Nutrients in finger millet and soil at different elevation gradients in Central Nepal

Abstract: Background Finger millet, a subsistence food crop, is a unique cereal with high nutritional quality particularly in hilly regions in Nepal. Hence, grain nutrients (protein, calcium, and iron percent) of ten different landraces of finger millet and soil quality (SOC, N, P and K) at different altitudes in central Nepal were analyzed. Methods Triplicate finger millet grain samples were collected from ten local landraces cultivated in randomized comple… Show more

“…Also, the available phosphorus content of T3 (1300-2846m) soil ranged from 5.287 to 108.67 kg/ha with an average value of 44.8kg/ha. The result was consistent with the findings of who reported the higher available phosphorus in higher altitudes compared to a lower altitude (Luitel et al, 2020). The higher available soil phosphorus content at higher elevations might be due to the inherent higher phosphorus level of soil at higher altitudes (Kidanemariam et al, 2012).…”

“…It might be due to the confinement of crop cultivation to the rhizosphere and supplementing the depleted P by external sources i.e., fertilizers and presence of free iron oxide and exchangeable Al3+ in smaller amounts (Singh and Mishra, 1996). The lower phosphorus content in sub-surface horizons in these profiles could be attributed to the fixation of P by clay minerals and oxides of iron and aluminum (Luitel et al, 2020).…”

“…The trend of higher potassium content at a higher elevation was supported (Luitel et al, 2020). It might be due to the higher addition of manures as K predominately occurs as soluble inorganic K from inorganic wastes and in animal wastes, potassium content was found to be around 0.22% of dry matter (Havlin et al, 2016).…”

Analytical Study on Soil Fertility Status Along With Elevation Gradient and Depth of Chitwan–mustang Track, Nepal

“…Also, the available phosphorus content of T3 (1300-2846m) soil ranged from 5.287 to 108.67 kg/ha with an average value of 44.8kg/ha. The result was consistent with the findings of who reported the higher available phosphorus in higher altitudes compared to a lower altitude (Luitel et al, 2020). The higher available soil phosphorus content at higher elevations might be due to the inherent higher phosphorus level of soil at higher altitudes (Kidanemariam et al, 2012).…”

“…It might be due to the confinement of crop cultivation to the rhizosphere and supplementing the depleted P by external sources i.e., fertilizers and presence of free iron oxide and exchangeable Al3+ in smaller amounts (Singh and Mishra, 1996). The lower phosphorus content in sub-surface horizons in these profiles could be attributed to the fixation of P by clay minerals and oxides of iron and aluminum (Luitel et al, 2020).…”

“…The trend of higher potassium content at a higher elevation was supported (Luitel et al, 2020). It might be due to the higher addition of manures as K predominately occurs as soluble inorganic K from inorganic wastes and in animal wastes, potassium content was found to be around 0.22% of dry matter (Havlin et al, 2016).…”

Analytical Study on Soil Fertility Status Along With Elevation Gradient and Depth of Chitwan–mustang Track, Nepal

“…It also contains various phytoconstituents such as naringenin, catechin, luteolin, diadzein, epicatechin, apigenin, kaempferol and phloroglucinol which are responsible for various pharmacological activities. 57,58 Phytochemical structures…”

Phyto-Pharmacological Importance with Nutritional Potential of Eleusine coracana Linn.: A Review

Dung Beetle Improves soil Bacterial Diversity and Enzyme Activity and Enhances Growth and Antioxidant Content of Chinese Cabbage (Brassica rapa ssp. pekinensis)