Agricultural research communication centre
Nutrient content, uptake and protein
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- Bu səhifədəki naviqasiya:
- Residual soil nutrient status
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Nutrient content, uptake and protein:
Chickpea is valued for its high protein content and has about 16-20% protein in the grain. Since, protein content in grain is directly associated with the nitrogen content, which can be expressed as follows: Protein content (%) = Nitrogen content (%) × 6.25 Hence, increase in the nitrogen content will result in increase in the protein content. Qureshi et al (2009) reported Rhizobium inoculation produced higher grain N and P content in comparison to uninoculated control. Similarly, Erman et al (2011) found that grain as well as shoot N and P content was higher where the chickpea was inoculated with Rhizobium . These findings are in line with those of Yagmur and Kaydan (2011) and Tagore et al (2014) in chickpea. Further, Kaur et al (2015) reported 61.1% and 11.4% greater grain N and P content, respectively in Mesorhizobium inoculated chickpea. Kumar et al (2014) also found significantly higher protein content in Rhizobium inoculated plots in comparison to uninoculated control. Similarly, remarkable improvements in uptake of N and P by both grain and shoot have been observed with Rhizobium inoculation in chickpea. In a field experiment, Sahai and Chandra (2011) found higher N and P uptake in both grain and shoot when chickpea was inoculated with Mesorhizobium sp. in contrast to uninoculated control. This might be due to increased nitrogen fixation (Rokhzadi and Toashih, 2011) as well as improvement in root growth and root behaviour which favourably influence nutrient acquisition (Das et al, 2012). Residual soil nutrient status: Use of Rhizobium inoculants helps in improving available N and P in the soil after crop harvest which can be utilized by the next crop (Abdalla et al, 2013). Similarly, Chandra and Pareek (2015) recorded 0.6%, 6.5% and 4.3% higher organic carbon, available N and available P, respectively, in a Rhizobium inoculated chickpea. These findings are in line with those of Zaidi et al (2003) and Tagore et al (2013). Moreover, higher soil microbial biomass carbon was found in Mesorhizobium inoculated chickpea (Bhattacharjya and Chandra, 2013). These results may be attributed to production of more crop biomass due to inoculation and consequently higher return of organic residues and exudates into the soil enhancing microbial biomass and activities (Babu et al, 2015). The pulse crops residues have lower C:N ratio, as a result of which immobilization after incorporation in the soil is low, Yüklə 302,71 Kb. Dostları ilə paylaş:
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