Potentials of plantain peel and Tithonia diversifolia leaves as soil amendments in enhancing performance and nutritional contents of tomato (Solanum lycopersicum).

Screen house experiment was conducted in 2020 at the Landmark University Teaching and Research Farm Omu-aran, Kwara State. The experiment was carried out to evaluate the potential of dried unripe plantain peel and Tithonia diversifolia as soil amendments and its effect on growth, yield and fruit quality of tomato. Four rates each of dried plantain peel (0, 5, 10 and 15 t/ha) and Tithonia diversifolia (0, 10, 20 and 30 t/ha) were applied sole and combined. The experimental layout was a completely randomized design (CRD) with three replicates. Parameters were collected on the plant height, number of leaves, number of branches, stem girth, yield and fruit quality. Data collected were subjected to Analysis of variance (ANOVA) using the GENSTAT Discovery Software, Edition 4. Comparison of the treatment means were carried out using Duncan Multiple range test (DMRT) at 0.05 level of probability. Results showed that dried plantain peel and Tithonia diversifolia improved, number and weight of fruits as well as the fruit quality of tomato and were comparable to the application of NPK fertilizer. Treatment P5T30 (T8) increased number of leaves and number of branches while P15T20 (T15) and P10T30 (T12) increased plant height and stem girth respectively. Treatment P5T30 (T8) and P10T20 (T11) also significantly improved the fruit quality (minerals, lycopene and Vit. A) of tomato fruits. It can therefore be concluded that application of dried plantain peel and Tithonia diversifolia at P5T30 (T8) and P10T20 (T11) increased the vegetative, yield and quality parameters of tomato in the screen house of the study area.

Organic and in-organic fertilizers effects on the performance of tomato (Solanum lycopersicum) and cucumber (Cucumis sativus) grown on soilless medium.

The effects of organic fertilizers, based on Tithonia diversifolia, and in-organic fertilizers, based on hydroponics fertilizer, were evaluated on the performance, leaves, and fruit mineral concentrations of tomato (Solanum lycopersicum) and cucumber (Cucumis sativus) plants grown under soilless medium in a screen house. The treatments comprised six levels of liquid organic fertilizer (5, 15, 25, 35, 45, 55 mL), in-organic fertilizer, and a control. Both organic and in-organic fertilizers increased the growth, yield, leaf nutrient concentration, and the mineral contents of tomato and cucumber fruits in comparison with the control. In-organic fertilizer enhanced the performance and mineral concentrations of tomato and cucumber fruits in comparison with organic fertilizer. However, leaf analyses showed that all the essential elements for both tomato and cucumber crops were within the adequate ranges in the organic fertilizer treatments suggesting that this organic fertilizer can be used as an alternative to the expensive and scarce in-organic fertilizer. For organic fertilizer, the highest yield and mineral contents in fruits were attained at doses of 35 mL and 25 mL for tomato and cucumber plants, respectively. At these doses, the fruit weights of tomato and cucumber were increased by 137 and 198%, respectively, in comparison with the control. For a good yield of tomato and cucumber crop with a high fruit mineral content under the soilless medium of coco peat and rice husk, 35 mL and 25 mL of our tested organic fertilizer are recommended.

Performance and quality attributes of okra (Abelmoschus esculentus (L.) Moench) fruits grown under soil applied Zn-fertilizer, green biomass and poultry manure.

Field experiments were carried out in 2018 and 2019 cropping seasons at Landmark University Teaching and Research farm, Omu-Aran Kwara state, Nigeria, to determine the effect of soil applied Zn-fertilizer, Tithonia diversifolia (Ti), Chromolaena odorata (Ch) and poultry manure (PM) on the performance, yield, minerals and vitamins composition of okra fruits. Treatments were combined and tested as follows:-Control (T1), Control + 10 kg ha-1 Zn (T2), 5 t ha-1 Ti + 5 t ha-1 PM (T3), 5 t ha-1 Ch + 5 t ha-1 PM (T4), 5 t ha-1 Ch + 5 t ha-1 Ti (T5), 10 t ha-1 Ti + 0 kg ha-1 Zn (T6), 10 t ha-1 Ti + 10 kg ha-1 Zn (T7), 10 t ha-1 Ch + 0 kg ha-1 Zn (T8), 10 t ha-1 Ch + 10 kg ha-1 Zn (T9), 10 t ha-1 PM + 0 kg ha-1 Zn (T10), and 10 t ha-1 PM + 10 kg ha-1 Zn (T11). The experiment was laid out in a randomized complete block design with four repetitions. Vegetative, yield and quality parameters of okra were taken. Data were subjected to analysis of variance and means were compared using Duncan Multiple Range Test (DMRT) at p ≤ 0.05. Variations were observed on the vegetative parameters, yield, minerals and vitamin composition of okra among the applied amendments. The combined application of green biomass, poultry manure, and Zn-fertilizer improved all the variables tested as compared to when they were applied singly. Application of Zn-fertilizer to some selected plots significantly increased yield, Zn, Mg and vitamins concentration of okra. Application of 5 t ha-1 Ti + 5 t ha-1 PM + 10 kg ha-1 Zn (T3) and 5 t ha-1 Ch + 5 t ha-1 PM + 10 kg ha-1 Zn (T4) significantly improved all the parameters tested but the use of 5 t ha-1 Ti + 5 t ha-1 PM + 10 kg ha-1 Zn (T3) resulted in optimum yield and at the same time increase minerals and vitamin concentration of okra. The results of this study therefore showed that Tithonia diversifolia (Ti) as green biomass contained and released more and quality nutrients than Chromolaena odorata (Ch) when combined with equal rate of Zn fertilizer and poultry manure.

Different organic manure sources and NPK fertilizer on soil chemical properties, growth, yield and quality of okra.

Use of organic manures to meet the nutrient requirement of crop would be an inevitable practice in the years to come for sustainable agriculture since organic manures generally improve the soil physical, chemical and biological properties. Hence, field experiments were carried out in 2017 and 2018 to compare the impact of different organic manures and NPK fertilizer on soil properties, growth, yield, proximate and mineral contents of okra (Abelmoschus esculentus L.). The treatments each year 2017 and 2018 consisted of: rabbit manure, cow dung, poultry manure, green manure [Mexican sunflower (Tithonia diversifolia Asteraceae)], pig manure, NPK 15-15-15 fertilizer applied at 120 kg N ha-1 and a control (no manure/inorganic fertilizer). The seven treatments were laid out in a randomized complete block design with three replication. Organic manures and NPK fertilizer increased the soil organic matter (OM), N, P, K, Ca and Mg (NPK fertilizer did not increase OM, Ca and Mg significantly), growth, yield, minerals, protein, ash, carbohydrate and mucilage contents of okra fruit as compared with control. Organic manures improved okra yield compared with NPK fertilizer. Okra growth and yield parameters were significantly higher in 2018 compared with 2017. Control, rabbit manure, cow dung, poultry manure, green manure, pig manure and NPK fertilizer in 2018 increased the pod yield of okra by 9.7%, 35.3%, 57.9%, 36.2%, 39.2%, 45.5% and 3.2%, respectively compare with the same treatment in 2017. Amongst various organic manures, poultry manure produced significantly higher plant growth, yield, mineral and proximate composition of okra because of its high soil chemical properties which could be related to its lowest C: N ratio, lignin and lignin: N ratio. Results also showed that okra grown during high intensity rainfall has higher yield but with reduced quality except its mucilage content. Therefore, planting of okra with poultry manure under moderate rainfall will enhance the health benefit from the fruit, however, those that desire its mucilage content planting during high rainfall is recommended.

Selecting Yield and Nutritional Traits in Sphenostylis stenocarpa Landraces for Food Improvement.

BACKGROUND: Sphenostylis stenocarpa is an underexploited African indigenous food crop that is enriched in nutritional quality. OBJECTIVE: Exploring the robust genetic base of this landrace can help to maximize the benefit of the agricultural sector on the economy through production that is enhanced by packaging and patent. This as well will increase the quality of food production and promote African campaign on food sustainability. METHODS: Upon this, this research made use of multiple statistics to identify S. stenocarpa yield and nutritional trait relatedness that supported selection for maximum yield and nutritional trait output. Yield and related traits including protein and oil contents of twenty-three Sphenostylis stenocarpa landraces were studied under a four year planting seasons in Teaching and Research farm of Landmark University, Nigeria. RESULTS: Trait variances from Landrace × Year (L × Y) interaction, Principal Component and Cluster analyses were evaluated and the variation patterns were identified. Some vegetative (maturity phase, height and branching) and yield traits (Pod traits, seed yield and oil content) correlated significantly (P < 0.05) in the L × Y interactions. This suggests the usefulness of these traits in improving S. stenocarpa grain and oil quality yield. Tuber and nodule yield including protein content did not differ significantly in the variance table. CONCLUSION: The result indicates that one location trial is insufficient to determine such trait performance. The first four PCs that accounted for 51 percent of the total variations were traceable to branching, maturity date, pod numbers, seed and oil content as main contributors to yield.

Impact of green manures of Vernonia amygdalina and Chromolaena odorata on growth, yield, mineral and proximate composition of Radish (Raphanus sativus L.).

Field experiments were carried out during the 2016 and 2017 cropping seasons at the Teaching and Research Farm, Landmark University, Omu-Aran, Kwara State (latitude 8.9°N and longitude 50°61 E.), Nigeria, to study the effect of some green manures as an alternative to inorganic fertilizer on growth, yield, mineral and proximate composition of radish. Green manure composed of leaves of Vernonia amygdalina and Chromolaena odorata and were applied as follows: 10 tonnes ha-1 vernonia + 0 tonnes ha-1 chromolaena (T1), 7.5 tonnes ha-1 vernonia + 2.5 tonnes ha-1 chromolaena (T2), 5.0 tonnes ha-1 vernonia + 5.0 tonnes ha-1 chromolaena (T3), 2.5 tonnes ha-1 Vernonia + 7.5 tonnes ha-1 chromolaena (T4), 0 tonnes ha-1 vernonia + 10 tonnes ha-1 chromolaena (T5) while in-organic fertilizer (NPK 20:10:10) was applied at 200 kg NPK ha-1 (T6) and there was a control plot (T7). The experiment was laid out in a Randomized Complete Block Design (RCBD) replicated four times. Vegetative, yield and quality parameters of radish were taken. Data collected were subjected to Analysis of Variance (ANOVA) using Statistical Analysis Software (S.A.S), 2000. Treatment means were compared using Duncan Multiple Range Test (DMRT) at 0.05 level of probability. The study showed that application of green manures increased vegetative, yield and yield parameters and were comparable with application of NPK fertilizer while there was a significant increase in the nutritional composition of radish with application of green manures when compared with NPK and control. It can therefore be concluded that application 10 tonnes ha-1 vernonia + 0 tonnes ha-1 chromolaena (T1) as green manure increased vegetative, yield and yield parameters while application 7.5 tonnes ha-1 vernonia + 2.5 tonnes ha-1 chromolaena (T2) improved radish quality.

MgO Fertilizer Sole and Combined with Organic and Inorganic Fertilizers: Effect on Soil Chemical Properties, Turmeric Performance, and Quality in a Tropical Alfisol.

For soil fertility maintenance, secondary nutrient such as Magnesium (Mg) is always being neglected. However, its role is critical in the growth, yield, and quality of crops. Therefore, two field experiments were initiated in 2017 and 2018 to evaluate the response of soil chemical properties, performance, and qualities of turmeric (Curcuma longa L.) to Mg fertilizer alone and in combination with poultry manure (PM) and NPK 15-15-15 fertilizer (NPK). The treatments applied were the following: (i) PM alone at 8 t ha-1, (ii) NPK alone at 200 kg ha-1, (iii) Mg fertilizer alone (in form of MgO) at 20 kg ha-1, (iv) PM at 8 t ha-1 with MgO at 20 kg ha-1 (PM + Mg), (v) NPK at 200 kg ha-1 with MgO at 20kgha-1 (NPK + Mg), and (vi) control (no amendment of any kind). PM, NPK, and Mg fertilizers alone or NPK + Mg and PM + Mg increased soil chemical properties, performance (plant height, number of leaves, number of tillers, number of rhizomes, and fresh rhizome weight), and minerals and vitamins C and A contents of turmeric rhizome compared with the control. By averaging 2017 and 2018, Mg fertilizer alone increased the yield of turmeric by 10.8% compared with the control. For this experiment, NPK + Mg increased growth and yield of turmeric compared with other treatments. Also, averaging 2017 and 2018, NPK + Mg increased rhizome yield of turmeric by 13.6% and 10.6% compared with PM + Mg and NPK alone, respectively. Similarly, PM + Mg significantly improved mineral and vitamins contents compared with other treatments. Therefore, for those that desire turmeric rhizome for its nutritive value, PM + Mg is recommended. For those that want quantity, NPK + Mg is recommended.