Distribution of Earthworms at Different Habitats in Tangail, Bangladesh and Significantly Impacts on Soil pH, Organic Carbonand Nitrogen
American Journal of Life Sciences
Volume 3, Issue 3, June 2015, Pages: 238-246
Received: May 10, 2015;
Accepted: May 26, 2015;
Published: Jun. 16, 2015
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Iqbal Bahar, Department of Environmental Science and Resource Management, Mawlana Bhashani Science and Technology University, Tangail, Bangladesh
Md. Sarwar Jahan, Institute of Environmental Science, University of Rajshahi, Rajshahi, Bangladesh
Md. Redwanur Rahman, Institute of Environmental Science, University of Rajshahi, Rajshahi, Bangladesh
Distribution of Earthworms at Different Habitats in Tangail District Significantly Impacts on Soil pH, Organic Carbon and Nitrogen. The earthworms were studied on habitat base. Two orders of class Oligochaeta of phylum Annelida: five families, nine genera include fifteen species. The recorded species are Drawida limella Gates 1934, Drawid anepalensis Michaelsen 1907, Glyphidrilus tuberosus Stephenson 1916, Amynthas alexandri Beddard 1900, Lampito mauritii Kinberg 1866, Metaphire houlleti Perrier 1872, Metaphire posthuma Vaillant 1868, Perionyx excavatus Perrier 1872, Perionyx horai Stephenson 1924, Perionyx modestus Stephenson 1922, Perionyx simlaensis Michaelsen 1907, Dichogaster modiglianii Rosa 1896, Dichogaster saliens Beddard 1893, Eutyphoeus gigas Stephenson 1917, Eutyphoeus orientalis Beddard 1883. The Highest number (11) of species was observed in water body adjacent habitat. The lowest number (03) of species was observed in steep habitat. The highest number (10) of species was observed in Gopalpur and Bhuapur upazila and the lowest number (04) of species was observed in Madhupur upazila. The studied parameters of soil were pH, organic carbon (OC) and nitrogen (N).The pH value of soil in the study area was slightly acidic but very close to the neutral status. Organic carbon status of the soil favors the distribution and abundance of earthworm that influence the soil nutrients and fertility. Nitrogen status was recorded under low level marked (0.075 %) in eleven (11) upazila out of twelve (12). The scenario of the soil nutrients OC and N are not up to the mark in the study area. Positive correlation was found between pH value of soil and earthworm species distribution in different habitats. Organic carbon is positively correlated with earthworm distribution. Nitrogen is positively correlated with organic carbon. These correlations establish that soil fertility is an integrated task where the participation of earthworm plays positive role.
Md. Sarwar Jahan,
Md. Redwanur Rahman,
Distribution of Earthworms at Different Habitats in Tangail, Bangladesh and Significantly Impacts on Soil pH, Organic Carbonand Nitrogen, American Journal of Life Sciences.
Vol. 3, No. 3,
2015, pp. 238-246.
W. Michaelsen, Die geographische Verbreitung der Oligochäten, Berlin. Mukherjee, I. N. and Singh, J. 1986. “A comparison of different quadrate size and extraction methods for estimating earthworm population from tropical soils of Varanasi” In: Proc. Nat. Sem. Org. Waste Utiliz. Vermicomp. Part B: Verms and Vermicomposting, (eds. M. C. Dash; B.K. Senapati & P. C. Mishra), School of Life Science, 1986, Sambalpur University, Orissa, India. 23-28 pp.
J. Singh, “Habitat preferences of selected Indian earthworm species and their efficiency in reduction of organic materials” 1997, Soil Biology and Biochemistry, vol. 29, pp. 585-588.
S.A. Bennour and G. A. Nair, “Density and biomass and vertical distribution of Aporrecto deacaliginosa (Savigny, 1826) (Oligochaeta, Lumbricidae) in Benghazi, Libya” 1997, Biology of Fertile Soil, vol. 24, pp 102-105.
J. Scullion, and A. Malik, “Earthworm activity affecting organic matter, aggregation and microbial activity in soils restored after open cast mining for coal” 2000, Soil Biology and Biochemistry, vol. 32, 119-126.
G. Tripathi, and P. Bhardwaj, “Earthworm Diversity and Habitat Preferences in Arid Regions of Rajasthan” 2004, Zoos’ Print Journal, vol. 19, 7, pp. 1515-1519.
C.A. Edwards, and P.J. Bohlen, “Biology and Ecology of Earthworms” 1996, Chapman & Hall, London, 380 p.
S.R. Ganihar, “Earthworm distribution with special reference tophysicochemical parameters” 1996, Proceedings of Indian National Science Academy, vol. 62, pp. 11-18.
I. N. Mukherjee, and J. Singh, “A comparison of different quadrate size and extraction methods for estimating earthworm population from tropical soils of Varanasi” In: Proc. Nat.Sem. Org. Waste Utiliz. Vermicomp. Part B: Verms and Vermicomposting, (eds. M.C. Dash; B. K. Senapati & P. C. Mishra), School of Life Science, 1986, Sambalpur University, Orissa, India. 23-28 pp.
Bangladesh Agricultural Research Council (BARC) “Fertilizer Recommendation Guide” 1997, 25 p.
A. Grappelli, U. Tomati, and G. Palma, “Plant consisting of modular elements for degrading organic wastes by means of earthworms” Patent Entry at Consiglio Nazionale dell Ricerche, Rome (Italy), 1985.
K. E. Lee, “Earthworms: Their Ecology and Relationships with soils and Land use” 1985. Academic Press, Sydney, Australia, 411p.
M.S. Islam, M.S. Amin, and M. N. Anwar, “Integrated soil fertility management in Bangladesh” In: “Proceedings of the Inter-Congress Conference of Commission IV of ISSS on Improving Soil Management for Intensive Cropping in the Tropics and Sub-Tropics”, 1992. ed. By Hussain, M.S., Huq, S.M.I., Iqbal, M.A. and Khan, T. H., 147-156 pp.
A. D. Mackay, J.K. Syers, J. A. Springett, and P. E. H. Gregg, “Plant availability of phosphorous in superphosphate and a phosphate rock as influenced by earthworms” 1982, Soil Biol. Biochem., vol. 14, 281-287.
P. Lavelle, “Earthworm activities and the soil system” 1988, Biol. Fertile Soils, vol. 6, pp. 237-251.
M.S. Jahan, M.N. Pramanik, M.M Sarker and M.R. Rahman, “Production of earthworm Cast and Its Impact on Soil Properties in Bangladesh” 2003. J. Asiat. Soc. Bangladesh, Sci. vol. 29, 1, pp. 133-142.
T. Lewis, and L. R. Taylor, “Introduction to Experimental Ecology” 1979, Academic Press London, 219 pp.
C.A. Edwards, and J. R. Lofty, “Biology of Earthworms” 1977, 2nd ed., Chapman & Hall, London, 333 pp.
J. Stephenson, “Fauna of British India (Oligochaeta): Including Ceylon and Burma” 1923. Tailor & Francis, London, 518 pp.
G.E. Gates, “Burmese Earthworms. An introduction to the systematic and biology of Megadrile Oligochaetes with special reference to Southeast Asia” 1972. Trans. Am. Phil. Soc., NS, vol. 62, 7, pp. 1-326.
J.M. Julka, “Fauna of India: Megadrile: Oligochaeta (earthworms) Haplotaxida: Lumbricina; Megascolecoidae: Octochaetidae” Zoological Survey of India, 1988, Calcutta, India, 400 p.
S. M. H., Kabir, M, Ahmed, A.T.A., Ahmed, A.K.A. Rahman, Z.U. Ahmed, Z.N.T. Begum, M.A. Hasan and M. Khondker, (eds.). “Encyclopedia of Flora and Fauna of Bangladesh, Vol. 16. Annelida, Echinodermata, Acanthocephala and Minor Phyla” 2009, Asiatic Society of Bangladesh, Dhaka. 232pp.
C. Darwin, “The Formation of Vegetable Mould through the Action of Worms, With Observations of their Habits” 1881, Murray, London, 326pp.
A. Zicsi, “Zootische Einflusse auf die Streuzersetzung in Hainbuchen-Eichenwald Ungarns” 1975, Pedobiologia, vol. 15, pp. 432-438.
H.W. Olson, “The earthworms of Ohio” 1928, Ohio Biol. Surv. Bull., vol. 17, pp. 47-90.
A.C. Evansand W. J. M. L. Guild, “Studies on the relationships between earthworms and soil fertility” 1947, J. Biological Studies in the field. Ann. Appl. Biol., vol. 34 pp. 307-330.
R.V. Tamhane, D.P. Motiramani, Y.P. Bali and R.L. Donahue,“Soils Their Chemistryand Fertility in Tropical Asia”1970, Prentice Hall of Indian Private Limited, New Delhi, P. 29 pp.
P. J. Hendrix, B. R. Mueller and R.R. Bruce, “Abundance and distribution of earthworms in relation to landscape factors on the Georgia Piedmont, USA.” 1992, Soil Biol. Biochem., vol. 24, pp. 1357-61.
K.E. Lee, “The role of soil fauna in nutrient cycling. In: Advances in management and conservation of soil fauna” (eds. G. K. Veeresh, D. Rajagopal & C.A. Viraktamath), Oxford & IBH Publishing Co. Pvt. Ltd. 1991, New Delhi, India, pp. 465-472.
E. Blanchart and J. M. Julka, “Influences of forest disturbance on earthworm communities in Western Ghat, South India” 1997, Soil Biology and Biochemistry. Vol. 29, pp. 303-306.
B. Behera, S. Giri, N.C. Dash and B. K. Senapati, “Earthworm bio-indicators of forest land use pattern” 1999, Indian Foresters. 124: 273-281
T. Bhadauria, P.S. Ramakrishnanand K. N. Srivastava, “Diversity and distribution of endemic and exotic earthworms in Biology and Biochemistry” 2000 vol. 32, pp. 2045-2054.