Changes in Soil Properties and Productivity under Different Tillage Practices and Wheat Genotypes: A Short-Term Study in Iran

Khorami, Shokoofeh Sarikhani; Kazemeini, Seyed Abdolreza; Afzalinia, S.; Gathala, Mahesh K.

doi:10.3390/su10093273

Cited by 53 publications

(44 citation statements)

References 80 publications

(122 reference statements)

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“…This could be related to the overall beneficial effect of no-tillage over reduced tillage on soil components (especially, for N-NO 3 − and P), saturation time and water infiltration. These observations are in agreement with other studies that have reported significant increases in soil N or water content under no-tillage [4,7,9,10]. Some modifications of soil properties might be associated not merely with the reduced breakdown of macro-aggregates but also with the slower decomposition of crop residues when no-tillage is practiced [6,9,66].…”

Section: Minimum Tillage Versus No-tillagesupporting

confidence: 92%

“…Some studies have reported a positive effect of no-tillage [7,12,67], whereas others have found negative effects [9,68] or no significant differences between both systems [69,70]. It must be noted that only the studies of Khorami et al [9] and Carr et al [70] were based on the analysis of more than one genotype (4 and 5, respectively) in different environments. Comparison of the mean GW values obtained for each variety under minimum tillage and no-tillage reveals different trends among the genotypes tested in the present study ( Figure 5).…”

Section: Minimum Tillage Versus No-tillagementioning

confidence: 99%

“…Therefore, not only the specific varieties analysed but also the different climatic conditions that affected the field trials conducted might well explain such disparate conclusions. reduced breakdown of macro-aggregates but also with the slower decomposition of crop residues when no-tillage is practiced [6,9,66]. Earlier results on the differential effects of conservation tillage practices on wheat yield are quite controversial.…”

Section: Minimum Tillage Versus No-tillagementioning

confidence: 99%

See 2 more Smart Citations

Yield and Quality Performance of Traditional and Improved Bread and Durum Wheat Varieties under Two Conservation Tillage Systems

Ruíz¹,

Zambrana²,

Fité³

et al. 2019

Sustainability

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The increasing spread of conservation agriculture demands that the next generation of wheat varieties includes cultivars capable of maintaining satisfactory yields with lower inputs and under uncertain climate scenarios. On the basis of the genetic gains achieved during decades of selection oriented to yield improvements under conventional crop management, it is important that novel breeding targets are defined and addressed. Grain yield, yield-related traits, and phenological and morphological characteristics, as well as functional quality parameters have been analyzed for six varieties each of bread and durum wheat, under minimum tillage and no-tillage. During the three-year experiment, the climatic conditions at the field trial site were characterized by low rainfall, although different degrees of aridity—from moderate to severe—were experienced. Differences were found between these two soil management practices in regard to the varieties’ yield stability. A positive influence of no-tillage on traits related to grain and biomass yield was also evidenced, and some traits among the examined seemed involved in varietal adaptation to a particular non-conventional tillage system. The study also confirmed some breeding targets for improved performance of wheat genotypes in conservation agroecosystems. These traits were represented in the small set of traditional varieties analysed.

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Section: Minimum Tillage Versus No-tillagesupporting

confidence: 92%

Section: Minimum Tillage Versus No-tillagementioning

confidence: 99%

Section: Minimum Tillage Versus No-tillagementioning

confidence: 99%

See 1 more Smart Citation

Yield and Quality Performance of Traditional and Improved Bread and Durum Wheat Varieties under Two Conservation Tillage Systems

Ruíz¹,

Zambrana²,

Fité³

et al. 2019

Sustainability

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show abstract

“…Moraru and Rusu (2012) examined the influence of CT, RT, and sowing with no-tillage (NT) and suggest that differences in wheat yield with these systems are nonsignificant. Khorami et al (2018) examined the effects of CT and RT and sowing with NT on several wheat genotypes and concluded that the highest yields were achieved in the RT system, followed by the CT system, while the lowest yields occurred in the NT system.…”

Section: Introductionmentioning

confidence: 99%

Influence of soil tillage system on soil compaction and winter wheat yield

Biberdžic¹,

Barać²,

Lalević³

et al. 2020

Chil. j. agric. res.

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Tillage systems can affect soil compaction, water content, soil temperature, and yields of cultivated plants. This work examined a Vertisol and the influence of the tillage system on soil compaction and yield of winter wheat (Triticum aestivum L.) grains. The trial was conducted in the vicinity of Požega, Western Serbia, from 2014 to 2017. Four tillage systems (conventional tillage, reduced tillage, disc harrowing, and no-tillage) were applied in the experiment. Tillage systems have significantly influenced soil compaction, measurement time, and soil depth.

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“…Long-term reduced tillage or no-tillage farming often lead to increased soil compaction, which results in increased soil bulk density and reduced soil porosity and impedes root penetration [20][21][22]. For example, Khorami et al [23] found that no-tillage had higher soil bulk density at surface soil, thereby lowering cumulative water infiltration compared with CT practice. In the study region, CT operations are usually carried out before sugarcane planting and result in improved crop yield.…”

Section: Introductionmentioning

confidence: 99%

Effect of Deep Vertical Rotary Tillage on Soil Properties and Sugarcane Biomass in Rainfed Dry-Land Regions of Southern China

BenHui

et al. 2020

Sustainability

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Conventional tillage (CT) is the main agricultural practice for rainfed sugarcane production in China. However, subsoil compaction formed by long-term CT is harmful to soil properties and crop yield. Deep vertical rotary tillage (DVRT) is a novel tillage practice, which can alleviate subsoil compaction and create a more favorable soil environment for crop growth. This study aims to compare the effects of DVRT and CT practices on soil properties and sugarcane characteristics. The results showed that DVRT reduced soil bulk density and increased soil porosity to some extent in the 0–40 cm soil profile. Soil water storage of DVRT was relatively higher compared with CT due to the combined effects of soil water holding capacity and vegetation water consumption. There was significantly higher final aboveground biomass, underground biomass, and plant height from DVRT compared to CT (p < 0.05), but there were no differences in final root length between tillage practices. Compared with CT, DVRT with one and two growth-years significantly increased aboveground biomass by 68.90% and 50.14%, respectively. Generally, the soil properties and sugarcane characteristics were not significantly different between DVRT with different growth years. DVRT is recommended as a tillage practice for sustainable agriculture in rainfed regions.

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Changes in Soil Properties and Productivity under Different Tillage Practices and Wheat Genotypes: A Short-Term Study in Iran

Cited by 53 publications

References 80 publications

Yield and Quality Performance of Traditional and Improved Bread and Durum Wheat Varieties under Two Conservation Tillage Systems

Yield and Quality Performance of Traditional and Improved Bread and Durum Wheat Varieties under Two Conservation Tillage Systems

Influence of soil tillage system on soil compaction and winter wheat yield

Effect of Deep Vertical Rotary Tillage on Soil Properties and Sugarcane Biomass in Rainfed Dry-Land Regions of Southern China

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