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Effects of Faecal Sludge and Food Waste Composts on Seed Germination and Initial Growth Performance of Acacia auriculiformis (A. Cunn. ex Benth.) and Swietenia mahagoni (L.) Jacq.

  • Rahman, Md. Rayhanur (Faculty of Science and Forestry, University of Eastern Finland) ;
  • Hosen, Nowshad Md. Sohrab (Institute of Forestry and Environmental Sciences, University of Chittagong) ;
  • Huda, S.M. Shamsul (Institute of Forestry and Environmental Sciences, University of Chittagong) ;
  • Faraj, Turki Kh. (Prince Sultan Institute for Environmental, Water and Desert Research, and Department of Soil Science, College of Food and Agricultural Sciences, King Saud University)
  • Received : 2020.04.10
  • Accepted : 2020.08.23
  • Published : 2020.12.31

Abstract

The study was conducted to observe the effects of compost of faecal sludge (FSC) and food waste (FWC) on seed germination and initial growth performance of Acacia auriculiformis and Swietenia mahagoni seedlings at the nursery of Chittagong University, Bangladesh. Before sowing the seeds, different combinations of FSC and FWC were incorporated with nutrient-deficient natural forest soils. Seed germination and growth parameters of seedlings were recorded after two, three and four month of seed sowing. We observed that seed germination (%) and seedlings growth parameters varied significantly (p<0.05) in the soil added with FSC and FWC in comparison to control. The highest germination was observed 88.89% for A. auriculiformis in combination of soil and FSC at 3:1 and 92.59% for S. mahagoni where soil combined with FWC at 4:1. The seedling biomass and other growth parameters of A. auriculiformis and S. mahagoni was also observed with combinations of soil with FSC 3:1 and soil with FWC 4:1. Therefore, the study revealed that the compost of both FS and FW can be a good soil conditioner for the initial growth of forest seedlings and the proven combinations can help to grow quality seedlings in the nursery.

Keywords

References

  1. Andersson K, Dickin S, Rosemarin A. 2016b. Towards "Sustainable" Sanitation: Challenges and Opportunities in Urban Areas. Sustainability 8: 1289. https://doi.org/10.3390/su8121289
  2. Andersson K, Rosemarin A, Lamizana B, Kvarnström E, McConville J, Seidu R, Dickin S, Trimmer C. 2016a. Sanitation, Wastewater Management and Sustainability: from Waste Disposal to Resource Recovery. United Nations Environment Programme and Stockholm Environment Institute, Stockholm, pp 156.
  3. Cairns-Smith S, Hill H, Nazarenko E. 2014. Working Paper. Urban Sanitation: Why a Portfolio of Solutions is Needed. Boston Consulting Group, Boston, MA, pp 30.
  4. Dagerskog L, Morgan P, Still D, Ochiro B, Ekane N, Henry L, Harawa K. 2014. Food security in Sub-Saharan Africa-What could be the contribution of productive sanitation? In: Sanitation and hygiene in Africa- where do we stand? ; Analysis from the AfricaSan Conference, Kigali, Rwanda (Cross P, Coombes Y, eds). IWA Publishing, London, pp 67-76.
  5. Darby HM, Stone AG, Dick RP. 2006. Compost and Manure Mediated Impacts on Soilborne Pathogens and Soil Quality. Soil Sci Soc Am J 70: 347-358. https://doi.org/10.2136/sssaj2004.0265
  6. Das KD, Alam MK. 2001. Trees of Bangladesh. Bangladesh Forest Research Institute, Chittagong, 342 pp.
  7. de Araujo ASF, de Melo WJ, Singh RP. 2010. Municipal solid waste compost amendment in agricultural soil: changes in soil microbial biomass. Rev Environ Sci Biotechnol 9: 41-49. https://doi.org/10.1007/s11157-009-9179-6
  8. Diener S, Semiyaga S, Niwagaba CB, Muspratt AM, Gning JB, Mbeguere M, Ennin JE, Zurbrugg C, Strande L. 2014. A value proposition: Resource recovery from faecal sludge- Can it be the driver for improved sanitation? Resour Conserv Recycl 88: 32-38. https://doi.org/10.1016/j.resconrec.2014.04.005
  9. Dutta S, Hossain MK. 2017. Effects of Mixed Plantation on Growth and Biomass Yield of Two Common Plantation Trees of Bangladesh. J For Environ Sci 33: 22-32.
  10. Environmental Protection Agency (EPA). 2017. Reduce, Reuse, Recycle- US EPA. https://www.epa.gov/recycle. Accessed 20 Dec 2019.
  11. Gafur MA, Karim A, Khan MAA. 1979. Phytosociological Studies of Hills of the Chittagong University Campus. Chittagong Univ Stud Part II 3: 11-28.
  12. Gold M, Ddiba DIW, Seck A, Sekigongo P, Diene A, Diaw S, Niang S, Niwagaba C, Strande L. 2017. Faecal sludge as a solid industrial fuel: a pilot-scale study. J Water Sanit Hyg Dev 7: 243-251. https://doi.org/10.2166/washdev.2017.089
  13. Gold M, Niang S, Niwagaba CB, Eder G, Murray MA, Diop PS, Strande L. 2014. Results from FaME (Faecal Management Enterprises)- Can Dried Faecal Sludge Fuel the Sanitation Service Chain? In: 37th WEDC International Conference; Hanoi, Vietnam; Sep 15-19, 2014.
  14. Hamid KBBA, Zainudin MHM, Samah MAA, Yunus K. 2016. Improving Composting Process by Controlling Aeration Time. Int J Appl Chem 12: 130-135.
  15. Hegde M, Palanisamy K, Yi JS. 2013. Acacia mangium Willd.- A Fast Growing Tree for Tropical Plantation. J For Environ Sci 29: 1-14.
  16. Hossain MK. 2015. Silviculture of Plantation Trees of Bangladesh. Arannayk Foundation, Dhaka, pp 361.
  17. Hossain ML, Huda SMS, Hossain MK. 2009. Effects of industrial and residential sludge on seed germination and growth parameters of Acacia auriculiformis seedlings. J For Res 20: 331-336. https://doi.org/10.1007/s11676-009-0056-5
  18. Hossain ML, Salam MA, Rubaiyat A, Hossain MK. 2013. Sewage Sludge as Fertilizer on Seed Germination and Seedling Growth: Safe or Harm. Int J Res Manag 3: 136-146.
  19. Iqbal GMA, Huda SMS, Sujauddin M, Hossain MK. 2007. Effects of sludge on germination and initial growth performance of Leucaena leucocephala seedlings in the nursery. J For Res 18: 226-230. https://doi.org/10.1007/s11676-007-0046-4
  20. Islam MA, Rahman MR, Hossain MK. 2019. Effect of container and potting media on raising quality seedlings of Acacia auriculiformis in the nursery. Asian J Agric 3: 26-32.
  21. Islam MS, Hasan M. 2017. Effect of faecal sludge on cabbage production. Int J Agric Res Innov Technol 7: 43-45. https://doi.org/10.3329/ijarit.v7i1.33320
  22. Jahan MS, Sabina R, Rubaiyat A. 2008. Alkaline Pulping and Bleaching of Acacia auriculiformis Grown in Bangladesh. Turk J Agric For 32: 339-347.
  23. Jorba M, Andres P. 2000. Effects of sewage sludge on the establishment of the herbaceous ground cover after soil restoration. J Soil Water Conserv 55: 322-327.
  24. Keener HM. 2010. Challenges and Opportunities in Composting Organic Waste. In: Climate Change and Food Security in South Asia (Lal R, Sivakumar MVK, Faiz SMA, Mustafizur Rahman AHM, Islam KR, eds). Springer, Dordrecht, pp 295-324.
  25. Labrecque M, Teodorescu TI, Daigle S. 1995. Effect of waste-water sludge on growth and heavy metal bioaccumulation of two Salix species. Plant Soil 171: 303-316. https://doi.org/10.1007/BF00010286
  26. Moya Diaz-Aguado B, Parker A, Sakrabani R. 2017. Maximising the Value of Fertilisers Derived from Source-Separated Human Waste in Antananarivo, Madagascar. In: FSM4 Conference; Chennai, India; Feb 20-22, 2017. pp 93-94.
  27. Osman KT, Rahman MM, Barua P. 2001. Effects of some forest tree species on soil properties in Chittagong University Campus, Bangladesh. Indian For 127: 431-442.
  28. Persson T, Svensson M, Finnson A. 2015. REVAQ Certified Wastewater Treatment Plants in Sweden for Improved Quality of Recycled Digestate Nutrients. IEA Bioenergy Task 37, Stockholm, pp 4.
  29. Rahman MR, Hossain MK. 2019. Optimal Economic Return and Rotation Period of Large Scale Acacia auriculiformis Plantations in Bangladesh. J Biosci Agric Res 20: 1709-1716. https://doi.org/10.18801/jbar.200219.208
  30. Rohini P, Sarani S, Susmita S. 2017. Characteristics of Faecal Sludge Generated from Onsite Systems Located in Devanahalli. In: FSM4 Conference; Chennai, India; Feb 20-22, 2017. pp 89-90.
  31. Selivanovskaya SY, Latypova VZ. 2006. Effects of composted sewage sludge on microbial biomass, activity and pine seedlings in nursery forest. Waste Manage 26: 1253-1258. https://doi.org/10.1016/j.wasman.2005.09.018
  32. Singh S, Mohan RR, Rathi S, Raju NJ. 2017. Technology Options for Faecal Sludge Management in Developing Countries: Benefits and Revenue from Reuse. Environ Technol Innov 7: 203-218. https://doi.org/10.1016/j.eti.2017.02.004
  33. Sujauddin M, Huda SMS, Hoque ATMR. 2008. Household solid waste characteristics and management in Chittagong, Bangladesh. Waste Manage 28: 1688-1695. https://doi.org/10.1016/j.wasman.2007.06.013
  34. van der Wurff AWG, Fuchs JG, Raviv M, Termorshuizen AJ. 2016. Handbook for Composting and Compost Use in Organic Horticulture. (Bio Greenhouse COST Action FA 1105 (www.biogreenhouse.org.)