Influence of different tillage systems on soil physical properties and crop yield

Husnjak, Stjepan; Filipović, Davor; Košutić, S.

doi:10.17221/4236-pse

Cited by 41 publications

(39 citation statements)

References 14 publications

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“…Soil bulk density was higher under MT (1.35g cm -3 ) than that of TT (1.33g cm -3 ), field capacity was higher in TT (27.12%) compared to MT (24.5%). These findings are in agreement with the studies of Husnjak et al (2002). It is fact that the particle density not altered easily by normal physical manipulation of soil.…”

Section: Soil Physical Propertiessupporting

confidence: 92%

Effect of Tillage Practices and Rice Straw Management on Soil Environment and Carbon Dioxide Emission

et al. 2017

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Carbon (C) inputs and tillage intensity impinge on C degradation and thus CO 2 emission and soil properties get influenced. Information on CO 2 emission and soil properties under different tillage practices and straw application in rice based cropping system in Bangladesh is lacking. The effects of rice straw and tillage operations on CO 2 emission and soil properties were quantified in four consecutive seasons of transplanted Aman and Boro rice grown under two tillage operations (minimum and traditional) and three levels of rice straw (control, incorporation and mulch) during 2010 to 2012. Irrespective of tillage practices, CO 2 emission peak reached after 3-4 weeks of straw application. Carbon dioxide emission ranged from 26 to 59 kg ha -1 day -1 under minimum tillage and 25 to 96 kg ha -1 day -1 under traditional tillage. Minimum tillage accumulated more C in soil, which could be attributed to lower rates of emission and straw degradation. Carbon degradation rate constants, k were 0.000300 and 0.000394 (day -1 ) under minimum and traditional tillage, respectively. Small increment in soil C might help reducing CO 2 in the atmosphere. Mineralization of straw increased nutrient contents and thereby improved the soil fertility and availability to the crops for nutrients' uptake. Traditional tillage significantly reduced soil bulk density and increased field capacity of the soil, whereas in addition, rice straw application furthermore increased permanent wilting point and available water content in the soil. The present study may help in identifying suitable tillage and residue management options in reducing CO 2 emission from rice fields.

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Section: Soil Physical Propertiessupporting

confidence: 92%

Effect of Tillage Practices and Rice Straw Management on Soil Environment and Carbon Dioxide Emission

et al. 2017

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“…Conventional ploughing-based tillage systems are still dominant (Rusu, 2005). However, alternative tillage systems are becoming economically and ecologically more attractive as they save energy and provide more favourable soil conditions (Husnjak et al, 2002). Arable soils under a long-term regime of frequent tillage usually suffer from losses in organic matter, increased nitrification, and deteriorated soil structure, thus reducing agricultural sustainability (Calderón et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

Which soil tillage is better in terms of the soil organic matter and soil structure changes?

Šimanský

Polláková

Jończak

et al. 2016

JCEA

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This study was performed to evaluate effects of minimum (MT) and conventional tillage (CT) on soil organic matter and soil structure in haplic Chernozems and mollic Fluvisols. The content of soil organic carbon (C org ) as well as parameters of stability and vulnerability of soil structure were quantified. The results showed that soil type had statistically significant influence on C org . In haplic Chernozems the C org content near the surface (0-0.1 m) was significantly higher under MT (by 6%) compared to CT, however, in layer 0-0.3 m under CT the average C org content was by 16% higher than under MT. In mollic Fulvisols under MT, the average C org content (17.5 ± 5.4 g*kg -1 ) was significantly less for the 0-0.3 m layer than the CT (22.7 ± 0.4 g*kg -1). In Chernozems, total content of water-stable micro-aggregates (WSA mi ) was higher in MT (90.8%) than in CT (69.5%). In mollic Fluvisols, the average content of WSA mi was higher in CT (62.5%) than in MT (53.2%). The low aggregate stability and the high structure vulnerability were reflected also due to the high contents of WSA mi in both soils. The stability of aggregates was a higher in mollic Fluvisols than in haplic Chernozems. In haplic Chernozems, better soil structure stability was under CT than MT, on the other hand, in mollic Fluvisols, the average value of coefficient of aggregate stability was lower by 32% in CT than MT. Kľúčové slová: černozem, čiernica, pôdny organický uhlík, spôsoby obrábania, zraniteľnosť a stabilita štruktúry pôdy

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“…Within the conservation tillage treatments, ST produced more aeration porosity than NT, but the effect on capillary porosity appeared to be reversed in the 0-0.30 m soil layer. Husnjak and Kosutic (2002) reported that higher BD reduced the total porosity and changed the ratio of water holding capacity to air capacity in favour of water holding capacity. Total porosity below 45% on medium heavy soils had a negative effect on the plant growth (Lhotsky, 1991 …”

Section: Soil Porositymentioning

confidence: 99%

An Appraisal of Conservation Tillage on the Soil Properties and C Sequestration

Abrol¹,

Sharma²

2012

Resource Management for Sustainable Agriculture

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Influence of different tillage systems on soil physical properties and crop yield

Cited by 41 publications

References 14 publications

Effect of Tillage Practices and Rice Straw Management on Soil Environment and Carbon Dioxide Emission

Effect of Tillage Practices and Rice Straw Management on Soil Environment and Carbon Dioxide Emission

Which soil tillage is better in terms of the soil organic matter and soil structure changes?

An Appraisal of Conservation Tillage on the Soil Properties and C Sequestration

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