1. KAUTIR (Kerala Agricultural University Theses Information and Retrieval)
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Item Bioefficacy and soil health impact of flucetosulfuron in wet seeded rice (Oryza sativa L.)(Department of Agronomy, College of Agriculture, Vellayani, 2018) Arya, S R; Elizabeth K SyriacItem Media improvement for in Vitro culturing and hardening of TC Banana CV. Nendran(Department of Pomology, College of Agriculture, Padannakkad, 2019) Vinayak Lamani; Meera Manjusha, A VThe research work “Media improvement for in vitro culturing and hardening of tissue culture banana cv. Nendran” was carried out 1) to study the effect of nitrogen sources (ammonium and nitrate) on shoot and root regeneration in tissue cultured Nendran banana and 2) to standardize methods to enhance the growth and survival of plantlets during primary and secondary hardening stage. Experiments were conducted at the Regional Agricultural Research Station, Pilicode, Kasargod during 2017-2019. First experiment consisted of in vitro culture with five treatments- T1 – MS media (control) (NH4NO3 1650mg/l and KNO31900mg/l), T2 - Modified MS media (2850mg/l KNO3 + 825mg/l NH4NO3), T3 - Modified MS media (1900mg/l KNO3), T4 -Modified MS media (3800mg/l KNO3) and T5 - Modified MS media (1900mg/l KNO3 + 1361mg/l (NH4)2H2PO4). In the first experiment, normal MS media T1 (control) was observed to be superior one compared with other treatments (modified MS media). It recorded maximum number of multiple shoots per explant after 4th, 5th and 6th subculture and highest shoot length, number of leaves, number of roots, root length and maximum fresh and dry weight of shoot after the rooting stage. Second experiment on primary hardening was carried out with nine treatments such as T1- sand (control), T2 - coco peat, T3 - vermicompost, T4 - sand + coco peat (1:1), T5 - sand + vermicompost (1:1), T6 - coco peat + vermicompost (1:1), T7 - sand + coco peat + vermicompost (1:1:1), T8 - sand + coco peat + vermicompost (1:2:1) and T9 - sand + coco peat + vermicompost (1:1:2) . Primary hardening study was carried out with different hardening media. Plant growth and survival were effectively influenced by hardening media. T1, T2, T6, T7 and T9 showed 100 percent survival but T3 (47.33 %) and T5 (18.00 %) had lower survival rates. With respect to various growth parameters T6 recorded highest 117 plant height, pseudostem girth, number of leaves, leaf length, leaf width, leaf area, root length and highest shoot fresh and dry weight and T2 had recorded maximum number primary and secondary roots and root weight which was on par with T6. Third experiment on biotization was done with nine treatments consisting of T1 - Arbuscular mycorrhizal fungi, T2 - Azotobacter, T3 - Azospirillum, T4 - PSB (Pseudomonas fluorescens), T5 - AMF + Azotobacter, T6 - AMF + Azospirillum T7 - PSB + Azotobacter, T8 - PSB + Azospirillum and T9 - Control (Potting mixture only). Investigation on biotization of plants, revealed significant effects on plant growth and development through enhanced nutrients uptake. All treatments showed 100 % survival. Among treatments, T8 recorded highest plant height at 30 and 60 DAT, maximum pseudostem girth was found in T1 and T6 at 30 and 60 DAT. With respect all leaf characters T7 was significantly superior which recorded maximum leaf length, leaf width and leaf area at both stages. T5 recorded more number primary and secondary roots, primary root length and root weight and shoot fresh and dry weight compared to control. Chlorophyll content was maximum in T7 and T4 at 30 and 60 DAT respectively. In the nutrient status of plants, T1 recorded maximum content of P and K and N content was more in T3. Plants of T5 recorded highest uptake of Zn, Fe and Mn. Cu and B content were more in T7 and T1 respectively. For successful in vitro culture of banana cv. Nendran, both ammoniacal nitrogen and nitrate nitrogen are required as per the results obtained. For successful transplantation of tissue cultured plants, acclimatization is an integral process in tissue culture technique, which involves primary and secondary hardening. For primary hardening, T6 - mixture of coco peat and vermicompost (1:1) was the best for successful survival and growth of plantlets. Biotization was found to be an important technique in secondary hardening stage, which enhanced the growth and development of plants through increased uptake of nutrients from media. Among the treatments, T5 - AMF and Azotobacter combination was the best for secondary hardening.Item Characterization and evaluation of on-farm liquid organic manures on soil health and crop nutrition(Department of Soil Science and Agricultural Chemistry, College of Agriculture, Vellayani, 2017) Sreya U Parvathi; Ushakumari, KItem Rhizosphere priming effects of conventional and non conventional organic manures on c and n dynamics(Department of Soil Science and Agricultural Chemistry, College of Agriculture, Vellayani, 2018) Geethu Jacob; Sudharmai Devi, C RItem Standardization of liquid formulation of PGPR MIX-1 and its evaluation for plant growth promotion in amaranthus(amaranthus tricolor L.)(Department of Agricultural Microbiology,College of Agriculture, Vellayani,Thiruvananthapuram, 2018) Gokul K Gopi; Meenakumari, K SItem Standardisation of nursery management practices in pachotti (Symplocos cochinchinensis (Lour.) S. Moore)(Department of Plantation Crops and Spices, College of Agriculture, Vellayani, 2018) Ajil, M S; Deepa S NairThe study entitled “Standardisation of nursery management practices in pachotti (Symplocos cochinchinennsis (Lour.) S. Moore)” was carried out in the Department of Plantation Crops and spices, College of Agriculture, Vellayani durng 2017-18. The objective of the study was to evaluate the propagation efficiency of different propagules viz., seeds, stem cuttings and root cuttings and to standardise the potting media for the nursery plants of pachotti. The propagules viz., seeds, stem cuttings and root cuttings for the study were sourced form Jawaharlal Nehru tropical Botanical Gardens and Research Institute, Palode, Thiruvananthapuram and from Wayanad district. The seeds were subjected to in vivo and in vitro germination studies. In in vivo study, among the pretreatments tried, viz., physical treatments, chemical priming and bio priming, only physical treatment of scarification (with sand paper) responded with a very low germination of 2 per cent. The germination commenced after two months of the treatment. Other in vivo pretreatments as well as in vitro treatments did not give any germination. In vegetative propagation, stem cuttings were exposed dto hormone/chemicals (auxins, phloroglucinol and salicylic acid (SA) pretreatments for two hours before planting. When pretreated with SA @ 10 and 20 mg L -1, at three months after planting, the hardwood cuttings responded with 30 pere cent survival, whith a shoot length of 2.99 mcm and 3.62cm, respectively. The semihardwood cuttings pretreated with SA@ 20 mg L-1 responded with 23.33 per cent survival with a higher shoot length of 3.72 cm. Both the hardwood and semi hardwood cuttings pretreated with SA 20 mgL-1 had on par values with respect to shoot length. Root cuttings were pretreated with different concentrations of various types of auxins. Root cuttings pretreated with IAA @ 250 mg L -1, after three months of planting responded with 33.33 per cent survival with a shoot length of 5.73 cm. Though root cuttings had slightly higher survival percent and shoot length, hardwood cuttings were selected for the valuation of potting media due to better availability and ease in procurement. The three month old hardwood cuttings pretreated with SA @ mgL-1 were then transplanted to ten different potting media comprising of two basal media viz., soil:coipith compost :cowdung (1:1:1) (B1) and soil : soirpith compost : vermicompost (1:1:1) (B2), and each in combination with biofertilisers @ 5g plant -1 viz., PGPR (Plant Growth Promotng Rhizobacteria) Mix I, Azospirillum, PSB (Phosphorus Solubilising Bacteria ) and AMF (Arbuscular Mycorrhizal Fungi). At fourth month after transplanting, B2 in combination with biofertilisers were found to be significantly superior to B2, B1 and B1 in combination with biofertilisers with respect to morphological parameters. B2 +PGPR Mix I recorded highest shoot length (11.50 cm) and number of leaves (10.50) which was on par with B2+Azospirillum, B2+PSB and B2+AMF; the highest number of branches (1.92) was observed in B2+ Azospiriillum which was on par with the treatments , B2+ PGPR Mix I, B2+PSB and B2+AMF. The fresh and dry weight of shoots were the highest (21.35 g and 4.78 g respectively) in B2 +PGPR Mix I which was on par with B2+ AMF. B2+ AMF recorded highest values (4.77 cm, 0.30 mm, 3.28 g and 0.0092 g, respectively) with respect to root growth parameters viz., root length, root girth , fresh and dry weight of roots. The physiological parameters, leaf area index (1.36) and leaf area duration (34.63 days) were the highest in B2+ PGPR Mix I which was on par with B2 in combination with other biofertilisers. The phytochemical analysis indicated that carbohydrate content (80.9 mg g-1) of plant tissue was the highest in B2+PGPR Mix 1, which was on par with B2+PSB, B2+Azospirrillum and B2+AMF. Chlorophyll content was found to the highest (1.20 mg g-1) in B2+ Azospirillum which was on par with B2+PGPR Mix I. The same treatment recorded the highest soluble protein content (20.31mg g-1) and it was on par with B2 in combination other biofertilisers. The nutrient analysis of plant tissue showed that nitrogen (2.22 percent ) and potassium (2.15 per cent ) content was significantly higher in B2+ Azospirillum. B2+PSB Recorded higher phosphorus content (0.26 per cent) among the treatments. The study indicated that nursery plants in the potting media B2 in combination with biofertilizers gave better performance with respect to morphological parmeters, physiological parameters, phytochemicals and plant nutrients. Among the various potting media tried, B2+AMF recorded significantly higher plant growth potential (0.522) followed by B2 + PGPR Mix I (0.428). In the study, hardwood cuttings were identified as the preferred planting material for the nursery establishment of pachotti. The cuttings could be treated with salicylic acid @ 20 mg L-1 for initial establishment of nursery plants. The preferred potting media for transplanting the established cuttings for raising the nursery plants of pachotti is Soil : Coirpith compost : Vermicompost (1:1:1) +AMF (5g/plant).Item Organic nutrient management of papaya (Carica papaya L.)(Department of Pomology and Floriculture, College of Agriculture, Vellayani, 2018) Divya Hari; Bindu, BItem Nutrient management in strawberry (Fragaria x ananassa Duch.)(Department of Fruit Science, College of Horticulture Vellanikkara, 2017) Arjun Mohan, P; Ajith Kumar, KThe experiment entitled “Nutrient management in strawberry (Fragaria x ananassa Duch.)” was undertaken at Regional Agricultural Research Station, Ambalavayal, Wayanad during the year 2016-17. Performance of strawberry variety Winter Dawn was evaluated under nine treatments and a control in the open field viz., FYM 10 t ha-1 + NPK 50:20:50 kg ha-1 (T1); FYM 10 t ha-1 + NPK 75:30:75 kg ha-1 (T2 ); FYM 10 t ha-1 + NPK 100:40:100 kg ha-1 (T3); FYM 20 t ha-1 + NPK 50:30:100 kg ha-1 (T4); FYM 20 t ha-1 + NPK 75:40:50 kg ha-1 (T5); FYM 20 t ha-1 + NPK 100:20:75 kg ha-1 (T6); FYM 30 t ha-1 + NPK 50:40:75 kg ha-1 (T7); FYM 30 t ha-1 + NPK 75:20:100 kg ha-1 (T8); FYM 30 t ha-1 + NPK 100:30:50 kg ha-1 (T9) and an absolute control (T10), without any nutrient application. All the treatments were on par and superior over the control (T10) in case of plant height. In case of plant spread, T2, T3, T5, T6, T7, T8 and T9 were on par and superior over the control while T1 and T4 were on par with each other but differs with other treatments. All the treatments except T2 were on par and superior over the control with respect to number of leaves per plant. Application of treatments had no significant effect on days to first flowering. In case of number of flowers and clusters per plant, T1, T2, T3, T5, T6, T7, T8 and T9 were on par and superior over the control while T4 was on par with the control (T10). Days to first harvest was minimum in T6, T7, T8 and T9 which were on par while all other treatments were on par with the control (T10).In case of number of fruits and yield per plant, T7 (FYM 30 t ha-1 + NPK 50:40:75 kg ha-1) and T8 (FYM 30 t ha-1 + NPK 75:20:100 kg ha-1) were on par and superior over other treatments including T1, T2, T3, T4, T5, T6 and T9 which were on par and superior over the control. Average fruit weight recorded under T3, T5, T6, T7, T8 and T9 were on par which was followed by T2 on par with T4 and T1. Days to final harvest was not found to be influenced by the application of different treatments. Biochemical characters of fruits viz., TSS, acidity and TSS/acidity ratio were not having any significant effect due to the application of treatments. In case of total sugars, T3, T7, T8 and T9 were having the highest content and were on par which was followed by T5 on par with T1, T2, T4, T6 and T10. The overall sensory score was highest in T7 followed by T8. Application of different treatments had no significant effect on the shelf life of strawberry fruits. N, P, K and Ca content in the plant were not significantly affected by any treatment while Mg content was found to be on par in all treatments and superior over the control. Soil analysis after the harvest of the crop revealed that the values for soil EC, available P, K, Mg and S were found to be elevated while soil pH, organic carbon and available Ca content were found to be at lower levels than the initial values before planting. It was concluded that among different nutrient combinations evaluated, T7 (FYM 30 t ha-1 + NPK 50:40:75 kg ha-1) with a BC ratio of 3.06 can be recommended for further optimization and refinement.Item Evaluation of promising strawberry (Fragaria x ananassa Duch.) varieties for Wayanad(Department of Fruit Science, College of Horticulture Vellanikkara, 2017) Muhammed Aslam; Ajith Kumar, KItem Agronomic evaluation of biofarming techniques for forage production in coconut gardens(Department of Agronomy, College of Agriculture, Vellayani, 1996) Sansamma George; Raghavan Pillai, GTwo field experiments were conducted at the Instructional Farm, College of Agriculture, Vellayani, Thiruvananthapuram, Kerala State to study the potential of biofarming techniques for forage production in coconut gardens. The study was carried out for a period of two years from September 1993 to August 1995. The influence of the different nutrient management techniques on uptake of nutrients, quality of produce and physico-chemical properties of soil was also investigated. In experiment no.1. the influence of two nitrogen fixing organisms., viz. Azospirillum and Azotobacter and the role of Vesicular Arbuscular Mycorrhiza (VAM) in improving the growth and production of guinea grass and congosignal was studied under inoculation alone and also in combination with chemical fertilizers. The nitrogen fixers were tested under varying levels of fertilizer nitrogen and for VAM the level of phosphorus varied between treatments. The prospects for vermicompost use for guinea grass production was examined under experiment no. 2. It was also envisaged to compare the impact of integrated use of manures and fertilizers with the continuous use of chemical fertilizers alone. Results of experiment no.1 revealed that Azospirillum inoculation alone and in combination with fertilizers had significant positive influence on guinea grass production. Azotobacter inoculation showed only limited effects on growth and yield of the forage grass during the first year but the effect was significant during the second year. The results indicated that 25 per cent of the recommended nitrogen could be saved through the use of either of the biofertilizers. VAM inoculation when combined with full dose of recommended fertilizer nitrogen and potassium, showed significant superiority over the POP treatment at 0, 25 and 50 per cent phosphorus doses while the 75 percent P dose gave comparable yields. The quality parameters of the forage recorded values on par or superior to that of the recommended fertilizer treatment. The use of biofertilizers improved the net income and benefit : cost ratio from guinea grass cultivation. The inoculation treatments were found to have a favourable influence on the physical and chemical properties of the soil. Integrated use of the nitrogen fixing organisms with chemical fertilizers was found effective for Congosignal cultivation. Pooled analysis studies indicated that when inoculated with either Azospirillum or Azotobacter, 50 per cent of the recommended fertilizer nitrogen was adequate for yields. VAM inoculation alone elicited significant yield increase over the absolute control. Combind doses of VAM with chemical fertilizers at all levels of applied phosphorus responded more or less similar to the recommended fertilizer treatment. This indicated the possibility of completely substituting the need for fertilizer phosphorus in VAM inoculated congosignal. The VAM effect in promoting growth and yield of the forage was found to decline in the presence of applied phosphorus. The data on economics also favoured the use of biofertilizers. Experiment no. 2 revealed that guinea grass responded well to integrated use of manures and fertilizers. As per pooled analysis vermicompost @ 5 t ha-1 or Farm yard manure @ 10 t ha-1 when combind with 75 per cent of the recommended NPK were comparable with the 100 per cent NPK treatment. Application of the organic manures improved the quality of the produce. The physic-chemical properties of the soil was also favourably influenced by the integrated use of manures and fertilizers. The economic analysis of the data emphasised the need for reducing the reliance on purchased inputs. Coconut yield was found favourably influenced by intercropping of the fodder grasses.