C. Li scite author profile

C. Li

2Publications

33Citation Statements Received

16Citation Statements Given

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University of Georgia

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Effects of tillage on soil physical properties and root growth of maize in loam and clay in central China

Ji¹,

Zhao²,

Mu³

et al. 2013

Plant Soil Environ.

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Subsoil compaction can result in unfavourable soil physical conditions and hinder the root growth of maize. The effects of deep tillage and conventional tillage on soil physical properties and root growth of maize were studied during 2010-2011 at two sites (loam at Hebi and clay at Luohe) in central China. The results showed that soil penetration resistance, bulk density, water content and root length density were significantly affected by tillage, soil depth and year. Deep tillage had lower penetration resistance and lower soil bulk density, but higher soil water content than conventional tillage across years and depths. Averaged over the whole soil profile, deep tillage not only significantly decreased penetration resistance and soil bulk density, but significantly increased soil water content and root length density on loam, while deep tillage only significantly increased the root length density on clay. We conclude that deep tillage on the loam is more suitable for the root growth of summer maize.Keywords: soil compaction; penetration resistance; deep tillage; conventional tillage; root length density B. Ji and Y. Zhao contributed equally to this work. Environ. Vol. 59, 2013, No. 7: 295-302 296 ers to solve the soil compaction by deep tillage. However, there is little information about the effects of deep moldboard tillage on soil properties and root growth in different soil types. Therefore, a two-site study was conducted at two typical and representational soil types in central China. The objectives of this study were to investigate the effects of tillage depth on soil physical properties and root length density of summer maize at two soil types in central China. Plant Soil MATERIAL AND METHODSStudy sites and soil properties. Two field experiments were conducted during 2010-2011 at Hebi (35°67'N, 114°98'E) and Luohe (33°57'N, 113°98'E) in the central China. Both sites have a continental monsoon type climate. The data on solar radiation and temperature during the study period were collected from an adjacent weather station and are presented in Figure 1. There are winter wheat-summer maize rotation at Hebi and Luohe. For several decades, soil tillage is conducted after the harvest of maize and before the winter wheat sowing. Soil tillage is always conventional shallow tillage (20 cm depth) with moldboard plough, followed by a disk harrow for seedbed preparation. Summer maize is sowed under notillage condition. The two year experiments were conducted on the same site with the same plots. Soil basal samples were collected at the beginning of experiment. The main physical and chemical properties of soils in the two study sites are presented in Table 1.Experiment design and crop cultivation. The experiment was designed as a complete randomization with three replications. Soil tillage was conducted before the winter wheat sowing. Conventional tillage (CT) was moldboard plowed to a depth of 20 cm, deep tillage (DT) was moldboard plowed to a depth of 30 cm, followed by a disk harrow for seedbed preparat...

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On-farm evaluation of planter downforce in varying soil textures within grower fields

Virk

Porter

et al. 2020

Precision Agric

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C. Li

Effects of tillage on soil physical properties and root growth of maize in loam and clay in central China

On-farm evaluation of planter downforce in varying soil textures within grower fields

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