Abstract
Nitrogen is one of the most influencing inorganic nutrients for improved plant growth and yield in crops. However, excessive fertilizer application may have adverse impacts on the environment. Therefore, we strive to investigate in this work by examining the impact of different nitrogen (N) doses in the form of urea (46% N) on the growth, yield, photosynthetic pigment content, nitrate reductase activity, carbohydrate content, protein content, and antioxidant enzyme activity of the carrot and beetroot. A pot experiment was conducted under natural conditions with four nitrogen levels as basal treatment (Control = Nil N, U50 = 145.57 mg/kg N; U100 = 291.14 mg/kg N; U150 = 436.71 mg/kg N; U200 = 582.28 mg/kg N). Results found that U150 (436.71 mg/kg N) is the optimum N fertilizer dose at which significant (p ≤ 0.05) improvements in all the growth, yield and biochemical attributes of carrot and beetroot were observed. However, the further increment in N doses did not affect the observed parameters and, therefore, excessive N level was observed beyond U150 = 436.71 mg/kg N. The principal component analysis presented significant correlations among the various parameters observed. Two principal components account for a total of 98.86% variance (PC1 = 92.96%; PC2 = 5.90%) in carrot and 99.2% variance (PC1 = 92.64; PC = 6.56) in beetroot of the overall data variability in plants supplemented with different N treatments.
Highlights
Rising demand for food, the requirement of eco-friendly agriculture and future risks due to climate change are all connected with the urgent need to adopt suitable fertilizer management strategies in crop ecosystems [1,2,3]
Application of N fertilizer as a basal dose caused a significant enhancement in all the growth markers and yield attributes of carrot and beetroot
The yield of carrot and beetroot was markedly increased in terms of root length (61.40% and 73.5%) root fresh (19.27% and 12.72%), root dry weight
Summary
Rising demand for food, the requirement of eco-friendly agriculture and future risks due to climate change are all connected with the urgent need to adopt suitable fertilizer management strategies in crop ecosystems [1,2,3]. Nitrogen (N), classified as a primary macronutrient, plays an important role in improving the quantity and quality of crops [4,5]. Due to the urge of food demand, farmers have amplified the application of N fertilizers to their fields year by year without taking into consideration the response of various species to N rate and forms. The application of N fertilizer significantly contributed to the doubling of agricultural food production up to the 1990s [6]. N works as a signaling element that influences the expression of various genes, regulates various biochemical pathways, including photosynthesis, nitrogen assimilation, antioxidant systems and the cell cycle, etc. Extreme and inappropriate use of chemical N fertilizers results in the accumulation of compounds in edible crops
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
