Author:
B LOHITHA ,PRASHANT KUMAR RAI ,SHIVAM KUMAR RAI
Abstract
Harnessing the potential of smoke water treatments, derived from plant combustion, this study delves into their impact on various growth and physiological parameters of linseed plants. Through a randomized controlled trial featuring 13 treatments along with control, we meticulously evaluated different concentrations and durations of smoke water application. Linseed seeds were meticulously sown under controlled conditions, enabling the comprehensive assessment of field emergence, plant height, flowering duration, branching patterns, chlorophyll content, seed yield, oil content, and protein content. Notably, Treatment 2 (1% smoke water for 16 hours) emerged as a frontrunner, showcasing superior performance across multiple parameters, including accelerated growth, enhanced flowering, increased branching, improved chlorophyll content, and higher seed yield and oil content. These findings underscore the promising role of smoke water as an environmentally sustainable and effective agricultural intervention to augment crop productivity and quality in linseed cultivation. Further research endeavors are warranted to delve deeper into the underlying mechanisms and refine application protocols, thereby unlocking the full potential of smoke water treatments in modern agricultural practices.
Publisher
Indian Society of Oilseeds Research
Reference19 articles.
1. Abou El-Nour H H 2021. Effects of smoke water on seeds germination, seedling growth of some vegetables and green yield productivity of Phaseolus vulgaris. Al-Azhar Journal of Agricultural Research.
2. Akhtar K, Aslam M M, Jamil M and Rehman S U 2017. Effect of plant-derived smoke priming on physiological and biochemical characteristics of rice under salt stress condition. Australian Journal of Crop Science, 8(2): 159-170.
3. Aslam M M, Jamil M, Khatoon A, Hendawy S E, AL-Suhaibani N A, Malook I and Rehman S U 2017. Physiological and biochemical responses of maize (Zea mays L.) to plant-derived smoke solution. Pakistan Journal of Botany, 49(2): 435-443.
4. Chumpookam J, Lin H L and Shiesh C C 2012. Effect of smoke-water on seed germination and seedling growth of Papaya (Carica papaya cv. Tainung No. 2). Horticultural Science, 47(6): 741-744.
5. De Lange J H and Boucher C 1990. Autecological studies on Audouinia capitata (Bruniaceae). I. Plant-derived smoke as a seed germination cue. South African Journal of Botany, 56: 700-703.