An updated review of the efficacy of buffer zones in warm/temperate and cold climates: Insights into processes and drivers of nutrient retention.

Mathieu Nsenga Kumwimba, Jinlou Huang, Mawuli Dzakpasu, Koshila De Silva, Okugbe Ebiotubo Ohore, Fidelis Odedishemi Ajibade, Xuyong Li, Su Jingjun, Diana Kavidia Muyembe, Huang Kaixuan

Journal of environmental management 2023 Jun 15

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The transport of excess nutrients into freshwater systems constitutes a serious risk to both water quality and aquatic health. Vegetated buffer zones (VBZs) next to waterways are increasingly used in many parts of the world to successfully intercept and eliminate pollutants and other materials in overland flow, especially in warm or temperate regions. The major processes for the retention of pollutants in VBZ are microbial degradation, infiltration, deposition, filtration, adsorption, degradation, assimilation, etc. The effectiveness of the VBZ relies on several environmental factors, including BZ width, runoff intensity, slope, soil texture, temperature, vegetation type, etc. Among the reported factors, cold weather possesses the most detrimental impact on many of the processes that VBZ are designed to carry out. The freezing temperatures result in ice formation, interrupting biological activity, infiltration and sorption, etc. In the last twenty years, burgeoning research has been carried out on the reduction of diffuse nutrient pollution losses from agricultural lands using VBZ. Nonetheless, a dearth of studies has dealt with the problems and concerns in cold climates, representing an important knowledge gap in this area. In addition, the effectiveness of VBZ in terms of nutrient removal abilities varies from -136% to 100%, a range that reveals the incertitude surrounding the role of VBZ in cold regions. Moreover, frozen soils and plants may release nutrients after undergoing several freeze-thaw cycles followed by runoff events in spring snowmelt. This review suggests that the management and design of VBZ in cold climates needs close examination, and these systems might not frequently serve as a good management approach to decrease nutrient movement. Copyright © 2023 Elsevier Ltd. All rights reserved.

Citation

Mathieu Nsenga Kumwimba, Jinlou Huang, Mawuli Dzakpasu, Koshila De Silva, Okugbe Ebiotubo Ohore, Fidelis Odedishemi Ajibade, Xuyong Li, Su Jingjun, Diana Kavidia Muyembe, Huang Kaixuan. An updated review of the efficacy of buffer zones in warm/temperate and cold climates: Insights into processes and drivers of nutrient retention. Journal of environmental management. 2023 Jun 15;336:117646