Research Article | Published: 01 June 2005

Abundance of collembolans and Mites in Albizia amara based Silvopasture in Bundelkhand

Sharmila Roy, A. K. Srivastav and M. M. Roy

Indian Journal of Forestry | Volume: 28 | Issue: 2 | Page No. 150-155 | 2005
DOI: https://doi.org/10.54207/bsmps1000-2005-5Z34T9 | Cite this article

Abstract

Population build up of soil inhabiting collembolans and mites in Albizia amara based silvopastures was studied. Temporal distribution pattern showed peaks of population build up during August. Lower population build up was observed during March-June. The mites constituted about 82 per cent of the total population, the major group being cryptostigmata (61%) followed by prostigmata (13%) and mesostigmata (8%). A significant negative correlation existed between air temperature and population of cryptostigmata and prostigmata. The various groups of mite and the collembolan population were positively correlated with soil moisture.

Keywords

Access Options

250/-

Buy Full Access in HTML Format

Instant access to the full article.

Get access to the full version of this article. Buy Full Access in HTML Format

Abstract Keywords References About this Article

Fig. 1

Seasonal population built up of micro-arthropods in Albizia amara based silviculture.

References

1. Al-Assiuty, A.I.M.; Bayoumi, B.M.; Khalil, M.A. and Van Straalen, N.M. (1993). The influence of vegetational type on seasonal abundance and species composition of soil fauna at different localities in Egypt. Pedobiologia, 37:210-222.

Google Scholar

2. Anderson, J.M. (1975). Succession, diversity and trophic relationships of some soil animals in decomposing leaf litter. J. Anim. Ecol., 44:475-495. https://doi.org/10.2307/3607

Google Scholar

3. Badejo, M.A.; Obilade, T.O. and Olubakin, B.A. (1997). Spatial distribution and abundance of mites and spring tails under different temperature and moisture regimes in a tropical rain forest floor. Trop. Ecol., 38:31-38.

Google Scholar

4. Bhattacharya, T. and Raychaudhuri, D.N. (1979). Monthly variation in the density of soil microarthropods in relation to ome climatic and edaphic factors. Entomol., 4:313-318.

Google Scholar

5. Darlong, V.T. and Alfred, J.R.B. (1982). Differences in arthropod population structure in soil of forest and jhum sites of North-east India. Pedobiologia, 23:112-119. https://doi.org/10.1016/S0031-4056(23)03611-9

Google Scholar

6. Dogra, D. and Jain, K.L. (1997). Soil moisture dynamics in conserving nutrients through mite-microbe interaction in forest plantations. Indian J. Forest., 21:23-26.

7. Dogra, D.; Jain, K.L. and Mathur, R.B. (1997). Abundance of oribatid mites in a forestry plantation and their relationship to certain soil factors. Indian J. Forest., 21:70-73.

8. Gupta, G.P. and Mukherjee, S.P. (1978). Population fluctuations of soil arthropods in uncultivated field. Indian J. Entomol., 40:63-73.

Google Scholar

9. Haq, M.A. (1984). Biodegradation of cellulose in the gut of Heptacarus hirsutus Wallwork (Acari, Oribatida). In: Acarology VI (eds. D.A. Griffiths & C.E. Bowman). C.E. Ellis Hardwood Ltd., England, pp.m 838-846.

10. Hazra, A.K. (1978). Ecology of collembolan in a deciduous forest floor of Burdwan district (WB) in relation to soil moisture. Oiental Insects, 12:265-274. https://doi.org/10.1080/00305316.1978.10434574

Google Scholar

11. Hazra, A.K. and Sanyal, A.K. (1996). Ecology of collembolan in a periodically inundated newly emerged alluvial island in the river Hooghly, West Bengal. Proc. Zool. Soc., Calcutta, 49:157-169.

Google Scholar

12. Hijii, N. (1987). Seasonal changes in abundance and spatial distribution of the soil arthropods in a Japanese cedar (Cryptomeria japonica D. Don) plantation with special reference to collembolan and acarina. Ecol. Res., 2:159-173. https://doi.org/10.1007/BF02346924

Google Scholar

13. Ishikawa, K.; Shiba, M. and Aoki, J. (1977). Soil mites of a secondary forest of Musasshi-Murayama in the western suburb of Tokyo. In: Biomass of Animals of Terrestrial Ecosystems in Japan (ed. Y. Kitazawa). Rikkyo University, Tokyo: pp. 109-134.

14. Jam, B.S.T.; Yadav, P.S. and Elangbam, J.S. (1986). Population density of soil arthropods in the subtropical forest ecosystems at Shiroy Hill, Manipur. Proc. Nat. Symp. Pesticide Residues and Environmental Pollution (2-4 October 1985 at Muzaffarnagar): pp. 272-288.

Google Scholar

15. Klironomos, J.N. and Kendrick, D. (1995). Relationship among microarthropods, fungi and their environment. Plant and Soil, 170:183-197. https://doi.org/10.1007/BF02183066

Google Scholar

16. Kwak, J.S. and Kil, B.S. (1989). Soil microarthropods at the Kwangyana Experiment Plantation. III. Relationship between soil oribatid mite and vegetation. Korean J. Ecol., 12:191-202.

17. Kwon, Y.R. (1993). Soil microarthropod fauna in plantations of the Korean Pine (Pinus koraiensis). III. Population densities of soil microarthropods. Korean J. Appl. Entomol., 32:168-175.

18. Luxton, M. (1967). The ecology of salt marsh Acarina. J. Anim. Ecol., 36:257-277. https://doi.org/10.2307/2911

Google Scholar

19. Luxton, M. (1981a). Studies on the oribatid mites of a Danish beechwood soil. VI. Seasonal population changes. Pedobiologia, 21:381-403. https://doi.org/10.1016/S0031-4056(23)03600-4

20. Luxton, M. (1981b). Studies on the oribatid mites of a Danish beechwood soil. III. Introduction to the populations. Pedobiologia, 21:301-311. https://doi.org/10.1016/S0031-4056(23)03594-1

21. Luxton, M. (1981c). Studies on the astigmatic mites of a Danish beechwood soil. Pedobiologia, 22:29-38. https://doi.org/10.1016/S0031-4056(23)03673-9

22. Luxton, M. (1983). Studies on the invertebrate fauna of New Zealand peat soils. V. Pasture soils on Kaipaki peat. Pedobiologia, 25:135-148. https://doi.org/10.1016/S0031-4056(23)05917-6

23. Macfayden, A. (1961). Metabolism of soil invertebrates in relation to soil fertility. Ann. Appl. Biol., 49:216-219. https://doi.org/10.1111/j.1744-7348.1961.tb03607.x

Google Scholar

24. McMillan, J.H. (1969). The ecology of the acarine and collembolan fauna of two New Zealand pastures. Pedobiologia, 9:372-404. https://doi.org/10.1016/S0031-4056(23)00534-6

Google Scholar

25. Narula, A.; Vats, I., K. and Handa, S. (1998). Collembola and mites of deciduous forest stand. Indian J. For., 21:147-149.

Google Scholar

26. Nieuenhuizen, V.L.C.; Verster, A.J.M.; Horak, I.G.; Krecek, R.C. and Grimbeek, J.R. (1994). The seasonal abundance of oribatid mites (Acari-Cryptostigmata) on an irrigated Kikuyu grass pasture. Exp. Appl. Acarol., 18:73-86. https://doi.org/10.1007/BF00055032

Google Scholar

27. Pathak, P.S.; Gupta, S.K. and Singh, P. (1995). Rehabilitation of Degraded Lands. IGFRI, Jhansi: p. 23.

28. Prabhoo, N.R. (1976). Soil microarthropods of virgin forest and adjoining tea fields in theWestern Ghats in Kerala. Oriental Insects, 10:435-442. https://doi.org/10.1080/00305316.1976.10432344

Google Scholar

29. Reddy, M.V. (1984a). Ecology of soil and litter inhabiting arthropods. Indian Rev. Life. Sci., 4:169-217.

Google Scholar

30. Reddy, M.V. (1984b). Seasonal fluctuation of different microarthropod population densities in relation to soil moisture and temperature in a pine. Pinus kesiya Royle plantation ecosystem. Intlo. J. Biometeorology, 8:55-59. https://doi.org/10.1007/BF02193515

Google Scholar

31. Reddy, M.V. and Venkataiah, B. (1990). Effect of tree plantation on seasonal community structure of soil microarthropods in a tropical semi-arid Savanna. Trop. Ecol., 31:96-105.

Google Scholar

32. Reddy, M.V.; Reddy, V.R.; Kumar, V.P.K.; Yule, D.F. and Cogle, A.L. (1992). Soil management and seasonal community structure of soil microarthropods in semi-arid tropical alfisols. Proc. Intl. Conf. on Problems in Modern Soil Management (ed. M. Herman). Research Institute of Agroecology and Soil Management, Hrusovany (near Brno), Czechoslovakia: pp. 204-218.

Google Scholar

33. Sarkar, S. (1991). Studies on microarrthropod community in one undisturbed habitat of Tripura with special reference to oribatid mites. In: Advances in management and Conservation of Soil Fauna (eds. G. K. Veeresh, D. Rajagopal and C.A. Viraktamath). Oxford& IBH Publishing Pvt. Ltd., New Delhi: pp. 777-788.

Google Scholar

34. Schenker, R. (1984). Spatial and seasonal distribution patterns of oribatid mites (Acari : Oribatei) in a forest soil ecosystem. Pedobiologia, 27:133-149. https://doi.org/10.1016/S0031-4056(23)05828-6

Google Scholar

35. Schenker, R. (1986). Population dynamics of oribatid mites (Acari: Oribatei) in a forest soil ecosystem. Pedobiologia, 27:133-149. https://doi.org/10.1016/S0031-4056(23)05828-6

Google Scholar

36. Singh, J. and Lal, V.B. (1983). Sampling, extraction and estimation of soil fauna. In: Applied Soil Biology (eds. G. K. Veeresh and D. Rajagopal). Oxford and IBH Publishing Pvt. Ltd., New Delhi: pp. 27-69.

Google Scholar

37. Singh, J.; Mahajan, S.V. and Singh, R.K. (1978). Sampling extraction and precision regarding some statistical studies for population ecology of soil mesofauna. Bull. Entomol., 19:130-145.

Google Scholar

38. Singh, J.; and Mukherjee, S.P. (1973). Population size of soil arthropods in some fields at Varanasi. Sci. & ult., 39:498-500.

Google Scholar

39. Singh, J. and Pillai, K.S. (1975). A study of soil microarthropod communities in some fields. Rev. Ecol. Biol. Sol., 12:579-590.

Google Scholar

40. Sinha, P.B.; Sen, N.S.; Zahidi, A.P. and Naqvi, A.H. (1991). Comparative study on the soil mesofauna in a vegetable garden and a deciduous forest at Ranchi, India. In: Advances in Management and Conservation of Soil Fauna (eds G.K. Veeresh, D. Rajagopal and C.A. Viraktamath). Oxford and IBH Publishing Pvt. Ltd., New Delhi: pp. 419-427.

Google Scholar

41. Steinberger, Y. (1990). Acarofauna of a Nagav Desert Loes Plain. Acarologia 31:313-319.

Google Scholar

42. Takeda, H. (1983). A long term study of life cycles and population dynamics of Tulbergia yosii and Onychiurus decemsetosus (Collembola) in a pine forest soil. Pedobiologia. 25:175-185. https://doi.org/10.1016/S0031-4056(23)05922-X

Google Scholar

43. Usher, M.B. (1969). Some properties of aggrfegations of soil arthropods: Collembola. J. Anim. Ecol., 38: 607-622. https://doi.org/10.2307/3038

Google Scholar

44. Usher, M.B. (1975). Some properties of aggregations of soil arthropods: Cryptostigmata. Pedobiologia, 15:355-363. https://doi.org/10.1016/S0031-4056(23)00057-4

Google Scholar

45. Vats, L.K. (1988). Soil litter arthropods in a deciduous forest stand at Kurukshetra. Indian J. Forest., 11:13-19.

Google Scholar

46. Wallwork, J.A. (1970). Ecology of Soil Animals. McGraw-Hill, New York: p. 283.

Google Scholar

47. Wallwork, J.A. (1983). Oribatids in forest ecosystems. Ann Rev. Entomol., 28:109-130. https://doi.org/10.1146/annurev.en.28.010183.000545

Google Scholar

About this article

How to cite

Roy, S., Srivastav, A.K. and Roy, M.M., 2005. Abundance of collembolans and Mites in Albizia amara based Silvopasture in Bundelkhand. Indian Journal of Forestry, 28(2), pp.150-155. https://doi.org/10.54207/bsmps1000-2005-5Z34T9

Publication History

Manuscript Published on 01 June 2005

Share this article

Anyone you share the following link with will be able to read this content: