Assessing the Population and live weight of earthworms affected by chemical and organic fertilizers in the soil of an orchard

Document Type : Complete scientific research article

Authors

1 Environment department, Natural resources faculty, Tehran university, Iran

2 Department of Environment, Faculty of Natural resources, Tehran university, Karaj, Iran

3 Department of Environment, Faculty of Natural Resources, Tehran University, Karaj, Iran

Abstract

Background and Objectives: Earthworms, due to their beneficial role in agroecosystems, are used as indicator species for monitoring the impact of pollutants, changes in soil structure and agricultural practices. The purpose of this study was to investigate the impact of chemical fertilizers management on the density and live weight of earthworms in the soil of an orchard.
Materials and methods: Research was carried out in an orchard in Isfahan province. One square meter area was considered as experimental plot. After plowing and grooving at a depth of 5 centimeters per plot, common fertilizers were applied, based on the soil test. Chemical fertilizers such as urea, ammonium sulfate, diammonium phosphate, solupotas, NPK (15, 5, 25), zinc chelate, iron chelate and cow manure were used as experimental treatments with control (no fertilizer). Abundance and live weight of worms were evaluated in two stages of time and in 2 depths of 0-20 and 20-40 cm of soil. In the first stage, 20 days after the addition of fertilizers, and in the second stage, 60 days after fertilization, earthworms were sampled and their number and biomass changes were measured. Treatments were applied in three replications and the data were analyzed using two-way ANOVA (using the GLM process) by SPSS software. In addition, the means were tested with the least significant difference (LSD) at the probability level of 5%.
Results: The assessment of the worms was accomplished at two different depths and at two different times. Sampling in 20th day of experiment showed that at soil depths of 0-20 cm, urea, ammonium sulfate, diammonium phosphate, macro fertilizer NPK and iron chelate had significant negative effect on the abundance and weight of earthworms (p≤0.05). Meanwhile, cow manure (OM) and NPK+OM treatments increased the population and biomass of earthworms. In the depth of 20 to 40 cm, the negative role of urea, ammonium sulfate, diammonium phosphate, NPK fertilizer and iron chelate was decreased, and the NPK+OM maintained its positive role. On the 60th day of sampling, at 0-20 cm depth, urea, ammonium sulfate, diammonium phosphate and iron fertilizer reduced the population and biomass of worms in the soil. However, NPK+OM, OM and zinc chelate (Zn) treatments increased the number of earthworms. At a lower depth (20-40 cm) on the 60th day, the earthworm population was not affected by any of the inorganic fertilizers and nitrogen and phosphate fertilizers not only had no negative effect on the activity of earthworms but also significantly increased their biomass (p≤0.05).
Conclusion: The results showed that chemical fertilizers could have a significant effect on soil organisms, including earthworms. These effects could vary according to the nature and extent of fertilization, as well as the depth of fertilizer usage. Accordingly, in order to reduce the negative effects of chemical fertilizers on soil organisms, it is advisable to reduce their application in shallow soils and when applying, organic fertilizers should be used along with chemical fertilizers.

Keywords


1.Abbiramy, K., and Ross, P.R. 2013. Determination of acute toxicity of NPK fertilizers to
Eisenia foetida using a simple paper contact method. Int. J. Sci. Res. 2: 2. 415-417.
2.Aira, M., Monroy, F., and Dominguez, J. 2006. C to N ration strongly affects population
structure of Eisenia fetida in vermicomposting systems. Eur. J. Soil Biol. 42: 127-131.
3.Anderson, J.R. 1978. Pesticide effects on non-target soil microorganisms. P 303-313,
In: Pesticides Microbiology, I.R. Hill and S.J.L. Wright (eds.) Academic Press, London.
4.Anderson, J.M., Ineson, P., and Huish, S.A. 1983. Nitrogen and cation mobilization by soil
fauna feeding on leaf litter and soil organic matter from deciduous woodlands. Soil Biol.
Biochem. 15: 463-467.
5.Asawalam, D. 2006. Influence of cropping intensity on the production and properties of
earthworm casts in a Leucaena alley cropping system. Biol. Fertil. Soils. 42: 506-512.
6.Benton, J. 1999. Soil Analysis Handbook of Reference Methods. CRC Press Reference. 264p.
7.Bhattacharya, A., and Sahu, SK. 2014. Lethal effect of urea on soil biota: a laboratory study
on earthworm (Drawida willsi), J. Biodiv. Environ. Sci. 4: 6. 64-72.
8.Bhattacharya, A., and Sahu S.K. 2014. Acute toxicity of NPK fertilizer on soil ecosystem
using earthworm, Drawida willsi as a test specimen, Int. J. Adv. Pharm. Biol. Chem.
5: 3. 233-238.
9.Blakemore, R.J. 2002. Cosmopolitan Earthworms. An Eco-Taxonomic Guide to the Peregrine
Species of the World. (First CD Edition). Vermecology, PO BOX 414 Kippax, ACT 2615,
Australia. 426p.
10.Bunemann, E.K., Schwenke, GD., and Zwieten, LV. 2006. Impacts of agricultural inputs on
soil organisms-a review. Austr. J. Soil Res. 44: 4. 379-406.
11.Curry, J.P. 1976. Some effects of animal manures on earthworms in grassland.
Pedobiologica, 16: 425-438.
12.Curry, J.P., Doherty, P., Purvis, G., and Schmidt. O. 2008. Relationship between earthworm
populations and management intensity in cattle-grazed pastures in Ireland. Applied Soil
Ecology. 39: 1. 58-64.
13.Dash, M.C. 1978 .Role of earthworms in decomposer system. P 309-406, In: Glimpses of
Ecology. J. S. Singh and B. Gopal (eds). International Scientific Publishers, New Delhi.
14.Edwards, C.A., and Bohlen, P.J. 1992. The effects of toxic chemicals on earthworms.
Rev. Environ. Contam. Toxicol. 125: 23-99.
15.Edwards, C.A., and Lofty, J.R. 1982. Nitrogenous fertilizers and earthworm populations in
agricultural soils. Soil Biol. Biochem. 14: 515-521.
16.Edwards, C.A., Bohlen, P.J., Linden, D.R., and Subler, S. 1995. Earthworms and sustainable
land use. In: Hendrix, P.F. (ed.), Earthworm Ecology and Biogeography in North America.
CRC Press, Boca Raton, FL, Pp: 215-231.
17.Edwards, C.A., and Bohlen, P.J. 1996. Biology and Ecology of Earthworms. Chapman &
Hall, London. 426p.
18.Estevez, B., Dayegamiye, A., and Coderre, D. 1996. The effect of earthworm abundance and
selected soil properties after 14 years of solid cattle manure and NPKMg fertilizer
application. Can. J. Soil Sci. 76: 351-355.
19.Gerard, B.M., and Hay, R.K.M. 1979. The effects on earthworms of ploughing cultivation,
direct drilling and nitrogen cultivation in a barley monoculture system. J. Agric. Sci.
93: 147-155.
20.Hamidian, A.H., and Yahyaabadi, M. 2017. Application of bioindicators in soil ecosystem
health monitoring (with emphasis on earthworms). J. Land Manage. 3: 2. 141-152.
(In Persian)
21.Hendrix, P.J., Muller, B.R., and Bruce, R. 1992. Abundance and distribution of earthworms
in relation to landscape factors. Soil Biol. Biochem. 24: 1357-1361.
22.Jordan, D., Miles, R.J., Hubbard, V., and Lorenz, T. 2004. Effect of management practices
and cropping systems on earthworm abundance and microbial activity in sanborn field:
a 115-year-old agricultural field. Pedobiologia. 48: 2. 99-110.
23.Lee, KE. 1985. Earthworms, their ecology and relationship with soils and land use. Acad.
Press, Australia. 411p.
24.Liyue, G., Guanglei, W.U., Yong, Li., and Caihong, Li. 2016. Effects of cattle manure
compost combined with chemical fertilizer on topsoil organic matter, bulk density and
earthworm activity in a wheat–maize rotation system in Eastern China. Soil and Tillage
Research. 156: 140-147.
25.Lofs-Holmin, A. 1983. Influence of agricultural practices on earthworms (Lumbricidae).
Acta Agric. Scand. 33: 225-334.
26.Marhan, S., and Scheu, S. 2005. The influence of mineral and organic fertilizers on the growth
of the endogeic earthworm Octolasion tyrtanum (Savigny). Pedobilogia. 49: 3. 239-249.
27.Parthasarathi, K., Ranganathan, L.S., Anandi, V., and Zeye, J. 2007. Diversity of microflora
in the gut and casts of tropical composting earthworms reared on different substrates.
J. Environ. Biol. 28: 1. 87-97.
28.Potter, D.A., Bridges, B.L., and Gordon, F.C. 1985. Effect of N fertilization on earthworm
and microarthropod populations in microarthropod populations in Kentucky bluegrass turf.
Agron. J. 77: 367-372.
29.Rai, N., Ashya, P., and Rathore, D.S. 2014. Comparative Study of the Effect of Chemical
Fertilizers and Organic Fertilizers on Eisenia foetida. Inter. J. Innov. Res. Sci. Engin.
Technol. 3: 5. 12991-12998.
30.Romig, D.E., Garlynd, M.J., and Harris, R.F. 1996. Farmer-based assessment of soil quality:
a soil health scorecard. P 39-59. In: Doran, J.W., Jones, A.J. (Eds.), Methods for Assessing
Soil Quality. Soil Science Society of America, Madison, WI.
31.Scullion, J., and Mohammed, A.R.A. l99l. Effects of sub soiling and associated incorporation
of fertilizer on soil rehabilitation after opencast mining for coal. J. Agric. Sci. 116: 265-273.
32.Slater, C.S. 1984. Earthworms in relation to agriculture, U.S.D.A. 212p.
33.Syers, J.K., and Springett, J.A. 1984. Earthworms and soil fertility. Plant and Soil,
76: 1-3. 93-104.
34.Tindaon, F., Benckiser, G., and Ottow, J.C.G. 2011. Side effects of nitrification on
non-target microbial processes in soils. J. Trop. Soil. 16: 1. 7-16.
35.Whalen, J.K., Parmelee, R.W., and Edwards, C.A. 1998. Population dynamics of earthworm
communities in corn agroecosystems receiving organic or inorganic fertilizer amendments.
Biology and Fertility of Soils, 27: 400-407.
36.Wyszkowska, J., Borowik, A., Kucharski, M., and Kucharski, J. 2013. Effect of cadmium,
copper and zinc on plants, soil microorganisms and soil enzymes. J. Elem. 18: 4. 769-796.
37.Yahyaabadi, M. 2013. Worms eat my garbage. Nosooh publication. Iran. 176p.
(Translated in Persian)
38.Zajonc, I. 1975. Variation in meadow associations of earthworms caused by the influence of
nitrogen fertilizers and liquid manure irrigation. Proceedings 5th Int. Colloquium in soil
zoology, Prague. Pp: 497-503.
39.Zhang, Z.S., and Zheng, D.M. 2009. Bioaccumulation of total and methyl mercury in three
earthworm species (Drawida sp., Allolobophora sp., and Limnodrilus sp.). Bull. Environ.
Contam. Toxicol. 83: 937-942.