The Effects of Management Practices on Soil Biological Properties of Esfahan Agroecosystems

Document Type : Scientific - Research

Authors

Department of Agrotechnology, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran

Abstract

Introduction
In general, management methods applied at the agroecosystems, can affect the population and activity of micro and macro organisms. In high input farms, which use especially large amounts of chemical inputs, it has destructive effects on soil agroecosystems and soil organisms. Soil is an essential component of agricultural systems and the key to soil fertility is to preserve the biodiversity of the soil ecosystem. Microorganisms are the main factor in advancing ecological processes in ecosystems, and soil microbial processes affect the functioning of ecosystems such as nutrient rotation, soil fertility, global carbon change, and soil organic matter recirculation. Organic matter is part of soil that is produced by soil organisms and contains plant and animal remains in different stages of decompositation. This research was conducted in order to evaluate the effects of management practices on earthworms population, microbial respiration and biomass of soils of Esfahan fields an experiment was conducted during 2011-2012.
 
Materials and Methods
In each of 23 county of Esfahan, 6 fields were selected and in order to fields classification, evaluation was conducted using questionnaires and that farmers filled. Within questionnaires, field classification was into three groups (low inputs, medium inputs and high inputs). In the laboratory, each soil sample from the studied farms was examined separately and the number of earthworms in each sample was counted and recorded. In order to evaluate the population and microbial activity, soil carbon and nitrogen were measured by microbial extraction method. Soil samples were extracted in the laboratory and the organic carbon of the extracts was measured using a TOC device and the microbial carbon was calculated.
 
Results and Discussions
Result indicated that soil of low inputs had the highest microbial respiration (30.5 mgCO2.kg-1 soil), biomass (380µg.kg-1 soil) and earthworms population (3 Per kg Soil). Soil of high inputs had the lowest microbial respiration, biomass and earthworms population (18.5 mg CO2 .kg-1 soil, 195µg.kg-1 soil and 0 per kg Soil respectively).
 
Conclusion
According to other studies, in soils where there are plant residues or green manure and cover crops have been used, a high level of earthworm population, biological activity and soil fertility can be maintained. Earthworm populations are effected by structure and soil fertility. Microbial population in low inputs agroecosystems, was higher than medium and high inputs agroecosystems. Thus microbial respiration was higher in low inputs agroecosystems. Earthworms population in low inputs agroecosystems was also higher than medium and high inputs agroecosystems and the reason of high earthworms population was more residual plants in low inputs agroecosystems. Microbial biomass in low inputs agroecosystems higher than medium and high inputs agroecosystems. Reason of microbial biomass decrease in high inputs agroecosystems was application of conventional tillage. According to other studies, crop rotation and soil improvement has important roles in promoting population and soil microbial activity. The results of this study showed that the application of low inputs management methods leads to improved population and activity of soil microbial communities, so replacing chemical inputs with field inputs as a way to promote soil microbial communities. According to other researchers, less soil degradation in low input agroecosystems due to the use of no-tillage or minimum tillage methods leads to improved soil microbial population. The results of similar research indicates that the use of reduced plowing methods strengthens the population of earthworms. On the other hand, the use of pesticides and herbicides as well as the burning of plant debris on the soil surface reduces the population of earthworm. In soils were mulch is used, temperature fluctuations were reduced, which preserves earthworms in the soil.
 
Acknowledgements:
I would like to express my sincere appreciation to all the people who helped me during this research and provided me with the necessary facilities. I would also like to thank the professors and staff of the faculty of agriculture of Ferdowsi University of Mashhad for their cooperation with me.
 

Keywords


Akbari, G.H., Dashti, A., and Alinegadan, H., 2012. Soil Microbiology (Microorganisms and Plants). Tehran University Press, Iran. 328 pp. (In Persian)
Alef, K., 1995. Soil Respiration. In: K. Alef and P. Nannipieri (Eds.), Method in Applied Soil Microbiology and Biochemistry. Academic press, New York, USA: p. 316-318.
Alinegadan, A., 2012. Investigated of water-yield of corn (Zea Mays) in irrigation by wast water and effect on soil properties. Shahrekord University Press. Iran. 158 pp. (In Persian)
Ananyeva, N.D., Susyan, E.A., Chernova, O.V., Chernove, I.Y., and Makarova, O.L., 2006. The ratio of fungi and bacteria in the biomass of different types of soil determined by selective inhibition. Microbiology 6: 807-813.
Bolota, E.L., Filhe, A.C., Andrade, D.S., and Dick, R.P., 2003. Microbial biomass in soils under different tillage and crop rotation systems. Biology. Fertile Soils 38: 15-20.
Curry, J. P., Byrne, D., and Schmidt, O., 2002. Intensive cultivation can drastically reduce Earthworms populations in arable land. European Journal of Soil Biology 38: 127-130.
Dilly, O., Bloem, J., Vos, A., and munch, J. C., 2004. Bacterial diversity during litter decomposition in agricultural soils. Applied Environmental Microbiology 70: 468-474.
Elfstrand, S., 2007. Impact of green manure on soil organisms. With emphasis on microbial community composition and function. Available at: www.mv. Slu.se. forskarutb/av Land.
Gabriel, D., Roschewits, I., Tscharntke, T., and Thies, C., 2006. Beta diversity at different spatial scales: Plant communities in organic and conventional agriculture. Ecological Applications 16: 2011-2021.
Gamfeldt, L., HHillebrand, H., and Jonsson, P.R., 2008. Multiple functions increase the importance of biodiversity for overall ecosystem functioning. Ecology 89: 1223-1231.
Gibson, R.H., Pearce, S., Morris, R.J., Symondson, W.O.C., Memmott, J., 2007. Plant diversity and land use under organic and conventional agriculture: A Whole-farm approach. Apply Ecology. 44: 792-803.
Koocheki, A., Jamialahmadi, M., Kamkar, B., and Mahdavi Damghani, A., 2001. Agricultural Ecology, Ferdowsi University of Mashhad, Mashhad, Iran. 471 pp. (In Persian)
Li, X.G., Wang, Z.F., Ma, Q.F., and Li., F.M., 2007. Crop cultivation and intensive grazing effect organic C pools and aggregate stability in arid grassland. Soil and Tillage Research 95: 172-181.
Lupwayi, N.Z., Clayton, G.W., Odonovanl, J.T., Harker, K.N., Turkington, T.K., and Soon, Y.K., 2005. Nitrogen release during decomposition of crop residue under conventional and zero tillage. Canadian Journal. Science. 86: 11-19.
Mansourzadeh, M., 2009. The effect of eradican herbicid and metalaxyle fungicid on microbial activites of soil. Shahrekord University, Iran. (In Persian with English Summary)
Nannipieri, P., Ascher, J., Ceccherini, M.T., Landi, L., Pietramellara, G., and Renella, G., 2003. Microbial diversity and soil functions.  Soil Science. 54: 655-670.
Nassiri Mahallati, M., Koocheki, A., and Mazaheri, D., 2005. Agrobiodiversity in Iran. Desert 10(1): 32-50 (In Persian with English Summary)
Roberts, P.R., Stockdale, M., Khalid, Z., Iqbal, R., and D.L., Jones. 2009. Carbon-to-nitrogen ratio is a poor predictor of low molecular wight organic nitrogen mineralization in soil. Soil Biology. 41: 1750–1752.
Wardle, D.A., 2002, Communities and Ecosystems: Linking the aboveground and belowground components. Princeton University Press, Oxford. 188 pp.
Yao, H., Bowman, D., andShi, W., 2011. Seasonal variations of soil microbial biomass and activity in warm – and season turfgrass systems. Soil Biology. 84: 1536-1543.
Zak, D.R., William, E.H., David, C.W., Peacock, W.A.D., and David, T., 2003. Plant diversity, soil microbial communities, and ecosystem function: are there any links? Ecology 84(8): 2042-2050.
CAPTCHA Image