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Field application of pelletized biochar: Short term effect on the hydrological properties of a silty clay loam soil

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  • Andrenelli, M.C.
  • Maienza, A.
  • Genesio, L.
  • Miglietta, F.
  • Pellegrini, S.
  • Vaccari, F.P.
  • Vignozzi, N.

Abstract

The field application of pelletized biochar is seldom employed and its effect on soil hydrological behavior scarcely investigated. Biochar is usually added in powdered or granular form to improve the homogeneity of distribution, meanwhile favoring its interaction with soil matrix. In this paper we evaluated the possibility of applying pelletized biochar as soil conditioner during a single cropping season of a tomato cultivation. For that purpose, the water retention curves (WRCs) were determined three months after the addition of two differently pyrolysed biochars (B1 and B2), at the rate of 14Mgha−1, to a silty clay loam soil prone to compaction. Starting from the WRCs the pore size distribution was determined. The gravimetric water content at both field capacity (FC) and wilting point (WP) was also measured on biochar samples to assess their available water capacity (AWC).

Suggested Citation

  • Andrenelli, M.C. & Maienza, A. & Genesio, L. & Miglietta, F. & Pellegrini, S. & Vaccari, F.P. & Vignozzi, N., 2016. "Field application of pelletized biochar: Short term effect on the hydrological properties of a silty clay loam soil," Agricultural Water Management, Elsevier, vol. 163(C), pages 190-196.
    • Handle: RePEc:eee:agiwat:v:163:y:2016:i:c:p:190-196
    DOI: 10.1016/j.agwat.2015.09.017
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    Cited by:

    1. Yanan Xiao & Shihong Yang & Junzeng Xu & Jie Ding & Xiao Sun & Zewei Jiang, 2018. "Effect of Biochar Amendment on Methane Emissions from Paddy Field under Water-Saving Irrigation," Sustainability, MDPI, vol. 10(5), pages 1-13, April.
    2. Günal, Elif & Erdem, Halil & Çelik, İsmail, 2018. "Effects of three different biochars amendment on water retention of silty loam and loamy soils," Agricultural Water Management, Elsevier, vol. 208(C), pages 232-244.
    3. Jovanovic, N. & Pereira, L.S. & Paredes, P. & Pôças, I. & Cantore, V. & Todorovic, M., 2020. "A review of strategies, methods and technologies to reduce non-beneficial consumptive water use on farms considering the FAO56 methods," Agricultural Water Management, Elsevier, vol. 239(C).
    4. Li, Yi & Yao, Ning & Liang, Jiaping & Wang, Xiaofang & Niu, Ben & Jia, Yonglin & Jiang, Fuchang & Yu, Qiang & Liu, De Li & Feng, Hao & He, Hailong & Yang, Guang & Pulatov, Alim, 2023. "Rational biochar application rate for cotton nutrient content, growth, yields, productivity, and economic benefits under film-mulched trickle irrigation," Agricultural Water Management, Elsevier, vol. 276(C).
    5. Hana Hlaváčiková & Viliam Novák & Koji Kameyama & Katarína Brezianska & Marek Rodný & Justína Vitková, 2019. "Two types of biochars: one made from sugarcane bagasse, other one produced from paper fiber sludge and grain husks and their effects on water retention of a clay, a loamy soil and a silica sand," Soil and Water Research, Czech Academy of Agricultural Sciences, vol. 14(2), pages 67-75.
    6. Polina Kuryntseva & Kamalya Karamova & Polina Galitskaya & Svetlana Selivanovskaya & Gennady Evtugyn, 2023. "Biochar Functions in Soil Depending on Feedstock and Pyrolyzation Properties with Particular Emphasis on Biological Properties," Agriculture, MDPI, vol. 13(10), pages 1-39, October.
    7. Anita Maienza & Lorenzo Genesio & Marco Acciai & Franco Miglietta & Emanuela Pusceddu & Francesco Primo Vaccari, 2017. "Impact of Biochar Formulation on the Release of Particulate Matter and on Short-Term Agronomic Performance," Sustainability, MDPI, vol. 9(7), pages 1-10, June.

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