of wheat and Miscanthus straw biochars on soil enzymatic activity, ecotoxicity, and plant yield

Biochar-compost mixture as amendment for improvement of polybag-growing media and oil palm seedlings at main nursery stage

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