Integrated use of phosphorus, farmyard manure and biofertilizer improves the yield and phosphorus uptake of black gram in silt loam soil

Singh, Joginder; Bhatt, Rajan; Dhaliwal, S. S.; Dhillon, B. S.; Al-Huqail, Asma A.; Alfagham, Alanoud; Siddiqui, Manzer H.; Ali, Hayssam M.; Khan, Faheema; Kumar, Ritesh

doi:10.1371/journal.pone.0266753

Cited by 7 publications

(5 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The organic acid is also involved in the complexing of Calcium, resulting in increased P release from the calcium phosphate fraction. The increased solubilisation of organic acids is due to the drop in soil pH, soil cations chelating and competition with phosphate for adsorption sites in the soil solution (Singh et al, 2022). The addition of humic acid to alkaline soil significantly increased the water-soluble phosphate and strongly retarded the formation of occluded phosphate by creating the competition between the humic acid and phosphorus for soil sorption sites (Yang et al, 2019).…”

Section: Resultsmentioning

confidence: 99%

Bioactivation of Legacy Phosphorus in Calcareous Soil and its Impact on Maize Yield

Aswitha

Malarvizhi

Chitdeshwari

et al. 2022

ASD

View full text Add to dashboard Cite

Background: Over the years, the excessive P fertilizer application to crop fields resulted in the build up of insoluble phosphorus pool in soil known as legacy phosphorus. This represents a vast and largely untapped resource in soil. The current study was conducted to evaluate the potential of some P activators (Phosphorus solubilising bacteria, phytase, humic acid, farmyard manure) on increasing the plant availability of legacy P in calcareous soil. Methods: A field experiment was conducted with maize hybrid COH(M) 6. The P activators were combined and applied along with the different doses of P fertilizer (100%, 75% and 50% soil test dose of single super phosphate). Result: Farmyard Manure (FYM) application with Humic acid (HA) showed the increased Olsen P under 100% and 75% of P application. The phosphorus activation response of FYM+HA applied plots showed a higher value than other treatments. The maize yield and P uptake obtained with FYM and HA were statistically comparable at 100% and 75% soil test dose of P. The findings have illustrated that even the reduced amount of P fertilizer application can support the crop growth due to the release of legacy P if they are applied along with P- activators such as FYM and HA.

show abstract

Section: Resultsmentioning

confidence: 99%

Bioactivation of Legacy Phosphorus in Calcareous Soil and its Impact on Maize Yield

Aswitha

Malarvizhi

Chitdeshwari

et al. 2022

ASD

View full text Add to dashboard Cite

show abstract

“…According to [19], phosphate solubilizing bacteria and organics application along with phosphorus fertilizer might increase the bioavailability of insoluble soil phosphorus for plant use by producing organic acids. [20] reported that, because of the mineralization, solubilization, and translocation of phosphorus through the production of organic acid and proton extrusion by the use of biofertilizer and organics have improved the phosphorus availability to plants, which in turn improves the plant shoot length.…”

Section: Shoot Lengthmentioning

confidence: 99%

Effect of Phosphorus in Conjoint with Organics and Bioinoculant on Growth, Yield and Quality Parameters of Blackgram in Typic Chromustert

Suthakar

Indirani²,

Kannan

et al. 2022

IJPSS

View full text Add to dashboard Cite

Aims: Use of phosphorus fertilizer along with farmyard manure, vermicompost and phosphorus solubilizing bacteria (Bacillus megaterium) in black calcareous soil was conducted to assess the impact on the growth, yield and quality parameters of blackgram variety VBN 8 during the year 2022. Study Design: Randomized Block Design (RBD) with twelve treatments and three replications. Place and Duration of Study: Kalligudi block of Madurai district, representing the Southern part of Tamil Nadu during the summer season of 2022. Methodology: Twelve treatments were followed with various combinations of organics viz, vermicompost and farmyard manure, bioinoculant, and inorganic chemical fertilizer at different ratios. The combinations are 100 per cent and 75 per cent of P2O5 on STCR (Soil Test Crop Response) basis mixed with farmyard manure (1:10 ratio) and vermicompost (1:5 ratio). The impact of different treatments were recorded on shoot length, root volume, SPAD value, Leaf Area Index, grain yield, protein, cystine, and methionine content. Results: Among the treatments, application of 100% of P2O5 on Soil Test Crop Response (STCR) basis incubated for 30 days with vermicompost at 1:5 ratio + phosphorus solubilizing bacteria @ 2 kg ha-1 T11 has improved the black gram shoot length (27.6 cm), root volume (2.43 cm3), SPAD value (45.91), Leaf Area Index at 20 DAS (1.09) and 40 DAS (3.7), grain yield (936.1 kg ha-1) protein content (23.21%), cystine content (1.97%) and methionine content (2.29%). Conclusion: The integration of vermicompost and bioinoculant along with phosphorus fertilizer in black calcareous soil has improved the blackgram yield by 35.8% over the use of recommended dose of fertilizer alone. This result highlights the need of integrated application of phosphorus fertilizer along with organics and phosphorus solubilizing bacteria in black calcareous soil for sustainable production of blackgram.

show abstract

“…Bio-fertilizers (AM fungi, Rhizobium, Phosphobacteria) were living organisms, cost effective, eco-friendly and alterative for chemically synthesized fertilizers, which substituted inorganic fertilizers by fixing atmospheric nitrogen and mobilize inorganic phosphorous followed by solubilization led to more availability of nutrients to plants and better yield performance [6]. Earlier works [7] revealed that blackgram seeds were treated with phosphorous solubilizing bacteria and AM fungi might had substituted for 50% phosphatic fertilizer under silt loam soil in blackgram.…”

Section: Introductionmentioning

confidence: 99%

Effect of Weed Management Practices and Bio- fertilizers with and without FYM on Weed Flora, Growth and Yield of Blackgram (Vigna mungo L.)

Richardsan

Bharathi

Janaki

et al. 2022

IJPSS

View full text Add to dashboard Cite

A field experiment was conducted in farmer’s field at Narasipuram block, Coimbatore, Tamil Nadu during summer season, 2021-22, to study the influence of weed management practices and bio-fertilizers with and without FYM on weed flora, growth and yield of blackgram. The experiment was laid out in split plot design with three replications. Treatments consisted of four weed management practices as main plots, viz., M1- PE Pendimethalin 30% EC 1 kg ha-1 sprayed at 3 DAS, M2 - EPoE imazethapyr 10% SL 50 g ha-1, M3 – EPoE Quizalofop-p-ethyl 5% EC 50 g ha-1applied at 10 DAS and M4 - two hand weeding (15 and 30 DAS) and four different treatments of bio-fertilizers with and without FYM viz., S1 – Rhizobium + Phosphobacteria, S2 – Rhizobium + Phosphobacteria + AM fungi, S3 – S1 + FYM, S4 – S2 + FYM and S5 - control. The results revealed that interaction effect of pendimethalin 1 kg ha-1 (M4) and Rhizobium + Phosphobacteria + AM fungi with FYM (S4) recorded maximum growth and yield parameters viz., plant height, dry matter production, number of pods plant-1, seeds pods-1, pod length and 100 grain weight. Moreover, produce higher grain and haulm yield compared over rest of treatments.

show abstract

Integrated use of phosphorus, farmyard manure and biofertilizer improves the yield and phosphorus uptake of black gram in silt loam soil

Cited by 7 publications

References 24 publications

Bioactivation of Legacy Phosphorus in Calcareous Soil and its Impact on Maize Yield

Bioactivation of Legacy Phosphorus in Calcareous Soil and its Impact on Maize Yield

Effect of Phosphorus in Conjoint with Organics and Bioinoculant on Growth, Yield and Quality Parameters of Blackgram in Typic Chromustert

Effect of Weed Management Practices and Bio- fertilizers with and without FYM on Weed Flora, Growth and Yield of Blackgram (Vigna mungo L.)

Contact Info

Product

Resources

About