Glyphosate, 1,1’- dimethyl-4,4’-bipyridinium dichloride and Atrazine induces changes in Soil organic carbon, bacterial and fungal communities in a tropical alfisol
Abstract
The increasing use of
agrochemicals for weed control has raised concerns about their ecotoxicological
effects on soil micro-biota communities and soil functions which serve as
indicators of soil quality. Thus, this study was conducted to evaluate the
effects of continuous field applied herbicides glyphosate, paraquat, atrazine
and their combined forms over a period of five years on soil organic carbon,
bacterial and fungal population in Akure, Ondo State Nigeria. Soil samples from
farmer’s field which have been exposed to continuous herbicide application were
collected and analysed for physio-chemical properties, organic carbon, total
bacterial and fungal population. Simultaneously, soil samples designated as
control were collected from adjacent fields with no history of herbicide
application and analysed. Results showed a significant (P=0.05) 86% and 128%
increase in bacterial population from glyphosate and atrazine treated fields
respectively and 42% decrease in paraquat and Glyphosate + paraquat fields when
compared with the untreated field. A significant 35% decrease in fungal population
was observed in fields applied with atrazine and a further 10% decrease in
fungal populations in all herbicide treated fields irrespective of herbicide
type and combinations when compared with the untreated field. These changes
also correlates with the abundance of beneficial microbes such as Pseudomonas aeruginosa, Pseudomonas
fluorescens, Proteus mirabilis, Aspergillus flavius with a probable
influence on plant growth promotion and potentials for biodegradation of
persistent herbicides. SOC, SOM and pH was significantly (P=0.05) increased in
atrazine and atrazine + paraquat treated fields when compared with the
untreated fields and other herbicide treatments.
Keywords
References
- Abbas, Z., Akmal, M., Khan, K.S., Hassan, F., 2014. Effect of buctril super (Bromoxynil) herbicide on soil microbial biomass and bacterial population. Brazilian Archives of Biology and Technology 57(1): 9-14.
- Ahmad, I., Malloch, D., 1995. Interaction of soil microflora with the bioherbicide phosphinothricin. Agriculture, Ecosystem and Environment 54(3): 165–174.
- Ahn, I.P., 2008. Glufosinate ammonium-induced pathogen inhibition and defense responses culminate in disease protection in bar-transgenic rice.. Plant Physiology 146(1): 213–227.
- Anderson, J.A., Kolmer, J.A., 2005. Rust control in glyphosate tolerant wheat following application of the herbicide glyphosate. Plant Disease 89(11): 1136–1142.
- Anderson, J.P.E., Armstrong, R.A., Smith, S.N., 1981. Methods to evaluate pesticide damage to the biomass of the soil microflora. Soil Biology and Biochemistry 13(2): 149-153.
- Ayansina, A.D.V., Ogunshe, A.A.O., Fagade, O.E., 2003. Environment impact assessment and microbiologist: An overview. In: Proceedings of 11th Annual National Conference of Environment and Behaviour Association of Nigeria. (EBAN). pp. 26-27.
- Ayansina, A.D.V., Oso, B.A., 2006. Effect of two commonly used herbicides on soil microflora at two different concentrations. African Journal of Biotechnology 5(2): 129-132.
- Baćmaga, M.,Borowik, A.,Kucharski, J.,Tomkiel, M.,Wyszkowska, J., 2015. Microbial and enzymatic activity of soil contaminated with a mixture of diflufenican + mesosulfuron-methyl + iodosulfuron-methyl-sodium. Environmental Science and Pollution Research 22(1): 643–656.
Details
Primary Language
English
Subjects
-
Journal Section
Research Article
Authors
Segun Oladele
This is me
Adekunle Ajasin University, Faculty of Agriculture, Department of Agronomy, Akungba-Akoko, Ondo State, Nigeria
Nigeria
Olatunde Ayodele
This is me
Adekunle Ajasin University, Faculty of Agriculture, Department of Agronomy, Akungba-Akoko, Ondo State, Nigeria
Nigeria
Publication Date
July 1, 2017
Submission Date
August 1, 2016
Acceptance Date
February 7, 2017
Published in Issue
Year 2017 Volume: 6 Number: 3
Cited By
Impact of sulfosate on functional groups of microorganisms of the C and N cycles in the soybean rhizosphere
Agronomy Science and Biotechnology
https://doi.org/10.33158/ASB.2018v4i1p36