Abstract
Root system in canola (Brassica napus L.) varies largely in different growth habit types. A study was conducted with five winter and five spring types of canola germplasm. The objective was to identify the gradual change of root traits at different growth habits stages under controlled and water stressed conditions. Two experiments, controlled and water stressed, were conducted in a greenhouse. Data on different root traits were collected at 30, 40, 50 and 60 days after planting. In controlled experiment, no significant difference was observed for root traits between winter and spring types at 30 days after planting. However, significant variations were appeared for taproot length (F = 10.17***) and root dry weight (F = 16.96***) between winter and spring types at 40 days after planting. All other root parameters such as basal taproot diameter (F = 22.14***), bottom taproot diameter (F = 4.59*), primary root branches (F = 78.70***) and root vigor (F = 47.18***) were significantly higher in the winter types compared to those of the spring types at 60 days after planting. Growth pattern curves indicated that all the root traits of spring types increased in a steady fashion, where the root traits of winter types increased rapidly after 40 days of planting. In water stressed experiment, the water stress was applied from 20 to 60 days after planting, and data was taken at 60 days after planting. All the root parameters except taproot length were significantly (P < 0.001) lower in the stressed spring and winter plants compared to the control plants. The root growth reduction in stressed winter type germplasms was higher. Basal taproot diameter, bottom taproot diameter, primary root branches, root vigor, and root dry weight were decreased by 43%, 63%, 19%, 31% and 53%, respectively in stressed winter type plants. In contrast, the root growth reduction of the spring type germplasms were relatively lower. This study indicated that winter type canola generates vigorous root system in comparison to spring types under normal growing conditions, but ceases its root growth rate more than the spring types under water stressed conditions.
Highlights
Root system plays the major role that provides great anchorage and support to the plant, and allows of mining water and nutrient from the soil
Seed yield is positively correlated with longer root system in rice (Steele et al, 2013), canola
The growing media was supplemented with 10g/pot Osmocote® slow-release fertilizer (Scott’s Company LLC, Marysville, OH, USA)
Summary
Root system plays the major role that provides great anchorage and support to the plant, and allows of mining water and nutrient from the soil. Deep and vigorous root system can facilitate higher moisture and nutrient acquisition from the soil, which can increase the yield largely (Marschner, 1998). Less vigorous and shallow root system can uptake less amount of moisture and nutrients, which might end up with reduced yield and biomass production. Shallow root system cannot uptake moisture from deeper soil, and become vulnerable in drought prone soil. Maize root system exhibits root growth variation under low phosphorus (P) level in soil and the genotypes having higher lateral root growth were able to uptake more P and maintained good crop stand (Zhu & Lynch, 2004). Seed yield is positively correlated with longer root system in rice (Steele et al, 2013), canola (M. Rahman & McClean, 2013), soybean (Brown & Scott, 1984) and maize (Mackay & Barber, 1986; Hochholdinger et al, 2008)
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