Tomato yield and quality under various combinations of organic compost

França, Fernando Cassimiro Tinoco; Pedrosa, Marinalva Woods; Carlos, Lanamar de Almeida; Maciel, Gabriel Mascarenhas

doi:10.14393/bj-v32n5a2016-33057

Cited by 7 publications

(5 citation statements)

References 22 publications

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“…Cucumber and kale seedlings grown in bokashi-amended soils grew significantly larger and had higher leaf chlorophyll concentrations compared to seedlings grown in compost-amended soils or in soil alone (Figure 2a). Our finding that bokashi improves plant growth is consistent with previous studies (Álvarez-Solís et al, 2016; Aurora Gomez-Velasco et al, 2014; Bautista-Cruz et al, 2014; Boechat et al, 2013; França et al, 2016; Jaramillo-López et al, 2015; Lima et al, 2015; Peralta-Antonio et al, 2014). The positive correlation between bokashi amendments, leaf chlorophyll concentration, and plant biomass further suggests a pathway for enhanced plant growth by bokashi through increased bioavailable N concentrations (Figure 2b), as does the positive correlation between NH 4 + concentrations of bokashi and chlorophyll concentrations in plant leaves (Fig.…”

Section: Discussionsupporting

confidence: 93%

“…Unlike compost, bokashi matures rapidly, in just two weeks, and fundamentally integrates animal waste. Various studies have illustrated the efficacy of bokashi as a fertilizer that improves plant growth (Álvarez-Solís et al, 2016; Aurora Gomez-Velasco et al, 2014; Bautista-Cruz et al, 2014; Boechat et al, 2013; França et al, 2016; Jaramillo-López et al, 2015; Lima et al, 2015; Peralta-Antonio et al, 2014) and several have investigated the amendment’s nutrient content (Álvarez-Solís et al, 2016; Aurora Gomez-Velasco et al, 2014; Boechat et al, 2013; Lima et al, 2015; Peralta-Antonio et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Microbial transformation of traditional fermented fertilizer bokashi alters chemical composition and improves plant growth

Abo-Sido

Goss

Griffith

et al. 2021

Preprint

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Bokashi is an organic soil amendment that makes use of microbial processes to break down agricultural waste and create a nutrient-rich fertilizer. The benefits of various types of bokashi on soil fertility and plant growth are well documented, however the changes in microbial community composition and nutrients during bokashi maturation remain poorly characterized. Here, we aimed to identify potential differences in the quality of bokashi made using different ingredients and to investigate the biochemical transformation and microbial community succession of bokashi throughout the maturation process. We compared the effects of these different types of bokashi on the growth of cucumber (Cucumis sativus) and kale (Brassica napus subsp. pabularia) seedlings, measured concentrations of NH4+ and PO43-, and characterized the bokashi bacterial and fungal communities over a 12-day maturation period. We found that cucumber and kale plants growing in all types of bokashi-amended soils exhibited increased chlorophyll levels and dry biomass. During bokashi maturation, we observed a decrease in available PO43-, and an increase in NH4+. There also appeared to be an increase in relative abundances of decomposers and beneficial microbes and a decrease in putative plant pathogens. Regardless of starting bokashi ingredients and differences in microbial composition and nutrient trends, all types of bokashi similarly improve plant growth and contain beneficial microbes.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Microbial transformation of traditional fermented fertilizer bokashi alters chemical composition and improves plant growth

Abo-Sido

Goss

Griffith

et al. 2021

Preprint

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“…However, for arugula (Eruca sativa L.) and radish (Raphanus sativus L.), higher yields have been achieved with 10% and 5% BM, respectively [2]. Effective microorganism (EM) Bokashi is a well-known soil amendment used in agriculture [3,4], and has been tested with promising results for tomato [5,6], arugula [2], radish [2], and lettuce (Lactuca sativa L.) [7]. Based on 130 long-term experiments, organic amendments provided stability in plant and fruit production, and may increase yield by up to 15% in tropical conditions [8].…”

Section: Introductionmentioning

confidence: 99%

Bokashi, Boiled Manure and Penergetic Applications Increased Agronomic Production Variables and May Enhance Powdery Mildew Severity of Organic Tomato Plants

et al. 2021

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Research on organic fertilizers are of crucial importance for sustainable production systems with high efficiency of natural resource use. The objective of this study was to evaluate organic sources of fertilization (boiled manure (BM), effective microorganism (EM) Bokashi, and Penergetic) for their effects on agronomic variables (fruit size and yield, total soluble solids) and on foliar powdery mildew severity of tomato (Solanum lycopersicum L.). The crops were grown during two cropping cycles in protected cultivation. The treatments were: Control (water only); 50 g per plant of EM Bokashi compost in two applications; Penergetic at 1.5 g L−1 applied to the substrate before planting or sprayed on the plants 14 days after transplanting; and BM at 2.5, 5.0, 7.5, and 10% concentrations (vol/vol) in water, via fertigation. Fruit production and quality were assessed. The effects of treatments on powdery mildew (Leveillula taurica Lév. G. Arnaud) were analyzed by using a diagrammatic scale. Bokashi, 10% BM, and Penergetic increased fruit production of the first three fruit trusses. Bokashi treatment increased tomato fruit diameter. The effects on fruit length and total soluble solids varied with each crop cycle. Powdery mildew severity increased with 10% BM, compared to the control. Both 10% BM and Penergetic presented similar fruit production to Bokashi and are good candidates as substitutes for Bokashi as organic fertilizers/amendments while maintaining tomato yield.

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“…Soil fertility is continuously on decline despite the use of chemical fertilizers on a wide scale. Organic farming has yet not got required support to be widely practiced for many crops owing to comparatively lesser yields (KUMAR et al, 2016;FRANCA et al, 2016). Legumes inclusion in cropping systems might lead to soil fertility buildup due to biological nitrogen fixation as well as other physico-chemical properties improvement owing to green manure addition by leaf shattering in the longer run.…”

Section: Introductionmentioning

confidence: 99%

Revamping soil quality and correlation studies for yield and yield attributes in sorghum-legumes intercropping systems

Iqbal¹,

Iqbal²,

Maqbool³

et al. 2018

Biosci. J.

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Restoration, preservation and sustainability of agricultural resources including soil demands biologically and economically viable farming practices. For boosting physico-chemical properties of soil from 2012 to 2015, three legumes including cowpea, cluster bean and soybean were intercropped with sorghum in 40-60, 75-25 and 100-100 seed blending ratios, while pure stand of sorghum was kept for comparison. Correlation studies were also conducted to determine linear or inverse relationship between physiological and agronomic attributes with green forage yield of sorghum. Results revealed that intercropping systems were not effective in significantly improving the physical properties of soil, however soybean and sorghum mixed seeded crop in 100-100 seed ratio resulted in the highest total and available nitrogen especially during last two years of the study and it was followed by mixed seeded crop of cluster bean and sorghum (100-100 seed ratio), while pure stand of sorghum appeared to be the most exhaustive farming system. Correlation analysis depicted a linear relationship between all agronomic attributes (seedling count, plant population at harvest, plant height, stem diameter, number of leaves and leaf area per plant, fresh and dry weights per plant) and physiological growth parameters (leaf area index and leaf area duration, crop growth rate and net assimilation rate) with forage yield of sorghum. Thus, legumes inclusion was found to be effective in restoring soil fertility, while long term legumes inclusion by following rotation may be suggested.

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Tomato yield and quality under various combinations of organic compost

Cited by 7 publications

References 22 publications

Microbial transformation of traditional fermented fertilizer bokashi alters chemical composition and improves plant growth

Microbial transformation of traditional fermented fertilizer bokashi alters chemical composition and improves plant growth

Bokashi, Boiled Manure and Penergetic Applications Increased Agronomic Production Variables and May Enhance Powdery Mildew Severity of Organic Tomato Plants

Revamping soil quality and correlation studies for yield and yield attributes in sorghum-legumes intercropping systems

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