Determination of optimal NH(4) (+)/K (+) concentration and corresponding ratio critical for growth of tobacco seedlings in a hydroponic system

Inherently, ammonium (NH(4) (+)) is critical for plant growth; however, its toxicity suppresses potassium (K(+)) uptake and vice-versa. Hence, attaining a nutritional balance between these two ions (NH(4) (+) and K(+)) becomes imperative for the growth of tobacco seedlings. Therefore, we conducted a 15-day experimental study on tobacco seedlings exposed to different concentrations (47 treatments) of NH(4) (+)/K(+) at different corresponding 12 ratios simultaneously in a hydroponic system. Our study aimed at establishing the optimal NH(4) (+)-K(+) concentration and the corresponding ratio required for optimal growth of different tobacco plant organs during the seedling stage. The controls were the baseline for comparison in this study. Plants with low or excessive NH(4) (+)-K(+) concentration had leaf chlorosis or dark greenish colouration, stunted whole plant part biomass, and thin roots. We found that adequate K(+) supply is a pragmatic way to mitigate NH(4) (+)-induced toxicity in tobacco plants. The optimal growth for tobacco leaf and root was attained at NH(4) (+)-K(+) concentrations 2-2 mM (ratio 1:1), whereas stem growth was optimal at NH(4) (+)-K(+) 1-2 mM (1:2). The study provided an insight into the right combination of NH(4) (+)/K(+) that could mitigate or prevent NH(4) (+) or K(+) stress in the tobacco seedlings.