The nasal dominance (ND) determination is crucial for nasal synchronized ventilator, optimum nasal drug delivery, identifying brain hemispheric dominance, nasal airway obstruction surgery, mindfulness breathing, and for possible markers of a conscious state. Given these wider applications of ND, it is interesting to understand the patterns of ND with varying temperature and respiration rates. In this paper, we propose a method which measures peak-to peak temperature oscillations (difference between end-expiratory and end-inspiratory temperature) for the left and right nostrils during nasal breathing. These nostril-specific temperature oscillations are further used to calculate the nasal dominance index, nasal laterality ratio, inter-nostril correlation, and mean of peak-to-peak temperature oscillation for inspiratory and expiratory phase at - 1) different ambient temperatures of 18°C, 28°C, and 38°C and 2) at three different respiration rate of 6 bpm, 12 bpm, and 18 bpm. The peak-to-peak temperature (Tpp) oscillation range (averaged across participants; n = 8) for the left and right nostril were 3.80±0.57°C and 2.34±0.61°C, 2.03±0.20°C and 1.40±0.26°C, and 0.20±0.02°C and 0.29±0.03°C at the ambient temperature of 18°C, 28°C, and 38°C respectively (averaged across participants and respiration rates). The nasal dominance index (NDI) and nasal laterality ratio (NLR) averaged across participants and three different respiration rates were 35.67±5.53 and 2.03±1.12; 8.36±10.61 and 2.49±3.69; and -25.04±14.50 and 0.82±0.54 at the ambient temperature of 18°C, 28°C, and 38°C respectively. The Shapiro–Wilk test, and non-parametric Friedman test showed a significant effect of ambient temperature conditions on both NDI and NLR. No significant effect of respiration rate condition was observed on both NDI and NLR. The findings of the proposed study indicate the importance of ambient temperature while determining nasal dominance during the diagnosis of breathing disorders such as septum deviation, nasal polyps, nosebleeds, rhinitis, and nasal fractions, and in the Intensive Care Unit (ICU) for nasal synchronized ventilator.