Numerical analysis of the impact of charcoal production on soil hydrological behavior, runoff response and erosion susceptibility

Ayodele, Ajayi Christopher; Oguntunde, Philip G.; Joseph, Abiodun; Dias, Moacir de Souza

doi:10.1590/s0100-06832009000100015

Cited by 46 publications

(20 citation statements)

References 22 publications

(34 reference statements)

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“…This may be attributed to the increased in sand particle content in the soil at the CPS. Ajayi et al, (2009) reported that a higher infiltration rates at kiln site resulted in a 37% reduction of runoff.…”

Section: Effect Of Charcoal Production On Physical and Chemical Propementioning

confidence: 99%

Impact of Charcoal Production on Physical and Chemical Properties of Soil in the Central Gonja District of the Northern Region, Ghana

Wahabu¹,

Fosu-Mensah²,

Nyame³

2015

ENRR

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Charcoal production, is one of the major drivers of land-cover change in Ghana. The trade has in recent time increased in the Central Gonja District of northern Ghana known to be one of the major food baskets of the country. This study assessed the impact of charcoal production on soil properties in the Central Gonja District of Ghana. Composite and core samples (60 samples) from ten (10) randomly selected sites were taken from 0-30 and 30-60 cm depths at the charcoal production site (CPS) and its adjacent field soils, which served as the control (CS). The samples were analyzed for soil texture, exchangeable bases, organic matter, percent carbon, total nitrogen, saturated hydraulic conductivity and electrical conductivity. The results showed that charcoal production site (CPS) had significantly (p < 0.01) higher content of sand, potassium, hydraulic conductivity and electrical conductivity than the control site (CS) within 0 -30cm depth. Magnesium, calcium, sodium and percent carbon content decreased by 45.7, 2.7, 15.4 and 46.7% respectively in CPS when compared to CS within the top soil 0 -30cm. Hydraulic conductivity significantly (p < 0.01) increased from 0.5±0.3 (CS) to 1.8±1.0 h -1 (CPS), which is an increase of about 72 % in CPS due to soil heating. Soil organic matter in CPS decreases by 44% when compared with the CP site. There is a need for further research on the impact of charcoal production on soil nutrient, hydrology and crop production.

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Section: Effect Of Charcoal Production On Physical and Chemical Propementioning

confidence: 99%

Impact of Charcoal Production on Physical and Chemical Properties of Soil in the Central Gonja District of the Northern Region, Ghana

Wahabu¹,

Fosu-Mensah²,

Nyame³

2015

ENRR

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“…All trends increased or decreased linearly with increasing BC addition rates. Ayodele et al (2009) reported increased infiltration and lower runoff in soils of old charcoal storage sites in Ghana.…”

mentioning

confidence: 94%

Nutrient Leaching in a Colombian Savanna Oxisol Amended with Biochar

et al. 2012

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Nutrient leaching in highly weathered tropical soils often poses a challenge for crop production. We investigated the eff ects of applying 20 t ha −1 biochar (BC) to a Colombian savanna Oxisol on soil hydrology and nutrient leaching in fi eld experiments. Measurements were made over the third and fourth years after a single BC application. Nutrient contents in the soil solution were measured under one maize and one soybean crop each year that were routinely fertilized with mineral fertilizers. Leaching by unsaturated water fl ux was calculated using soil solution sampled with suction cup lysimeters and water fl ux estimates generated by the model HYDRUS 1-D. No signifi cant diff erence (p > 0.05) was observed in surface-saturated hydraulic conductivity or soil water retention curves, resulting in no relevant changes in water percolation after BC additions in the studied soils. However, due to diff erences in soil solution concentrations, leaching of inorganic N, Ca, Mg, and K measured up to a depth of 0.6 m increased (p < 0.05), whereas P leaching decreased, and leaching of all nutrients (except P) at a depth of 1.2 m was signifi cantly reduced with BC application. Changes in leaching at 2.0 m depth with BC additions were about one order of magnitude lower than at other depths, except for P. Biochar applications increased soil solution concentrations and downward movement of nutrients in the root zone and decreased leaching of Ca, Mg, and Sr at 1.2 m, possibly by a combination of retention and crop nutrient uptake.

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“…It has drawn enormous attention of scientists to be used as soil amendment due to its ability for long term improvements in soil health along with significant effects on soil population. Pyrolytic biochar is described as an effective soil conditioner, as biochar may improve soil physical properties such as soil water retention, specific surface area, porosity, aggregation, hydraulic conductivity and reduce bulk density (Ayodele et al 2009). Biochar also improves the soil chemical properties like ion exchange capacity, soil reaction, organic matter content, nutrient retention and N use efficiency (Chan and Xu 2009).…”

Section: Introductionmentioning

confidence: 99%

Physico-chemical properties and nutrient content of some slow pyrolysis biochars produced from different feedstocks

Piash

Hossain

Parveen

2017

Bangladesh J. Sci. Res.

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Six slow pyrolysis biochars viz. farmyard manure (FM), water hyacinth (WH), domestic organic waste (DW), quick compost (QC), corn cob (CC) and rice straw (RS) were analyzed for their physical and chemical properties. Biochar yielding capacity varied from 34 to 51%, depending on the used feedstock. Water hyacinth biochar exhibited the highest water holding capacity (495%), whereas corn cob biochar had the lowest (146%) regardless of its highest pore volume. Brunauer-Emmett-Teller (BET) specific surface area was found maximum among the plant derived biochars except corn cob. Rice straw biochar exhibited the least mean pore diameter while highest in domestic organic waste. All biochars possessed pH values more than 9. CEC of water hyacinth (WH) was highest, while lowest was in quick compost (QC) biochar. Smallest average particle size (0.54 µm 2 ) was exhibited by water hyacinth biochar. Organic carbon content ranged from 33 to 49%. Nutrient (N, P, K and S) status of biochar produced from domestic organic waste (DW) was found the maximum compared to the rest and corn cob (CC) biochar showed the lowest nutritional value.

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Numerical analysis of the impact of charcoal production on soil hydrological behavior, runoff response and erosion susceptibility

Cited by 46 publications

References 22 publications

Impact of Charcoal Production on Physical and Chemical Properties of Soil in the Central Gonja District of the Northern Region, Ghana

Impact of Charcoal Production on Physical and Chemical Properties of Soil in the Central Gonja District of the Northern Region, Ghana

Nutrient Leaching in a Colombian Savanna Oxisol Amended with Biochar

Physico-chemical properties and nutrient content of some slow pyrolysis biochars produced from different feedstocks

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