TY - BOOK AU - Anjusha P AU - Viji M M (Guide) TI - Physiological and molecular studies in mitigating drought stress of Tomato (Solanum lycopersicum) by biochar with organic amendments U1 - 660.6 PY - 2022/// CY - Vellayani PB - Department of Plant Biotechnology, College of Agriculture KW - Plant Biotechnology N1 - BSc - MSc (Int.) N2 - The study entitled “Physiological and molecular studies in mitigating drought stress of tomato (Solanum lycopersicum) by biochar with organic amendments” was conducted at College of Agriculture, Vellayani, Thiruvananthapuram, during 2021-2022. The primary objective of this study was to determine the physiological and molecular attributes of tomato grown under water stress as influenced by biochar with organic amendments. The experiment on tomato variety ‘Vellayani Vijay’ was conducted in a completely randomized design in pot culture with five replications. In order to assess the effect of biochar (BC) (0.5% w/w) and organic amendments such as vermicompost (VC) and farm yard manure (FYM) in mitigating the consequences of water stress, individual treatments viz. (Biochar (0.5% w/w), VC (50g/10kgsoil) and FYM (50g/10kg soil)) as well as combined treatments viz. ((Biochar+VC) and (Biochar+FYM)) were carried out along with T1 control (normal irrigated condition) and T7 control (water stress). The study consisted of 12 treatments, in which T1 to T6 were irrigated normally whereas treatments designated as T7 to T12 were subjected to 25% water stress. The present study was carried out using biochar derived from rice husk that was subjected to maximum pyrolysis temperature of 550°C in a cylindrical iron tank. Water stress of 25% was imposed by gravimetric method for a period of 80 days (after three weeks of sowing). The seedlings were maintained in protected condition for the first three weeks. Various morpho-physiological and yield parameters were evaluated at different critical stages of the crop, such as seedling stage, vegetative stage, flowering stage, fruiting stage and harvesting stage. Molecular studies were carried out at 50% flowering stage. Water stress had a negative impact on morphological, physiological and yield attributes of S. lycopersicum except total soluble solids, when compared to plants under normal irrigated condition. Biochar treatment was found to effectively mitigate the deleterious impacts of water stress. Plants treated with biochar outperformed the plants grown in both VC and FYM with regard to all the physiological and morphological parameters studied. However the best yield performance (yield and yield parameters) was obtained in the treatment with 124 biochar in combination with vermicompost. According to the results obtained it was clear that the combined application of biochar and vermicompost increased the relative water content, membrane stability index, chlorophyll stability index, photosynthetic rate, total protein content, stomatal conductance, transpiration rate, plant height and primary branches per plant under both water stress and normally irrigated conditions when compared to the non-treated controls. This indicates the ability of biochar to retain water and thereby increasing soil moisture content. Furthermore, under water stress, there was a significant improvement in the morphological traits such as, root weight (57.07%), shoot weight (33.33%), root: shoot ratio (17.91%), fruit number (43.54%), fruit size (69.93%), fruit weight (13.10%), total soluble solids (10.32%) and yield (62.42%). SlWRKY8 gene has an important role under drought stress conditions and is reported to have role in the regulation of ROS pathways and mitigating the detrimental effects in plants grown under water stress condition. In the present study, quantitative real time PCR amplification of SlWRKY8 gene in tomato leaves (taken at 50% flowering stage) showed an increase in the expression level of this gene in the treatments with combined application of biochar and vermicompost, both under water stress condition (T11) (3.24 fold) and normal irrigated condition (T5) (1.51 fold) compared to their respective controls (T7 and T1). This indicates that BC and VC combinations can be applied to tomato plants grown under water stress for the upregulation of SlWRKY8 genes which regulate the ABA signaling and helps in ABA-mediated stomatal closure in water stress condition. Taken together, the study demonstrate that, the combined application of vermicompost and biochar not only boost crop production, but also mitigate the destructive impacts of water stress by influencing physiological, morphological and molecular parameters of tomato ER -