2018
DOI: 10.4236/as.2018.96053
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Effects of Continuous Vertical Soil Pores on Root and Shoot Growth of Winter Wheat: A Microcosm Study

Abstract: Round shaped, continuous vertical pores (CVPs) in the soil are typically created by roots and earthworms. CVPs with diameters > 2 mm are abundant in many agricultural soils. We hypothesized that potential effects of CVPs on shoot growth of winter wheat (Triticum aestivum L.) increase with: 1) decreasing availability of water and 2) decreasing availability of nutrients in the topsoil. We conducted a microcosm experiment with different irrigation regimes (Irr+/Irr−) and P concentrations (P+/P−), with or without … Show more

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Cited by 4 publications
(5 citation statements)
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References 45 publications
(40 reference statements)
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“…Therefore, the superior supply of the plant with water might also have led to a superior plant nutrient status. Similar to our findings, Volkmar (1996) indicated a positive relationship between a higher soil moisture level and shoot N uptake, and Dresemann et al (2018) between a higher soil moisture level and shoot N and P uptake.…”
Section: Effect Of Subsoil Moisturesupporting
confidence: 91%
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“…Therefore, the superior supply of the plant with water might also have led to a superior plant nutrient status. Similar to our findings, Volkmar (1996) indicated a positive relationship between a higher soil moisture level and shoot N uptake, and Dresemann et al (2018) between a higher soil moisture level and shoot N and P uptake.…”
Section: Effect Of Subsoil Moisturesupporting
confidence: 91%
“…In the present study there was no effect of an increasing biopore density on the aboveground biomass under comparatively dry subsoil conditions (WHC 10% ). However, in a microcosm study using soil columns with or without artificial continuous vertical macropores and varying soil moisture, presence of macropores generally had a positive effect on shoot dry matter and N uptake of wheat, which was especially pronounced under dry conditions (Dresemann et al 2018). Beside, in a simulation approach based on data from field experiments, the impact of different taprooted and fibrous rooted precrops on spring wheat growth, water and nutrient uptake and grain yield under varying weather conditions was investigated (Seidel et al 2019).…”
Section: Effect Of Pore Densitymentioning
confidence: 93%
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“…There are conflicting results regarding the implications of this preferential root growth in macropores for crop performance, both from pot and field experiments: Plain additional artificial macropores in pots with tightly packed soil resulted in smaller leaf area of barley (Passioura 2002). A similar experimental arrangement, but with earthworm incubation into macropores preceding crop cultivation and with a water source in the 70-cm soil depth, resulted in higher shoot dry matter and N uptake of winter wheat (Dresemann et al 2018). In the field on a Red Kandosol in Australia, White and Kirkegaard (2010) found 85-100% of wheat roots in the subsoil clumping in biopores, establishing contact only via root hairs, without access to the surrounding bulk soil.…”
Section: Introductionmentioning
confidence: 99%
“…How these contribute to plant growth is not yet known. The establishment of roots in subsoil biopores early in the growth season may act as an insurance for crops in case the topsoils run dry by an early drought or nutrient demands cannot be met from topsoils (Cresswell & Kirkegaard, 1995; Dresemann et al., 2018). More frequent droughts and rising fertiliser costs are two challenges which agriculture will be facing in future (Cordell & White, 2011).…”
Section: Introductionmentioning
confidence: 99%