4.6 Article

Nitrogen Leaching From Agricultural Soils Under Imposed Freeze-Thaw Cycles: A Column Study With and Without Fertilizer Amendment

期刊

FRONTIERS IN ENVIRONMENTAL SCIENCE
卷 10, 期 -, 页码 -

出版社

FRONTIERS MEDIA SA
DOI: 10.3389/fenvs.2022.915329

关键词

winter soil processes; freeze-thaw cycles; agricultural soils; fertilizer application; nutrient leaching

资金

  1. Canada Excellence Research Chair (CERC) program in Ecohydrology
  2. Global Water Futures (GWF) Winter Soil Processes in Transition project under the Canada First Excellence Research Fund
  3. Natural Sciences and Engineering Research Council (NSERC) [GPIN-2015-03801]

向作者/读者索取更多资源

Cold regions are warming faster, with the greatest warming occurring in winter. Warmer winters lead to more frequent soil freezing and thawing, which affects soil processes and water quality. This study found that freeze-thaw cycles caused significant leaching of fertilizer nitrogen, potentially exacerbating nitrogen enrichment in agricultural areas.
Cold regions are warming faster than the rest of the planet, with the greatest warming occurring during the winter and shoulder seasons. Warmer winters are further predicted to result in more frequent soil freezing and thawing events. Freeze-thaw cycles affect biogeochemical soil processes and alter carbon and nutrient export from soils, hence impacting receiving ground and surface waters. Cold region agricultural management should therefore consider the possible effects on water quality of changing soil freeze-thaw dynamics under future climate conditions. In this study, soil column experiments were conducted to assess the leaching of fertilizer nitrogen (N) from an agricultural soil during the non-growing season. Identical time series temperature and precipitation were imposed to four parallel soil columns, two of which had received fertilizer amendments, the two others not. A 15-30-15 N-P-K fertilizer (5.8% ammonium and 9.2% urea) was used for fertilizer amendments. Leachates from the soil columns were collected and analyzed for major cations and anions. The results show that thawing following freezing caused significant export of chloride (Cl-), sulfate (SO42-) and nitrate (NO3-) from the fertilizer-amended soils. Simple plug flow reactor model calculations indicated that the high NO3- concentrations produced during the fertilized soil thawing events were due to nitrification of fertilizer N in the upper oxidized portion of the soil. The very low concentrations of NO3- and ammonium in the non-fertilized soils leachates implied that the freeze-thaw cycles had little impact on the mineralization of soil organic N. The findings, while preliminary, indicate that unwanted N enrichment of aquifers and rivers in agricultural areas caused by fall application of N fertilizers may be exacerbated by changing freeze-thaw activity.

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