Details

Autor(en) / Beteiligte

• Ulrich, Uta
• Hörmann, Georg
• Unger, Malte
• Pfannerstill, Matthias
• Steinmann, Frank
• Fohrer, Nicola

Titel

Lentic small water bodies: Variability of pesticide transport and transformation patterns

Ist Teil von

• The Science of the total environment, 2018-03, Vol.618, p.26-38

Ort / Verlag

Netherlands: Elsevier B.V

Erscheinungsjahr

2018

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Lentic small water bodies have a high ecological potential as they fulfill several ecosystem services such as the retention of water and pollutants. They serve as a hot spot of biodiversity. Due to their location in or adjacent to agricultural fields, they can be influenced by inputs of pesticides and their transformation products. Since small water bodies have rarely been part of monitorings/campaigns up to now, their current exposure and processes guiding the pesticide input are not understood, yet. This study presents results of a sampling campaign of 10 lentic small water bodies from 2015 to 2016. They were sampled once after the spring application for a pesticide target screening, before autumn application and three times after rainfall events following the application. The autumn sampling focused on the herbicides metazachlor, flufenacet and their transformation products - oxalic acid and - sulfonic acid as representatives for common pesticides in the study region. The concentrations were associated with rainfall before and after application, characteristics of the site and the water bodies, physicochemical parameters and the applied amount of pesticides. The key results of the pesticide screening in spring indicate positive detections of pesticides which have not been applied for years to the single fields. The autumn sampling showed frequent occurrences of the transformation products, which are formed in soil, from 39% to 94% of all samples (n=71). Discharge patterns were observed for metazachlor with highest concentrations in the first sample after application and then decreasing, but not for flufenacet. The concentrations of the transformation products increased over time and revealed highest values mainly in the last sample. Besides rainfall patterns right after application, the spatial and temporal dissemination of the pesticides to the water bodies seems to play a major role to understand the exposure of lentic small water bodies. [Display omitted] •Transformation products of applied in the previous year were clearly detected in the following year.•Parent compounds were measured in the year of application only.•Consistent concentration patterns were observed for metazachlor and for the transformation products but not for flufenacet.•Positives of a pesticide probably present a snapshot, they may originate from former applications at larger distance.•Subsurface inputs are a crucial entry path for pesticides into lentic small water bodies and are not well understood, yet.