Bacterial diversity in agricultural drainage ditches shifts with increasing urea-N concentrations.

Abstract

Urea-based fertilizers applied to crop fields can enter surface waters of adjacent agricultural drainage ditches and contribute to nitrogen (N) loading to nearby watersheds. Management practices applied in drainage ditches promote N removal by the microbial communities, but little is known about the impacts of excess urea fertilizer from crop fields on the microbial diversity in these ditches. In 2017, sediments from drainage ditches next to corn and soybean fields were sampled to determine if fertilizer application and high urea-N concentrations alters bacterial diversity and urease gene abundances. A mesocosm experiment was paired with a field study to determine which bacterial groups respond to high urea-N concentrations. The bacterial diversity in the ditch next to corn fields was significantly different from the other site. The bacterial orders of Rhizobiales, Bacteroidales, Acidobacteriales, Burkholderiales, and Anaerolineales were most abundant in the ditch next to corn and increased after the addition of urea-N (0.5 mg N L-1) during the mesocosm experiment. The results of our study suggests that urea-N concentrations >0.07 mg N L-1, which are higher than concentrations associated with downstream harmful algal blooms, can lead to shifts in the bacterial communities of agricultural drainage ditches.