Abstract
Crop yield augmentation is dependent upon the supply of different nutrients at different stages. Such requirements are fulfilled by synthetic fertilizers marked by considerable environmental deterioration in long term. The current research has for the first time prepared a sustainable biofertilizer comprising of the soils’ inherent microbial pool, natural farming inputs, i.e., organic botanical extracts, fish liquids with the addition of molasses, compost indigenous microorganisms (IMOs) comprising mycoflora (i.e., Aspergillus niger, Aspergillus flavus, Penicillium chrysogenum). The prepared biofertilizer was utilized for the growth enhancement of sunflower (Helianthus annuus) in addition to the heavy metals remediation in the contaminated soils. Selected soils’ and sunflower characterization was done for the determination of nutrient content evaluation and decontamination of heavy metals. IMO isolation was done from pedospheric compartment and was cultured by fermentation of rice with addition of molasses. Randomized block design was used for the greenhouse pot experimentation. Biofertilization potential of IMO was compared with various variations, i.e., single IMO, natural farming inputs and isolated mycoflora. Sunflower treatment with IMO in different variations was done before seed sowing stage by using double concentration at early plantation stage. A remarkable increase in sunflower morphological parameters was indicative of its good remediation potential from the heavy metals contaminated soils. The present results confirm the biofertilization potential of mycoflora–natural farming inputs-based formulation for soil mitigation and crop production. Heavy metal chelation by prepared biofertilizer is a cost-effective, eco-friendly and quick method for sustainable agriculture.
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References
Ahmad KS (2018a) Adsorption evaluation of herbicide iodosulfuron followed by Cedrus deodora sawdust-derived activated carbon removal. Soil Sediment Contam 2018:1–16
Ahmad KS (2018b) Arachis hypogaea activated carbon-assisted removal of 1-(4, 6-dimethoxypyrimidin-2-yl)-3-(3-ethylsulfonylpyridin-2-yl) sulfonylurea herbicide in agriculturally adsorbed soils. Int J Environ Sci Technol 2018:1–12
Ahmad KS (2018c) Sorption and Juglans regia-derived activated carbon-mediated removal of aniline-based herbicide Alachlor from contaminated soils. Environ Earth Sci 77:437–445
Ahmad KS (2018d) Evaluating the adsorption potential of alachlor and its subsequent removal from soils via activated carbon. Soil Sediment Contam 2018:1–18
Ahmad KS (2018e) Exploring the potential of Juglans regia-derived activated carbon for the removal of adsorbed fungicide Ethaboxam from soils. Environ Monit Assess 190:737–744
Ahmad KS, Jaffri SB (2018a) Phytosynthetic Ag doped ZnO nanoparticles: semiconducting green remediators. Open Chem 16:556–570
Ahmad KS, Jaffri SB (2018b) Carpogenic ZnO nanoparticles: amplified nanophotocatalytic and antimicrobial action. IET Nanobiotechnol 2018:1–15
Anastasi A, Varese GC, Voyron S, Scannerini S, Marchisio VF (2004) Characterization of fungal biodiversity in compost and vermicompost. Compost Sci Utiliz 12:185–191
Angelova VR, Akova VI, Artinova NS, Ivanov KI (2013) The effect of organic amendments on soil chemical characteristics. Bulg J Agric Sci 19:958–971
Barker AV, Bryson GM (2006) Comparisons of composts with low or high nutrient status for growth of plants in containers. Commun Soil Sci Plant Anal 37:1303–1319
Choudhary S, Soni AK, Jat NK (2012) Effect of organic and inorganic sources of nutrients on growth, yield and quality of sprouting broccoli cv. CBH-1. Indian J Hortic 69:550–554
Dhanasekar R, Dhandapani R (2012) Effect of biofertilizers on the growth of Helianthus annuus. Int J Plant Anim Environ Sci 2:143–147
Estefan G, Sommer R, Ryan J (2013) Methods of soil, plant, and water analysis: a manual for the west, Asia and North Africa region. ICARDA, Beirut, Lebanon, p 143
Faissal A, Ouazzani N, Parrado JR, Dary M, Manyani H, Morgado BR, Barragan MD, Mandi L (2017) Impact of fertilization by natural manure on the microbial quality of soil: molecular approach. Saudi J Biol Sci 24:1437–1443
Gaind S (2016) Phosphate dissolving fungi: mechanism and application in alleviation of salt stress in wheat. Microbiol Res 193:94–102
Godfray HC, Beddington JR, Crute IR, Haddad L, Lawrence D, Muir JF, Pretty J, Robinson S, Thomas SM, Toulmin C (2010) Food security: the challenge of feeding 9 billion people. Science 327:812–818
Gosal SK, Kaur J (2017) Microbial inoculants: a novel approach for better plant microbiome interactions. In: Kumar V, Kumar M, Sharma S, Prasad R (eds) Probiotics in agroecosystem. Springer, Singapore, pp 269–289
Gupta G, Parihar SS, Ahirwar NK, Snehi SK, Singh V (2015) Plant growth promoting rhizobacteria (PGPR): current and future prospects for development of sustainable agriculture. J Microb Biochem Technol 7:096–102
Guptill AE, Copelton DA, Lucal B (2017) Food and society: principles and paradoxes. Wiley, New York
Henderson G, Cox F, Ganesh S, Jonker A, Young W, Collaborators GR, Abecia L, Angarita E, Aravena P, Arenas GN, Ariza C (2015) Rumen microbial community composition varies with diet and host, but a core microbiome is found across a wide geographical range. Sci Rep 5:14567–14572
Huang L, Xie J, Lv B, Shi X, Li G, Liang F, Lian J (2013) Optimization of nutrient component for diesel oil degradation by Acinetobacter beijerinckii ZRS. Mar Pollut Bull 76:325–332
Ifthikhar S, Ahmad KS, Jaffri SB (2018) Mycodriven enhancement and inherent phytoremediation potential exploration of plants for lithospheric remediation. Sydowia 70:141–153
Iram S, Ahmad I, Javed B, Yaqoob S, Akhtar K, Kazmi MR, Zaman B (2009) Fungal tolerance to heavy metals. Pak J Bot 41:2583–2594
Jaffri SB, Ahmad KS (2017) Augmented photocatalytic, antibacterial and antifungal activity of prunosynthetic silver nanoparticles. Artif Cells Nanomed Biotechnol 2017:1–11
Jaffri SB, Ahmad KS (2018a) Prunus cerasifera Ehrh. fabricated ZnO nano falcates and its photocatalytic and dose dependent in vitro bio-activity. Open Chem 16:141–154
Jaffri SB, Ahmad KS (2018b) Neoteric environmental detoxification of organic pollutants and pathogenic microbes via green synthesized ZnO nanoparticles. Environ Tech 2018:1–12
Jaffri SB, Ahmad KS (2018c) Foliar-mediated Ag: ZnO nanophotocatalysts: green synthesis, characterization, pollutants degradation, and in vitro biocidal activity. Green Proc Synth 2018:1–10
Jaiswal DK, Verma JP, Prakash S, Meena VS, Meena RS (2016) Potassium as an important plant nutrient in sustainable agriculture: a state of the art. In: Meena VS, Maurya BR, Verma JP, Meena RS (eds) Potassium solubilizing microorganisms for sustainable agriculture. Springer, New Delhi, pp 21–29
Kumar A, Maurya BR, Raghuwanshi R, Meena VS, Islam MT (2017a) Co-inoculation with Enterobacter and Rhizobacteria on yield and nutrient uptake by wheat (Triticum aestivum L.) in the alluvial soil under Indo-Gangetic Plain of India. J Plant Growth Regul 36:608–620
Kumar V, Kumar M, Sharma S, Prasad R (eds) (2017b) Probiotics in agroecosystem. Springer, Berlin
Lori M, Symnaczik S, Mäder P, De Deyn G, Gattinger A (2017) Organic farming enhances soil microbial abundance and activity—a meta-analysis and meta-regression. PLoS ONE 12:e0180442
Miransari M (2017) The interactions of soil microbes affecting stress alleviation in agroecosystems. In: Kumar V, Kumar M, Sharma S, Prasad R (eds) Probiotics in agroecosystem. Springer, Singapore, pp 31–50
Mockshell J, Villarino M, Eliza J (2018) Agroecological intensification: potential and limitations to achieving food security and sustainability. Elsevier, Cambridge
Mohammadi K, Sohrabi Y (2012) Bacterial biofertilizers for sustainable crop production: a review. J Agric Biol Sci 7:307–316
Oladele S (2015) Mycorrhizal fungus (Glomus mosseae) inoculation effects on performance and root biomass development of cacao seedlings in the nursery. Agric For 61:69–76
Oladele S, Awodun M (2014a) Influence of mycorrhizae and Rhizobium inoculation on growth, nutrient uptake and proximate composition of upland rice cultivars. J Nat Sci Res 4:24–30
Oladele S, Awodun M (2014b) Response of lowland rice to biofertilizer inoculation and their effects on growth and yield in Southwestern Nigeria. J Agric Environ Sci 3(2):371–390
Prajapati KB, Modi HA (2012) Isolation and characterization of potassium solubilizing bacteria from ceramic industry soil. CIB Tech J Microbiol 1:8–14
Priyadharsini P, Muthukumar T (2016) Interactions between arbuscular mycorrhizal fungi and potassium-solubilizing microorganisms on agricultural productivity. In: Meena VS, Maurya BR, Verma JP, Meena RS (eds) Potassium solubilizing microorganisms for sustainable agriculture. Springer, New Delhi, pp 111–125
Reyes I, Bernier L, Antoun H (2002) Rock phosphate solubilization and colobization of maize rizosphere by wild and genetically modified strains of Pennicilium rugulosum. Microb Ecol 44:39–48
Richardson AE, George TS, Hens M, Simpson RJ (2005) Utilization of soil organic phosphorus by higher plants. In: Turner BL, Frossard E, Baldwin DS (eds) Organic phosphorus in the environment. CABI, Wallingford, pp 165–184
Rosenberg E, Zilber-Rosenberg I (2016) Microbes drive evolution of animals and plants: the hologenome concept. MBio 7:e01395-15
Sahu A, Bhattacharjya S, Mandal A, Thakur JK, Atoliya N, Sahu N, Manna MC, Patra AK (2018) Microbes: a sustainable approach for enhancing nutrient availability in agricultural soils. In: Meena V (ed) Role of rhizospheric microbes in soil. Springer, Singapore, pp 47–75
Sangeeth KP, Bhai RS, Srinivasan V (2012) Paenibacillus glucanolyticus, a promising potassium solubilizing bacterium isolated from black pepper (Piper nigrum L.) rhizosphere. J Spic Aromat Crops 21:118–124
Sarwar N, Imran M, Shaheen MR, Ishaque W, Kamran MA, Matloob A, Rehim A, Hussain S (2017) Phytoremediation strategies for soils contaminated with heavy metals: modifications and future perspectives. Chemosphere 171:710–721
Shah NA, Aujla KM, Ishaq M, Farooq A (2013) Trends in sunflower production and its potential in increasing domestic edible oil production in Punjab, Pakistan. Sarhad J Agric 29:7–13
Sinha RK, Agarwal S, Chauhan K, Valani D (2010) The wonders of earthworms and its vermicompost in farm production: Charles Darwin’s ‘friends of farmers’ with potential to replace destructive chemical fertilizers from agriculture. Agric Sci 1:76–94
Song B, Zeng G, Gong J, Liang J, Xu P, Liu Z, Zhang Y, Zhang C, Cheng M, Liu Y, Ye S (2017) Evaluation methods for assessing effectiveness of in situ remediation of soil and sediment contaminated with organic pollutants and heavy metals. Environ Int 105:43–55
Sruthilaxmi CB, Babu S (2017) Microbial bio-inoculants in Indian agriculture: ecological perspectives for a more optimized use. Agric Ecosyst Environ 242:23–25
Tadesse T, Dechassa N, Bayu W, Gebeyehu S (2013) Effects of farmyard manure and inorganic fertilizer application on soil physico-chemical properties and nutrient balance in rain-fed lowland rice ecosystem. Am J Plant Sci 4:309–315
Thakur N (2017) Organic farming, food quality, and human health: a trisection of sustainability and a move from pesticides to eco-friendly biofertilizers. In: Kumar V, Kumar M, Sharma S, Prasad R (eds) Probiotics in agroecosystem. Springer, Singapore, pp 491–515
Vandana UK, Chopra A, Bhattacharjee S, Mazumder PB (2017) Microbial biofertilizer: a potential tool for sustainable agriculture. In: Panpatte D, Jhala Y, Vyas R, Shelat H (eds) Microorganisms for green revolution, vol 6. Springer, Singapore, pp 25–52
Vishwakarma K, Sharma S, Kumar N, Upadhyay N, Devi S, Tiwari A (2016) Contribution of microbial inoculants to soil carbon sequestration and sustainable agriculture. In: Singh D, Singh H, Prabha R (eds) Microbial inoculants in sustainable agricultural productivity. Springer, New Delhi, pp 101–113
Wu F, Dong M, Liu Y, Ma X, An L, Young JP, Feng H (2011) Effects of long-term fertilization on AM fungal community structure and Glomalin-related soil protein in the Loess Plateau of China. Plant Soil 342:233–247
Yadav SK, Soni R, Rajput AS (2018) Role of microbes in organic farming for sustainable agro-ecosystem. In: Panpatte D, Jhala Y, Shelat H, Vyas R (eds) Microorganisms for green revolution, vol 7. Springer, Singapore, pp 241–252
Zhou W, Ren L, Zhu L (2017) Reducement of cadmium adsorption on clay minerals by the presence of dissolved organic matter from animal manure. Environ Pollut 223:247–254
Acknowledgements
Authors want to acknowledge Fatima Jinnah Women University for the provision of the financial and technical support for completion of the current research. Authors also acknowledge National Agricultural Research Center, Islamabad, Pakistan, for providing information regarding botanical aspect of the research.
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Iftikhar, S., Saleem, M., Ahmad, K.S. et al. Synergistic mycoflora–natural farming mediated biofertilization and heavy metals decontamination of lithospheric compartment in a sustainable mode via Helianthus annuus. Int. J. Environ. Sci. Technol. 16, 6735–6752 (2019). https://doi.org/10.1007/s13762-018-02180-8
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DOI: https://doi.org/10.1007/s13762-018-02180-8