Effects of glyphosate on rhizosphere soil microbial communities under two different plant compositions by cultivation-dependent and -independent methodologies. Mijangos, I., Becerril, J., M., Albizu, I., Epelde, L., & Garbisu, C. Soil Biology and Biochemistry.
abstract   bibtex   
We studied, under two different plant compositions, the short-term effects of glyphosate on rhizosphere soil microbial communities through the utilization of cultivation-dependent and -independent techniques. A short-term pot study was carried out using factorial treatments that included two different compositions of forage plant species (triticale versus a mixture of triticale and pea) and two concentrations of glyphosate (50 and 500 mg active ingredient kg-1 soil, as a commercial formulation, Roundup Plus) arranged in a completely randomized design experiment with four replicates. Control plants (no glyphosate added) were clipped in an attempt to compare two methods of weed control (manual = clipping; chemical = herbicide treatment). Rhizosphere soil was sampled 15 and 30 days after glyphosate treatment and the following soil components were determined: potentially mineralizable nitrogen, ammonium content, community-level physiological profiles using Biolog Ecoplates(TM), DNA microbial biomass and genotype diversity by means of PCR-DGGE. Fifteen days after herbicide treatment, a glyphosate-induced stimulation of the activity and functional diversity of the cultivable portion of the heterotrophic soil microbial community was observed, most likely due to glyphosate acting as an available source of C, N and P. On the other hand, 30 days after herbicide treatment, both the activity and diversity of the rhizosphere soil microbial communities showed an inconsistent response to glyphosate addition. Apart from its intended effect on plants, glyphosate had non-target effects on the rhizosphere soil microbial community which were, interestingly, more enhanced in triticale than in "triticale + pea" pots. Biolog(TM) was more sensitive than PCR-DGGE to detect changes in soil microbial communities induced by glyphosate and plant composition.
@article{
 title = {Effects of glyphosate on rhizosphere soil microbial communities under two different plant compositions by cultivation-dependent and -independent methodologies},
 type = {article},
 identifiers = {[object Object]},
 keywords = {Functional diversity,Genotype diversity,Glyphosate,Herbicide},
 volume = {In Press, },
 websites = {http://www.sciencedirect.com/science/article/B6TC7-4V9RR5F-2/2/a87ef6edab3cce22f13300714bba1fb6},
 id = {12dd1d35-da8c-34e5-8f7c-a53e55407592},
 created = {2012-01-05T13:07:25.000Z},
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 group_id = {0e532975-1a47-38a4-ace8-4fe5968bcd72},
 last_modified = {2012-01-05T13:14:39.000Z},
 tags = {GMO Soil Effects},
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 starred = {false},
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 source_type = {Journal Article},
 abstract = {We studied, under two different plant compositions, the short-term effects of glyphosate on rhizosphere soil microbial communities through the utilization of cultivation-dependent and -independent techniques. A short-term pot study was carried out using factorial treatments that included two different compositions of forage plant species (triticale versus a mixture of triticale and pea) and two concentrations of glyphosate (50 and 500 mg active ingredient kg-1 soil, as a commercial formulation, Roundup Plus) arranged in a completely randomized design experiment with four replicates. Control plants (no glyphosate added) were clipped in an attempt to compare two methods of weed control (manual = clipping; chemical = herbicide treatment). Rhizosphere soil was sampled 15 and 30 days after glyphosate treatment and the following soil components were determined: potentially mineralizable nitrogen, ammonium content, community-level physiological profiles using Biolog Ecoplates(TM), DNA microbial biomass and genotype diversity by means of PCR-DGGE. Fifteen days after herbicide treatment, a glyphosate-induced stimulation of the activity and functional diversity of the cultivable portion of the heterotrophic soil microbial community was observed, most likely due to glyphosate acting as an available source of C, N and P. On the other hand, 30 days after herbicide treatment, both the activity and diversity of the rhizosphere soil microbial communities showed an inconsistent response to glyphosate addition. Apart from its intended effect on plants, glyphosate had non-target effects on the rhizosphere soil microbial community which were, interestingly, more enhanced in triticale than in "triticale + pea" pots. Biolog(TM) was more sensitive than PCR-DGGE to detect changes in soil microbial communities induced by glyphosate and plant composition.},
 bibtype = {article},
 author = {Mijangos, Iker and Becerril, José M and Albizu, Isabel and Epelde, Lur and Garbisu, Carlos},
 journal = {Soil Biology and Biochemistry}
}
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