Can a single dose of biochar affect selected soil physical and chemical characteristics?

Igaz, Dušan; Šimanský, Vladimí­r; Hořák, Jan; Kondrlová, Elena; Domanová, Jana; Rodný, Marek; Buchkina, Natalya

doi:10.2478/johh-2018-0034

Cited by 46 publications

(40 citation statements)

References 39 publications

(58 reference statements)

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“…A range of findings from this experiment, some of which are of interim nature as the experiment is still ongoing, has been published in domestic and international scientific journals and presented at domestic and international scientific events. Our results to date clearly confirm the positive effect of biochar application on soil organic content (SOC) shortly after application [31][32][33][34], which was still detectable 3 years into the experiment [35,36]. The most beneficial effect on SOC was found after the application of 20 t ha -1 of biochar.…”

Section: Published Outputs From the Biochar Experiments In Slovakiasupporting

confidence: 78%

“…The content of water-stable macro-aggregates has increased the most in the soil with 20 t ha -1 of biochar and the higher rate of N, which also resulted in higher aggregate stability and better ability of the soil to withstand crusting [32,33,36,38]. Improved soil structure stability has contributed to the improvement of other physical and hydro-physical soil properties and resulted in decreased soil bulk density, increased soil water content and higher soil water retention capacity [34,43,44].…”

Section: Published Outputs From the Biochar Experiments In Slovakiamentioning

confidence: 99%

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Biochar: An Important Component Ameliorating the Productivity of Intensively Used Soils

Hořák

Šimanský

Igaz

et al. 2020

Pol. J. Environ. Stud.

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One of the reasons for the lack of progress in increasing food production to feed a growing human population is continuous degradation of soil resources in the 21 st century. The production function of arable soils thus clearly plays a critical role in the future of humankind [1]. The concept of soil quality, an important but elusive concept still waiting for a clear definition, is a useful indicator of the capacity of the soil to support crop growth and thus food production. Soil quality has received substantial attention in scientific literature and is often used as a diagnostic tool for monitoring and to inform management of agricultural soils. Agricultural land in 2016 covered about 4.9 billion ha worldwide, corresponding to 37.6% of the total world land area

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Section: Published Outputs From the Biochar Experiments In Slovakiasupporting

confidence: 78%

Section: Published Outputs From the Biochar Experiments In Slovakiamentioning

confidence: 99%

Biochar: An Important Component Ameliorating the Productivity of Intensively Used Soils

Hořák

Šimanský

Igaz

et al. 2020

Pol. J. Environ. Stud.

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“…The model 'GLOBAL' is a mathematical model to enable simulating water movement in soil and calculating the distribution of soil moisture potential, i.e. soil moisture in real time [7][8][9][10][11][12]. The model is based on the numerical solution of a nonlinear partial differential Richards' equation describing water movement in aerated soil zone, which is as follows:…”

Section: Brief Description Of the Model 'Global'mentioning

confidence: 99%

Analysis of Non-Rainfall Periods and Their Impacts on the Soil Water Regime

Gomboš¹,

Kandra²,

Tall³

et al. 2019

Hydrology - The Science of Water

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Rainfall and evaporation belong to the basic components of the hydrological cycle. Rainfalls are a decisive natural source of water in the soil. For water replenishment in the natural environment, it is important not only the sum of the rainfall for the balanced period but also the time distribution. In the case of long non-rainfall periods, the soil profile is dried. In the sufficiently long non-rainfall period, the water reserves in the unsaturated zone of the soil profile change and the actual evapotranspiration is reduced. There is a meteorological and then dry soil formation. For the design of adaptation measures, it is necessary to quantify the mentioned hydrological processes. These were investigated in the central area of the Eastern Slovak Lowland between 1970 and 2015. Significant non-rainfall periods, their periodicity and statistical characteristics have been identified. In the course of significant non-rainfall intervals during the vegetation periods the water reserves in the root layer of the soil were analysed up to a depth of 1 m, the actual and potential evapotranspiration, the evapotranspiration deficit, the groundwater level and the air temperature. The longest non-rainfall periods exceeded 30 days.

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“…Several variants of the field experiment at the locality Dolná Malanta in Nitra region of Slovakia with different doses of biochar and N fertilisers to examine the effect of biochar application on greenhouse gas emissions (Horák et al, 2017), soil water regime (Igaz, Horák and Domanová, 2015) other soil properties (Igaz et al, 2018;Juriga et al, 2018) and crop yields (Kondrlová et al, 2017;Kondrlová, Horák and Igaz, 2018) were established in the experimental area in March 2014. Biochar for this field experiment was produced from the mixture of paper fibre and cereal husks by pyrolysis at 550 °C for 30 min and applied into the top layer of soil (0-10 cm).…”

Section: Field Sitementioning

confidence: 99%

“…Biochar for this field experiment was produced from the mixture of paper fibre and cereal husks by pyrolysis at 550 °C for 30 min and applied into the top layer of soil (0-10 cm). According to Igaz et al (2018) the altitude of the site is 175 m, the soil is classified as Haplic Luvisol and the topsoil contains 249 g.kg -1 of clay, 599 g.kg -1 of silt and 152 g.kg -1 of sand, giving it a silt loam texture. The area of interest was used for agricultural production and research purposes and the whole site was sown by maize (Zea mays L.) during the sampling in 2017.…”

Section: Field Sitementioning

confidence: 99%

Measurement of Volumetric Water Content by Gravimetric and Time Domain Reflectometry Methods at Field Experiment with Biochar and N Fertilizer

Toková

Igaz

Aydın

2019

Acta Horticulturae Et Regiotecturae

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There are many methods used for soil water content measurement which we can divide into direct gravimetric methods from using soil samples or indirect methods that are based on the measurement of another soil property which is dependent on soil moisture. The paper presents the findings of volumetric water content measurements with gravimetric and time domain reflectometry (TDR) methods. We focused on four variants in the field experiment in Dolná Malanta (Slovakia): control variant (B0+N0), variant with biochar at dose 20 t.ha−1 without N fertilizer (B20+N0), variant with biochar 20 t.ha−1 and N fertilizer 160 kg.ha−1 (B20+N160) and variant with biochar 20 t.ha−1 and N fertilizer 240 kg.ha−1 (B20+N240). TDR is nowadays a well-established dielectric technique to measure volumetric water content; however, its accuracy is influenced by high concentration of salts in soil. In this paper, we evaluated the effect of added N fertilizer on the measuring accuracy of HydroSense II device that is operating under the TDR principle.

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Can a single dose of biochar affect selected soil physical and chemical characteristics?

Cited by 46 publications

References 39 publications

Biochar: An Important Component Ameliorating the Productivity of Intensively Used Soils

Biochar: An Important Component Ameliorating the Productivity of Intensively Used Soils

Analysis of Non-Rainfall Periods and Their Impacts on the Soil Water Regime

Measurement of Volumetric Water Content by Gravimetric and Time Domain Reflectometry Methods at Field Experiment with Biochar and N Fertilizer

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