High prevalence of IncP-1 plasmids and IS1071insertion sequences in on-farm biopurification systems and other pesticide-polluted environments

Abstract: Mobile genetic elements (MGEs) are considered as key players in the adaptation of bacteria to degrade organic xenobiotic recalcitrant compounds such as pesticides. We examined the prevalence and abundance of IncP-1 plasmids and IS1071, two MGEs that are frequently linked with organic xenobiotic degradation, in laboratory and field ecosystems with and without pesticide pollution history. The ecosystems included on-farm biopurification systems (BPS) processing pesticide-contaminated wastewater and soil. Comparis… Show more

“…The very high relative abundances of the promiscuous IncP-1 plasmids detected in the BPS are comparable to those seen with other "hot spots" of horizontal gene transfer such as manure, sewage, or polluted river sediments (39,40). Our data confirm the results of two recent studies using TC-DNA from different BPS which also found an unusually high abundance of IncP-1 plasmids in the BPS (15,37). Interestingly, the abundance of IncP-1 plasmids seemed to be increased in BPS bacteria, likely in response to the exposure to different types and concentrations of pesticides as recently reported by Jechalke et al (14).…”

“…In accordance with previous findings (14,37), we hypothesize that temporal changes in the abundance and diversity of MGEs in an on-farm BPS might be caused by changes in the composition and concentration of the pesticides added to the BPS over the course of the agricultural season. To test our hypothesis and to provide the first more comprehensive view on the mobilome of BPS bacterial communities, cultivation-independent techniques were applied to investigate shifts in the abundance and diversity of the MGEs of bacterial communities of a BPS in operation on a farm in Kortrijk, Belgium, over the course of the agricultural season of 2011.…”

“…high abundance of IncP-1, IncP-7, and IncP-9 plasmids and insertion sequence (IS) elements typically associated with degradative genes (15,37). Here we monitored fluctuations of a range of different plasmids, integrase genes of class 1 and class 2 integrons, and sulfonamide and streptomycin resistance genes at three times during the agricultural season: before the pesticide spraying season (March), at the height of the spraying season (July), and after the spraying season (September).…”

“…BPS act like biofilters in which the filter matrix (biomix) is composed of a mixture of different adsorbing materials, such as peat, straw, and topsoil (2), and contain microorganisms carrying mobile genetic elements (MGEs) that harbor genes involved in biodegradation of xenobiotic compounds (3,37). Although it is well known that biodegradation is the main process in the removal of xenobiotic compounds from the environment (3), abiotic factors such as temperature and concentration of pesticides can substantially influence their degradation (4).…”

“…Specifically, IncP-1 plasmids are highly promiscuous plasmids and were reported to carry genes coding for enzymes involved in degradation of different xenobiotic compounds (10)(11)(12). Correspondingly, it has been observed that prolonged exposure to pesticides enriches for bacterial populations carrying IncP-1 plasmids (13,14,37).…”

Shifts in Abundance and Diversity of Mobile Genetic Elements after the Introduction of Diverse Pesticides into an On-Farm Biopurification System over the Course of a Year

“…The very high relative abundances of the promiscuous IncP-1 plasmids detected in the BPS are comparable to those seen with other "hot spots" of horizontal gene transfer such as manure, sewage, or polluted river sediments (39,40). Our data confirm the results of two recent studies using TC-DNA from different BPS which also found an unusually high abundance of IncP-1 plasmids in the BPS (15,37). Interestingly, the abundance of IncP-1 plasmids seemed to be increased in BPS bacteria, likely in response to the exposure to different types and concentrations of pesticides as recently reported by Jechalke et al (14).…”

“…In accordance with previous findings (14,37), we hypothesize that temporal changes in the abundance and diversity of MGEs in an on-farm BPS might be caused by changes in the composition and concentration of the pesticides added to the BPS over the course of the agricultural season. To test our hypothesis and to provide the first more comprehensive view on the mobilome of BPS bacterial communities, cultivation-independent techniques were applied to investigate shifts in the abundance and diversity of the MGEs of bacterial communities of a BPS in operation on a farm in Kortrijk, Belgium, over the course of the agricultural season of 2011.…”

“…high abundance of IncP-1, IncP-7, and IncP-9 plasmids and insertion sequence (IS) elements typically associated with degradative genes (15,37). Here we monitored fluctuations of a range of different plasmids, integrase genes of class 1 and class 2 integrons, and sulfonamide and streptomycin resistance genes at three times during the agricultural season: before the pesticide spraying season (March), at the height of the spraying season (July), and after the spraying season (September).…”

“…BPS act like biofilters in which the filter matrix (biomix) is composed of a mixture of different adsorbing materials, such as peat, straw, and topsoil (2), and contain microorganisms carrying mobile genetic elements (MGEs) that harbor genes involved in biodegradation of xenobiotic compounds (3,37). Although it is well known that biodegradation is the main process in the removal of xenobiotic compounds from the environment (3), abiotic factors such as temperature and concentration of pesticides can substantially influence their degradation (4).…”

“…Specifically, IncP-1 plasmids are highly promiscuous plasmids and were reported to carry genes coding for enzymes involved in degradation of different xenobiotic compounds (10)(11)(12). Correspondingly, it has been observed that prolonged exposure to pesticides enriches for bacterial populations carrying IncP-1 plasmids (13,14,37).…”

Shifts in Abundance and Diversity of Mobile Genetic Elements after the Introduction of Diverse Pesticides into an On-Farm Biopurification System over the Course of a Year

Establishment of multiple pesticide biodegradation capacities from pesticide‐primed materials in on‐farm biopurification system microcosms treating complex pesticide‐contaminated wastewater

The History of Cupriavidus metallidurans Strains Isolated from Anthropogenic Environments