Abstract
Organic farming is an important concept toward sustainable development that involves the use of organic input for the production of crops. Biofertilizers such as vermicompost and vermiwash increase the organic matter content necessary for the maintenance of soil properties, which is beneficial for long-term sustainability and crop productivity. Biofertilizers are enriched with micronutrients and beneficial microbes that enhance the soil quality and aid in slow release of nutrients required for the healthy growth of plants. Various small- and large-scale experiments on field crops such as wheat, sugarcane, paddy along with vegetables such as tomato, okra, and eggplant have been successful in terms of productivity and quality of produce. These technologies have also been adopted successfully by food growers across the globe resulting in substantial markets for organic produce. Organic agriculture is still in its infancy in Bangladesh. Very little cultivated land is being used for organic vegetable production, primarily because of lack of consumer awareness and demand. Though demand in-country in developing country is low, exporting certified safe vegetables can add to the country’s economy. Establishing effective and reliable organic vegetable producers in Bangladesh would enable the country to prepare for the potential growing market demand by establishing technology and infrastructure. Such technologies are way forward to sustainable organic farming that contributes to the development in terms of green economy.
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References
Ansari AA (2008) Effect of vermicompost on the productivity of potato (Solanum tuberosum) Spinach (Spinach oleracea) and Turnip (Brassica campestris). World J Agric Sci 4(3):333–336
Ansari AA (2012) Permutations and combinations of organic waste-Vermitechnology. Lambert Academic publishing, Germany, pp 76
Ansari AA, Ismail SA (2001) A case study on organic farming in Uttar Pradesh. J Soil Biol Ecol 27:25–27
Ansari AA, Sukhraj K (2010) Effect of vermiwash and vermicompost on soil parameters and productivity of okra (Abelmoschus esculentus) in Guyana. Pak J Agric Res 23(3–4):137–142
Atlavinyte O, Vanagas J (1973) Mobility of nutritive substances in relation to earthworm numbers in the soil. Pedobiologia 13:344–352
Atlavinyte O, Vanagas J (1982) The effect of earthworms on the quality of barley and rye and grain. Pedobiologia 23:256–262
Borken W, Muhs A, Beese F (2002) Changes in microbial and soil properties following compost treatment of degraded temperate forest soils. Soil Biol Biochem 34:403–412
Buchanan RA, Gliessman SR (1990) The influence of conventional and compost fertilization on phosphorus use efficiency by broccoli in a phosphorus deficient soil. Am J Altern Agric 5:38
Cook AG, Critchley BR, Critchley U (1980) Effects of cultivation and DDT on earthworm activity in a forest soil in the sub-humid tropics. J Appl Ecol 17:21–29
Czerwinski Z, Jakubczyk H, Nowak E (1974) Analysis of sheep pasture ecosystem in the Pieniny Mountains (The Carpathians) XII. The effect of earthworms on pasture soil. Pol J Ecol 22:635–650
De Vleeschauwer D, Lal R (1981) Properties of worm casts under secondary tropical forest regrowth. Soil Sci 132:171–181
Dong A, Chester G, Simsiman GV (1983) Soil dispersibility. J Soil Sci 136:208
Edwards AP, Bremmer JM (1967) Microaggregates in soils. J Soil Sci 18:64
Erich MS, Fitzgerald CB, Porter GA (2002) The effect of organic amendments on phosphorus chemistry in a potato cropping system. Agric Ecosyst Environ 88:79–88
FAO (2011) How to make and use compost in Climate change and food systems resilience in Sub-Saharan Africa. Edn Lim Li Ching Sue Edwards and Nadia El-Hage Scialabba Itally 385–436
Finck A (1952) Ökologische und Bodenkundliche Studien über die Leistungen der Regenwürmer für die Bodenfruchtbarkeit. Z PflErnähr Düng 58:120–145
Hamblin AP (1977) Structural features of aggregates in some East Anglian silt soils. J Soil Sci 28:23
Haynes RJ (1986) The decomposition process mineralization, immobilisation, humus formation and degradation. In: Haynes RJ (eds) Mineral nitrogen in the plant-soil system. Academic Press, NewYork
Haynes RJ, Swift RS (1990) Stability of soil aggregates in relation to organic constituents and soil water content. J Soil Sci 41:73
Ismail SA (1997) Vermicology: the biology of earthworms. Orient Longman Press, Hyderabad, 92 pp
Ismail SA (2005) The Earthworm book. Other India Press, Mapusa Goa, 101 pp
Kale RD (1996) Earthworms-the significant contribution to organic farming and sustainable agriculture. In: Proceeding of national seminar of organic farming and sustainable agriculture, pp 52–57
Kale RD (1998) Earthworm cinderella of organic farming. Prism Book Pvt Ltd, Bangalore, p 88
Kirk JL, Beandette LA, Hart M, Moutoglis P, Klironomos JN, Lee H, Trevors JT (2004) Methods of studying soil microbial diversity. J Microbiol Methods 58:169–188
Krishnamoorthy RV, Vajranabhaiah SN (1986) Biological activity of earthworm casts: an assessment of plant growth promoter levels in the casts. Proc Indian Acad Sci (Anim Sci) 95:341–351
Lalitha R, Fathima K, Ismail SA (2000) Impact of biopesticides and microbial fertilizers on productivity and growth of Abelmoschus esculentus. Vasundhara Earth 1 & 2:4–9
Maynard A (1993) Evaluating the suitability of MSW compost as a soil amendment in field growth tomatoes. Part A: yield of tomatoes. Compost Sci Utilization 1:34
Mishra MM, Banger KC (1986) Rock phosphate comprising: transformation of phosphorus forms and mechanisms of solubilization. Biol Agric Hortic 3:331
Nath G, Singh K, Singh D (2009) Chemical analysis of vermicomposts/vermiwash of different combinations of animal agro and kitchen wastes. Aust J Basic Appl Sci 3(4):3671–3676
Nijhawan SD, Kanwar JS (1952) Physico-chemical properties of earthworm castings and their effect on the productivity of soil. Indian J Agric Sci 22:357–373
Nye PH (1955) Some soil-forming processes in the humid tropics. IV the action of soil fauna. J Soil Sci 6:78
Ouédraogo E, Mando A, Zombré NP (2001) Use of compost to improve soil properties and crop productivity under low input agricultural system in West Africa. Agric Ecosyst Environ 84:259–266
Ozores-Hampton M, Schaffer B, Bryan HH, Hanlon EA (1994) Nutrient concentrations, growth and yield of tomato and squash in municipal solid-waste-amended soil. Hortic Sci 29:785
Pagliai M, Bisdom EBA, Ledin S (1983a) Changes in surface structure (crusting) after application of sewage sludges and pig slurry to cultivated agricultural soils in northern Italy. Geoderma 30:35–53
Pagliai M, LaMarca M, Lucamante G (1983b) Micromorphometric and micromorphological investigations of a clay loam soil in viticulture under zero and conventional tillage. J Soil Sci 34:391–403
Perucci P (1990) Effect of the addition of municipal solid-waste compost on microbial biomass and enzyme activities in soil. Biol Fertil Soils 10:221
Ponomareva SI (1950) The role of earthworms in the creation of a stable structure in ley rotations. Pochvovedenie 476–486
Pramoth A (1995) Vermiwash-A potent bio-organic liquid “Ferticide”. M.Sc dissertation University of Madras, 29 pp
Rajkhowa DJ, Gogoi AK, Kandal R, Rajkhowa KM (2000) Effect of vermicompost on Greengram nutrition. J Indian Soc Soil Sci 48:207–208
Rao NS (1994) Model scheme on financing vermicompost. National Bank Newsl 5:1–5
Rashid SZ (2011) Composting and use of compost for organic agriculture in Bangladesh. In: Proceedings of the 4th international conference for the development of integrated pest management in Asia and Africa, pp 20–22
Raviv M, Zaidman BZ, Kapulnik Y (1998) Compost Sci Utilization 6:46–52
Reganold JP, Palmer AS, Lockhart JC, Macgrogor AN (1993) Soil quality and financial performance of biodynamic and conventional farms in New Zealand. Science 260:344–349
Reganold JP, Glover JD, Andrews PK, Hinman HR (2001) Sustainability of three apple production systems. Nature 410:926–930
Rogaar H, Boswinkel JA (1978) Some soil morphological effects of earthworm activity, field data and X-ray radiography. Neth J Agric Sci 26:145–160
Satchell JE, Martin K (1984) Phosphatase activity in earthworm species. Soil Biol Biochem 16:191
Satchell JE, Martin K, Krishnamoorthy RV (1992) Stimulation of microbial phosphatase production by earthworm activity. Soil Biol Biochem 16:195
Sharma AR, Mittra BN (1991) Effect of different rates of application of organic and nitrogen fertilisers in a rice- based cropping system. J Agric Sci 117:313
Shinde PH, Naik RK, Nazirkar RB, Kadam SK, Khaire VM (1992) Evaluation of vermicompost. In: Proceeding of national seminar of organic farming. MPKV, Pune
Shipitalo MJ, Protz R (1988) Factors influencing the dispersibility of clay in worm casts. Soil Sci Soc Am J 52:764–769
Singh CP, Singh YP, Singh M (1987) Effect of different carbonaceous compounds on the transformation of soil nutrients. II. Immobilization and mineralization of phosphorus. Biol Agric Hortic 4:301
Smith SR (1992) Sewage sludge and refuse composts as peat alternatives for conditioning impoverished soils: effects on the growth response and mineral status of Petunia grandiflora. J Hortic Sci 67:703
Subler S, Edwards CA, Metzer J (1998) Biocycle 39:63–66
Thampan PK (1995) Perspectives on organic agriculture. In: Thampan PK (ed) organic agriculture. Peekay Tree Crops Development Foundation, Cochin, pp 1–38
Tisdale JL, Oades JM (1982) Organic matter and water-stable aggregates in soil. J Soil Sci 33:141
Tiwari SC, Tiwari BK, Mishra RR (1989) Microbial populations, enzyme activities and nitrogen-phosphorus-potassium enrichments in earthworm casts and in the surrounding soil of a pineapple plantation. Biol Fertil Soils 8:178–182
Watanabe H (1975) On the amount of cast production by the megascolecid earthworm Pheretima hupeiensis. Pedobioligia 15:20–28
Woodbury PB (1992) Trace elements in municipal solid waste composts: a review of potential detrimental effects on plants, soil biota, and water quality. Biomass Bioenergy 3:239
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Ansari, A.A., Jaikishun, S., Islam, M.A., Kuri, S.K., Fiedler, K., Nandwani, D. (2016). Principles of Vermitechnology in Sustainable Organic Farming with Special Reference to Bangladesh. In: Nandwani, D. (eds) Organic Farming for Sustainable Agriculture. Sustainable Development and Biodiversity, vol 9. Springer, Cham. https://doi.org/10.1007/978-3-319-26803-3_10
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