期刊论文详细信息
Journal of Environmental Health Science Engineering
Assessment of different organic supplements for degradation of Parthenium hysterophorus by vermitechnology
R Hiranmai Yadav1 
[1] School of Natural Resources Management and Environmental Sciences, College of Agriculture and Environmental Sciences, Haramaya University, Dire Dawa, Ethiopia
关键词: Parthenium;    Weeds;    Vermicompost;    Nutrient content;    Field wastes;    Eisenia fetida;   
Others  :  1216884
DOI  :  10.1186/s40201-015-0203-1
 received in 2013-07-23, accepted in 2015-05-11,  发布年份 2015
【 摘 要 】

Globally, there are a number of treatments indicated for the control of invasive alien plant species like parthenium. The production and use of vermicomposts from weeds or other wastes in agriculture is economical and eco-friendly. The unique advantage of using vermicomposting is that it helps to build and sustain soil condition and fertility for sustainable agricultural activities. The present study was an attempt to produce the vermicompost from Parthenium, farm and animal wastes and to analyze its nutrient content and suitability to be used as manure. The raw materials Parthenium, farm and animal wastes were collected and decomposed by tank method using Eisenia foetida. There were four different treatments in three replications of parthenium mixed with farm wastes and animal manures @10:1:1 ratio. The pH, organic carbon, organic matter, macro and micro nutrients and exchangeable bases were analyzed by standard methods. Addition of different farm and animal wastes helped to degrade the Parthenium and improve the nutrient value. Different treatments have shown improvements in the degraded product in terms of pH, organic carbon, organic matter, macro and micro nutrients and exchangeable bases. The vermicompost was found to have a good quality comparable to any organic manure. The results revealed the economic feasibility of the vermicompost (the organic manure) production as it uses the locally available materials and eco friendly nature of its technology. This methodology can be adopted by farmers to improve the crop productivity and maintain the soil fertility using the locally available organic waste materials.

【 授权许可】

   
2015 Yadav; licensee BioMed Central.

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【 参考文献 】
  • [1]Joshi PC, Chauhan A. Composting of some organic materials using Eisenia foetida and conventional microbial methods: a comparative study. Uttar Pardesh J Zool. 2006; 6:123-5.
  • [2]Angelidaki I, Ahring BK. Co digestion of olive mill waste water with manure, house hold waste or sewage sludge. Biodegradation. 1997; 8:221-6.
  • [3]Atiyeh RM, Lee S, Edwards CA, Arancon NQ, Metzger JD. The influence of humic acids derived from earthworms- processed organic wastes on plant growth. Bioresour Technol. 2002; 84:7-14.
  • [4]Arancon NQ, Edwards CA, Lee S, Byrne R. Effects of humic acids from vermicomposts on plant growth. Eur J Soil Biol. 2006; 46:65-9.
  • [5]Singh KP, Angiras NN. Allelopathic effect of wild sage (Lantana camara L.) compost on wheat and associated weeds under north western Himalayas. J Env Bio-Sci. 2011; 25:91-2.
  • [6]Kumar P, Pant M, Negi GCS. Soil Physico-Chemical Properties and Crop Yield Improvement Following Lantana Mulching and Reduced Tillage in Rainfed Croplands in the Indian Himalayan Mountains. J Sustain Agric. 2009; 33:636-57.
  • [7]Banta G, Dev SP. Field evaluation of nitrogen enriched with phosphocompost prepared from green biomass of Lantana camara in wheat. Indian J Ecol. 2009; 36:39-44.
  • [8]Harris GD, Platt WL, Price BC. Vermicomposting in a rural community. Biocycle. 1990; 31:48-51.
  • [9]Christopher MSM. Recycling of plantation agro-wastes. Planters’ Chron. 1996; 91:53-61.
  • [10]Mathan KK. Impact of biological wastes on soil physical properties and yield of maize and finger millet. Madras Agric J. 2000; 87:618-20.
  • [11]Ramaswami PP. 1997. In: Proc. First International Conference on Parthenium Management, 1: 77–80.
  • [12]Suthar S, Sharma P. Vermicomposting of toxic weed- Lantana camara biomass: chemical and microbial properties changes and assessment of toxicity of ebnd product using seed bioassay. Ecotoxicol Environ Saf. 2013; 95:179-87.
  • [13]Bakthavalsalam R, Geetha T. Reproductive influence of earthworm, Lambito mauriti cultured in different media of paddy chaff and weed plants materials. Environ Ecol. 2004; 22:574-8.
  • [14]Tefera T. Allelopathic effects of Parthenium hysterophorus extracts on seed germination and seedling growth of Eragrotis tef. Blackwell Verlag, Berlin. J Agronomy Crop Science. 2002; 188:306-10.
  • [15]Etana A, Kelbessa E, Soromessa T. Impact of Parthenium hysterophorus L.(Asteraceae) on herbaceous plant biodiversity of Awash National Park(ANP), Ethiopia. Manag Biolog Invasions. 2011; 2:69-80.
  • [16]Anbalagan M, Manivannan S. Assessment of impact of invasive weed Parthenium hysterophorus L. mixed with organic supplements on growth and reproduction preference of Lampito mauritii (Kinberg) through vermitechnology. Int J Environ Biol. 2012; 2:88-91.
  • [17]Walkley A, Black CA. An examination of the Degtiareff method for determining soil organic matter and proposed modification of chromic acid titration method. Soil Sci. 1936; 37:29-38.
  • [18]Humphries EC. Modern methods of plant analysis. Springer-Verlag. 1956; 1:468-502.
  • [19]Jackson ML. Soil chemical analysis. Prentice Hall of India Pvt. Ltd, New Delhi; 1973.
  • [20]Hesse PR. A text book of soil chemical analysis. John Murry (Publishers) Ltd, London, U.K; 1971.
  • [21]Piper CS. Soil and plant analysis. Hans Publishers, Bombay; 1966.
  • [22]Anbalagan M, Manivannan S, Arul Prakasm B. Biomanagement of Parthenium hysterophorus(Asteraceae) using an earthworm, Eisenia fetida(Savigny) for recycling the nutrients. Adv Appl Sci Res. 2012; 3:3025-31.
  • [23]Hiranmai Yadav R, Eyasu M, Vijayakumari B. Bioconversion of Parthenium hysterophorus into valuable organic manure. Proceedings of the National Conference on Science, Technology, and Innovations for Prosperity of Ethiopia, Bahir Dar, Ethiopia, East Africa; 2012.
  • [24]Babu M, Vijaya S, Adinarayana G, Subbaiah KR, Balaguravaiah D, Yellamanda RT. Vermicompost with different wastes and problematic weeds. Indian J Agr Res. 2008; 42:52-6.
  • [25]Sivakumar S, Kasthuri H, Senthilkumar P, Subbhuraam CV, Song YC. Efficiency of composting Parthenium plant and neem leaves in the presence and absence of an oligochaete, Eisenia fetida. Iranian J Environ Health Sci Eng. 2009; 6:201-8.
  • [26]Yadav A, Garg VK. Vermicomposting an effective tool for management of invasive weed Parthenium hysterophorus. Bioresour Technol. 2011; 102:5891-5.
  • [27]Indira S, Koireng RJ, Singh NR. Vermicomposting techniques and nutrient contents of Parthenium based organic manure involving manure worm (Eisenia fetida and Eudrillus eugeniae). Green Farming. 2009; 2:769-70.
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