J. For. Sci., 2013, 59(6):223-229 | DOI: 10.17221/41/2012-JFS

Earthworm biomass and abundance, soil chemical and physical properties under different poplar plantations in the north of IranOriginal Paper

A. Salehi1, N. Ghorbanzadeh1, E. Kahneh2
1 Department of Forestry, Faculty of Natural Resources, University of Guilan, Sowmehsara, Iran
2 Agricultural and Natural Resource Research Centre of Guilan, Rasht, Iran

We evaluated earthworm abundance and biomass in plantations of different poplar species and clones as well as the effect of some soil chemical and physical properties on them. Even-aged poplar species and clones, planted at Safrabasteh Poplar Research Station about 18 years ago in the north of Iran, included: Populus deltoides Bartr. cv. 69/55 (P. d. 69/55), Populus deltoides Bartr. cv. 63/51 (P. d. 63/51), Populus euramericana Guinier. cv. 45/51 (P. e. 45/51), Populus euramericana Guinier. triplo (P. e. triplo), and Populus caspica Born M. (P. caspica), as endemic and endangered poplar species, were selected in this study. Earthworm abundance and biomass, soil texture, bulk and particle density (BD, PD), pH, organic carbon (OC), total nitrogen (N), available phosphorus (P) and exchangeable potassium (K) were evaluated. The results showed that the earthworm abundance and biomass, OC, P and N in P. d. 63/51 were higher than in the other poplar species and clones. The correlation coefficients showed a positive correlation of OC, N and a negative correlation of pH, clay, BD and P with earthworm biomass. Based on the results, compared to the other species and clones P. d. 63/51 creates favourable conditions to produce more organic matter and higher abundance and biomass of earthworms, hence it could be beneficial for maintaining the soil quality status for successive plantings.

Keywords: soil properties; populus clones; populus caspica; organic carbon; poplar

Published: June 30, 2013  Show citation

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Salehi A, Ghorbanzadeh N, Kahneh E. Earthworm biomass and abundance, soil chemical and physical properties under different poplar plantations in the north of Iran. J. For. Sci. 2013;59(6):223-229. doi: 10.17221/41/2012-JFS.
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    References

    1. Ashja B. (2002): Earth Worm Ecological Group's Relation to with Soil Fertility and Forest Vegetation. Tehran, Tehran University Press: 106. (in Persian)
    2. Augusto L., Ranger J. (2002): Impact of several common tree species of temperate forest on soil fertility. Annals of Forest Science, 59: 233-254. Go to original source...
    3. Ayuke F.O., Karanja N.K., Muya E.M., Musombi B.K., Mungatu J., Nyamasyo G.H.N. (2009): Macrofauna diversity and abundance across different land use systems in Embu, Kenya. Tropical and Subtropical Agroecosystems, 11: 371-384.
    4. Binkley D., Sollins P. (1995): Factors determining in soil pH in adjacent conifer and alder-conifer stands. Soil Science Society of American Journal, 54: 1427-1433. Go to original source...
    5. Black C.A., Evans D.D., White J.L., Ensmiger L.E., Clark F.E. (1965): Methods of Soil Analysis. Madison, American Society of Agronomy-Soil Science Society of America: 231. Go to original source...
    6. Blouin M., Hodson M.E., Delgado E.A., Baker G., Brussaard L., Butt K.R., Dai J., Dendooven L., Peres G., Tondoh J.E., Brun J.J. (2013): A review of earthworm impact on soil function and ecosystem services. European Journal of Soil Science, 64: 161-182. Go to original source...
    7. Bouyoucos C.J. (1962): Hydrometer method improved for making particle-size analysis of soil. Agronomy Journal, 54: 464-465. Go to original source...
    8. Bremner J.M. (1996): Nitrogen-Total. In: Sparks D. (ed.): Methods of Soil Analysis. Madison, American Society of Agronomy-Soil Science Society of America: 1085-1122. soils of the northeastern United States. Applied Soil Ecology, 9: 197-202.
    9. Cuendet G. (1984): A comparative study of the earthworm population of four different woodland types in Wytham woods. Pedobiologia, 26: 421-439. Go to original source...
    10. Dickmann D.I., Stuart K.W. (1983): The Culture of Poplars in Eastern North America. East Lansing, Michigan State University: 168.
    11. Fakharirad M. (2005): Afforest Effect Pinustaeda on Some Physical and Chemical Properties of Soils in West Guilan Province. Guilan, University of Guilan Press: 101. (in Persian)
    12. Fonte S.J., Thaiis W., Six J. (2009): Earthworm populations in relation to soil organic matter dynamics and management in California tomato cropping systems. European Journal of Soil Biology, 4: 206-214. Go to original source...
    13. Fragoso C., Lavelle P. (1992): Earthworm communities in tropical rain forests. Soil Biology and Biochemistry, 24: 1397-1409. Go to original source...
    14. Ghazanshahi M. (1999): Soil and Plant Analysis. Tehran, Motarjem Press: 311. (in Persian)
    15. Guggenberger G., Haumaier L., Thomas R.J., Zech W. (1996): Assessing the organic phosphorous status of an Oxisol under tropical pastures following native savanna using spectroscopy. Biology and Fertility of Soils, 23: 332-339. Go to original source...
    16. Iordache M., Borza I. (2010): Relation between chemical indices of soil and earthworm abundance under chemical fertilization in Romania. Plant, Soil and Environment, 56: 401-407. Go to original source...
    17. Irannejad E., Rahmani R. (2009): Evaluation of earthworm abundance and vertical distribution pattern in some forest types of Shast-Kolateh. Journal of Forest and Wood Products, 62: 145-157.
    18. Jongmans A.G., Pulleman M.M., Balabane M., van Oort F., Marinissen J.C.Y. (2003): Soil structure and characteristics of organic matter in two orchards differing in earthworm activity. Applied Soil Ecology, 24: 219-232. Go to original source...
    19. Kiadaliri S.H. (2003): Study of Populus Plantations on Different Soils in Western Parts of Mazandaran. Tarbiat Modarres, Tarbiat Modarres University Press: 105. (in Persian)
    20. Milleret R., Le Bayon R.C., Gobat J.M. (2009): Root, mycorrhiza and earthworm interactions: their effects on soil structuring processes, plant and soil nutrient concentration and plant biomass. Journal of Plant and Soil, 316: 1-12. Go to original source...
    21. Muys B., Granval P. (1997): Earthworms as bio-indicators of forest site quality. Journal of Soil Biology and Biochemistry, 29: 323-328. Go to original source...
    22. Neher D.A. (1999): Soil community composition and ecosystem process: Comparing agricultural ecosystems with natural ecosystems. Agroforestry Systems, 45: 159-185. Go to original source...
    23. Nicolai V. (1988): Phenolic and mineral contents of leaves influences decomposition in European forests ecosystems. Oecologia, 75: 575-579. Go to original source... Go to PubMed...
    24. Olsen S.R., Cole C.V., Watenabe F.S., Dean L.A. (1954): Estimation of Available Phosphorus in Soil by Extraction with Sodium Bicarbonate. Washington, DC, United States Department of Agriculture: 19.
    25. Rahmani R., Salehrastin N. (2000): Abundance, vertical distribution and seasonal changes in earthworm abundance of oak-hornbeam, hornbeam and beech forests in Neka, Caspian forests, Iran. Iranian Journal of Natural Resource, 53: 37-52.
    26. Salehi A. (2004): Investigate Changes in Soil Physical and Chemical Properties in Connection with the Composition of Tree Cover and Topographic Factors in Namkhaneh section Kheyroodkenar forest. Tehran, Tehran University Press: 187. (in Persian)
    27. Salehi A., Maleki M. (2012): Evaluation of soil physical and chemical properties in poplar plantations in north of Iran. Ecologia Balkanica, 4: 69-76.
    28. Singh B., Sharman K.N. (2007): Tree growth and nutrient status of soil in poplar (Populus deltoides Bartr.) - based agroforestry system in Punjab, India. Agroforestry Systems, 70: 125-134. Go to original source...
    29. Tian G., Olimah J.A., Adeoye G.O., Kang B.T. (2000): Regeneration of earthworm population in a degraded soil by natural and planted fallows under humid tropical conditions. Soil Science Society of America Journal, 64: 222-228. Go to original source...
    30. Walkley A.J., Black C.A. (1934): Estimation of organic carbon by chromic acid titration method. Journal of Soil Science, 37: 29-38. Go to original source...
    31. Welke S.E., Parkinson D. (2003): Effect of Aporrectodea trapezoides activity on seedling, growth of Pseudotsugamenziesii nutrient dynamics and microbial activity in different forest soils. Journal of Forest Ecology and Management, 173: 169-186. Go to original source...
    32. Zou X. (1993): Species effect on earthworm density in tropical tree plantations in Hawaii. Biology and Fertility of Soils, 15: 35-38. Go to original source...
    33. Zou X., Gonzalez G. (1999): Plant and litter influences on earthworm abundance and community structure in a tropical wet forest. Biotropica, 31: 486-493. Go to original source...
    34. Zou X., Gonzalez G. (2002): Earthworms in tropical tree plantation: effects of management and relations with soil carbon and nutrient use efficiency. In: Reddy M.V. (ed.): Managment of Tropical Plantation-Forests and Their Soil Litter System. Enfield, Science Publishers: 289-301.

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