Cashew residue biochar enhances the pore network of cohesive soil in the Brazilian Coastal Tablelands

Soil physical quality is essential for agricultural productivity and environmental sustainability. Cohesive horizons often present high bulk density and low macroporosity, limiting water flow and aeration. This study evaluated the application of biochar derived from cashew residue as a conditioner t...

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Published inGeoderma Regional Vol. 42; p. e00979
Main Authors Mota, Jaedson Cláudio Anunciato, dos Santos, Emanuela Barbosa, Queiroz, Alexandre dos Santos, Ferreira, Odair Pastor, de Souza Filho, Antônio Gomes, Fregolente, Laís Gomes, da Silva, Francisca Gleiciane, Pereira, Arthur Prudêncio de Araujo, Sousa, Helon Hébano de Freitas, Costa, Mirian Cristina Gomes, do Nascimento, Ícaro Vasconcelos
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2025
Subjects
Soil conditioners
Soil functionality
Soil structure
Soil functionality
Soil structure
Soil conditioners
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Abstract Soil physical quality is essential for agricultural productivity and environmental sustainability. Cohesive horizons often present high bulk density and low macroporosity, limiting water flow and aeration. This study evaluated the application of biochar derived from cashew residue as a conditioner to improve the physical quality of cohesive soils. We hypothesized that cashew residue biochar enhances soil (macro) porosity, pore connectivity, water retention, and water and airflow in cohesive horizons. The experiment was conducted with five biochar application rates (0, 5, 10, 20, and 40 Mg ha−1) in a randomized design, using disturbed soil samples manually packed into cylinders to ensure consistent bulk density. We analyzed the soil-water retention curve (SWRC), pore size distribution curve (PSDC), air permeability, pore continuity indices, and saturated hydraulic conductivity. Results demonstrated significant improvements in soil structure and pore functionality at higher biochar doses (20–40 Mg ha−1), despite the pore-blocking effect observed at these rates. The 40 Mg ha−1 treatment increased macroporosity by 15.3 %, while pore connectivity indices N and Log M rose by 34.2 % and 18.3 %, respectively. Available water improved by 9.1 %, and air permeability increased by 63.3 %, 45.0 %, 20.7 %, and 43.3 % at matric potentials of −6, −10, −33, and −100 kPa, respectively. Saturated hydraulic conductivity also increased by 18 % with the highest dose. These findings demonstrate the potential of cashew residue biochar to enhance the physical quality of cohesive soils, supporting more efficient soil management and sustainable agriculture. Applications between 20 and 40 Mg ha−1 are recommended to optimize improvements in soil physical properties.
AbstractList Soil physical quality is essential for agricultural productivity and environmental sustainability. Cohesive horizons often present high bulk density and low macroporosity, limiting water flow and aeration. This study evaluated the application of biochar derived from cashew residue as a conditioner to improve the physical quality of cohesive soils. We hypothesized that cashew residue biochar enhances soil (macro) porosity, pore connectivity, water retention, and water and airflow in cohesive horizons. The experiment was conducted with five biochar application rates (0, 5, 10, 20, and 40 Mg ha−1) in a randomized design, using disturbed soil samples manually packed into cylinders to ensure consistent bulk density. We analyzed the soil-water retention curve (SWRC), pore size distribution curve (PSDC), air permeability, pore continuity indices, and saturated hydraulic conductivity. Results demonstrated significant improvements in soil structure and pore functionality at higher biochar doses (20–40 Mg ha−1), despite the pore-blocking effect observed at these rates. The 40 Mg ha−1 treatment increased macroporosity by 15.3 %, while pore connectivity indices N and Log M rose by 34.2 % and 18.3 %, respectively. Available water improved by 9.1 %, and air permeability increased by 63.3 %, 45.0 %, 20.7 %, and 43.3 % at matric potentials of −6, −10, −33, and −100 kPa, respectively. Saturated hydraulic conductivity also increased by 18 % with the highest dose. These findings demonstrate the potential of cashew residue biochar to enhance the physical quality of cohesive soils, supporting more efficient soil management and sustainable agriculture. Applications between 20 and 40 Mg ha−1 are recommended to optimize improvements in soil physical properties.
ArticleNumber e00979
Author Ferreira, Odair Pastor
Queiroz, Alexandre dos Santos
Costa, Mirian Cristina Gomes
de Souza Filho, Antônio Gomes
Mota, Jaedson Cláudio Anunciato
Pereira, Arthur Prudêncio de Araujo
do Nascimento, Ícaro Vasconcelos
dos Santos, Emanuela Barbosa
Fregolente, Laís Gomes
da Silva, Francisca Gleiciane
Sousa, Helon Hébano de Freitas
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  givenname: Jaedson Cláudio Anunciato
  surname: Mota
  fullname: Mota, Jaedson Cláudio Anunciato
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
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  givenname: Emanuela Barbosa
  surname: dos Santos
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  givenname: Alexandre dos Santos
  surname: Queiroz
  fullname: Queiroz, Alexandre dos Santos
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
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  givenname: Odair Pastor
  surname: Ferreira
  fullname: Ferreira, Odair Pastor
  organization: State University of Londrina (UEL), Department of Chemistry, Highway Celso Garcia Cid - km 380, 86050-482 Londrina, PR, Brazil
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  givenname: Antônio Gomes
  surname: de Souza Filho
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  givenname: Laís Gomes
  surname: Fregolente
  fullname: Fregolente, Laís Gomes
  organization: Federal University of Ceará (UFC), Department of Physics, Campus do Pici, 60455-900 Fortaleza, CE, Brazil
– sequence: 7
  givenname: Francisca Gleiciane
  surname: da Silva
  fullname: da Silva, Francisca Gleiciane
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
– sequence: 8
  givenname: Arthur Prudêncio de Araujo
  surname: Pereira
  fullname: Pereira, Arthur Prudêncio de Araujo
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
– sequence: 9
  givenname: Helon Hébano de Freitas
  surname: Sousa
  fullname: Sousa, Helon Hébano de Freitas
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
– sequence: 10
  givenname: Mirian Cristina Gomes
  surname: Costa
  fullname: Costa, Mirian Cristina Gomes
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
– sequence: 11
  givenname: Ícaro Vasconcelos
  surname: do Nascimento
  fullname: do Nascimento, Ícaro Vasconcelos
  email: icaro_agro@hotmail.com
  organization: Federal University of Ceará (UFC), Soil Science Department, 2977, Av. Mister Hull, Campus do Pici, 60356-001 Fortaleza, CE, Brazil
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Snippet Soil physical quality is essential for agricultural productivity and environmental sustainability. Cohesive horizons often present high bulk density and low...
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SubjectTerms Soil conditioners
Soil functionality
Soil structure
Title Cashew residue biochar enhances the pore network of cohesive soil in the Brazilian Coastal Tablelands
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