Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions

Department of Plant and Environmental Sciences

Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions. / Bruun, Esben W.; Müller-Stöver, Dorette; Pedersen, Betina Nørgaard; Hansen, Line Vinther; Petersen, Carsten Tilbæk.

In: Soil Use and Management, Vol. 38, No. 2, 2022, p. 1280-1292.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Bruun, EW, Müller-Stöver, D, Pedersen, BN, Hansen, LV & Petersen, CT 2022, 'Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions', Soil Use and Management, vol. 38, no. 2, pp. 1280-1292. https://doi.org/10.1111/sum.12783

APA

Bruun, E. W., Müller-Stöver, D., Pedersen, B. N., Hansen, L. V., & Petersen, C. T. (2022). Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions. Soil Use and Management, 38(2), 1280-1292. https://doi.org/10.1111/sum.12783

Vancouver

Bruun EW, Müller-Stöver D, Pedersen BN, Hansen LV, Petersen CT. Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions. Soil Use and Management. 2022;38(2):1280-1292. https://doi.org/10.1111/sum.12783

Author

Bruun, Esben W. ; Müller-Stöver, Dorette ; Pedersen, Betina Nørgaard ; Hansen, Line Vinther ; Petersen, Carsten Tilbæk. / Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions. In: Soil Use and Management. 2022 ; Vol. 38, No. 2. pp. 1280-1292.

Bibtex

@article{d2df30a10b6546128b04d06f23b54534,

title = "Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions",

abstract = "Appropriate soil amendments may increase plant available water and crop yields on coarse sandy soils under drought conditions. In this study, we applied straw ash or straw biochar from gasification to a Danish coarse sandy subsoil to assess the effects on soil water retention, evapotranspiration and crop yields. Spring barley (2016, 2017) and winter wheat (2018) were grown over three years in columns containing 25cm of organic matter-rich topsoil, 80 cm of amended coarse sandy soil (1.5%, 3%, 6% wt. ash or 1% wt. biochar or control soil) and 45 cm of un-amended subsoil. Precipitation, evaporative demands and soil moisture were recorded across the growth seasons, with 2018 having severe drought conditions. This year evapotranspiration levels increased with increasing ash and biochar content (by 54% and 33% for the 6% ash- and 1% biochar-amended soils, respectively), and plant dry matter increased by 18% in both the 1% biochar- and 6% ash-treated soils compared to the untreated control. A linear relationship was established between in situ field capacity and ash dosage (R2=.96), showing an increase of 2.2% per percentage (wt.) of ash added, while the 1% biochar treatment increased the capacity by 3.5%, indicating a higher efficiency than for ash. However, we did not find significant positive effects on grain yields. The results show that ash and biochar have the potential to significantly increase soil water retention, evapotranspiration and total dry matter yield in drought conditions, but that this may not correspond to an increase in grain yield.",

author = "Bruun, {Esben W.} and Dorette M{\"u}ller-St{\"o}ver and Pedersen, {Betina N{\o}rgaard} and Hansen, {Line Vinther} and Petersen, {Carsten Tilb{\ae}k}",

note = "Publisher Copyright: {\textcopyright} 2021 British Society of Soil Science.",

year = "2022",

doi = "10.1111/sum.12783",

language = "English",

volume = "38",

pages = "1280--1292",

journal = "Soil Use and Management",

issn = "0266-0032",

publisher = "Wiley-Blackwell",

number = "2",

}

RIS

TY - JOUR

T1 - Ash and biochar amendment of coarse sandy soil for growing crops under drought conditions

AU - Bruun, Esben W.

AU - Müller-Stöver, Dorette

AU - Pedersen, Betina Nørgaard

AU - Hansen, Line Vinther

AU - Petersen, Carsten Tilbæk

PY - 2022

Y1 - 2022

N2 - Appropriate soil amendments may increase plant available water and crop yields on coarse sandy soils under drought conditions. In this study, we applied straw ash or straw biochar from gasification to a Danish coarse sandy subsoil to assess the effects on soil water retention, evapotranspiration and crop yields. Spring barley (2016, 2017) and winter wheat (2018) were grown over three years in columns containing 25cm of organic matter-rich topsoil, 80 cm of amended coarse sandy soil (1.5%, 3%, 6% wt. ash or 1% wt. biochar or control soil) and 45 cm of un-amended subsoil. Precipitation, evaporative demands and soil moisture were recorded across the growth seasons, with 2018 having severe drought conditions. This year evapotranspiration levels increased with increasing ash and biochar content (by 54% and 33% for the 6% ash- and 1% biochar-amended soils, respectively), and plant dry matter increased by 18% in both the 1% biochar- and 6% ash-treated soils compared to the untreated control. A linear relationship was established between in situ field capacity and ash dosage (R2=.96), showing an increase of 2.2% per percentage (wt.) of ash added, while the 1% biochar treatment increased the capacity by 3.5%, indicating a higher efficiency than for ash. However, we did not find significant positive effects on grain yields. The results show that ash and biochar have the potential to significantly increase soil water retention, evapotranspiration and total dry matter yield in drought conditions, but that this may not correspond to an increase in grain yield.

AB - Appropriate soil amendments may increase plant available water and crop yields on coarse sandy soils under drought conditions. In this study, we applied straw ash or straw biochar from gasification to a Danish coarse sandy subsoil to assess the effects on soil water retention, evapotranspiration and crop yields. Spring barley (2016, 2017) and winter wheat (2018) were grown over three years in columns containing 25cm of organic matter-rich topsoil, 80 cm of amended coarse sandy soil (1.5%, 3%, 6% wt. ash or 1% wt. biochar or control soil) and 45 cm of un-amended subsoil. Precipitation, evaporative demands and soil moisture were recorded across the growth seasons, with 2018 having severe drought conditions. This year evapotranspiration levels increased with increasing ash and biochar content (by 54% and 33% for the 6% ash- and 1% biochar-amended soils, respectively), and plant dry matter increased by 18% in both the 1% biochar- and 6% ash-treated soils compared to the untreated control. A linear relationship was established between in situ field capacity and ash dosage (R2=.96), showing an increase of 2.2% per percentage (wt.) of ash added, while the 1% biochar treatment increased the capacity by 3.5%, indicating a higher efficiency than for ash. However, we did not find significant positive effects on grain yields. The results show that ash and biochar have the potential to significantly increase soil water retention, evapotranspiration and total dry matter yield in drought conditions, but that this may not correspond to an increase in grain yield.

U2 - 10.1111/sum.12783

DO - 10.1111/sum.12783

M3 - Journal article

AN - SCOPUS:85122234647

VL - 38

SP - 1280

EP - 1292

JO - Soil Use and Management

JF - Soil Use and Management

SN - 0266-0032

IS - 2

ER -

ID: 289394988