Details

Autor(en) / Beteiligte

• Grando, Douglas Luiz
• Gatiboni, Luciano Colpo
• Dall'Orsoletta, Daniel João
• Schmitt, Djalma Eugênio
• Mumbach, Gilmar Luiz
• Souza Junior, Abelino Anacleto de
• Brignoli, Fernando Marcos

Titel

Development and validation of a siphoning prototype for surface runoff evaluation

Ist Teil von

• Journal of environmental quality, 2021-09, Vol.50 (5), p.1246-1253

Erscheinungsjahr

2021

Quelle

Wiley Online Library All Journals

Beschreibungen/Notizen

• The degradation of soil and water quality encourages research to assess the effects of rainfall on the losses of soil and chemical elements that result from surface runoff. In seasons of high surface runoff, the collectors must support the total volume drained or allow its correct estimation to avoid misinterpretation of the data. The present investigation aimed to develop and validate a compact and low‐cost system to quantify surface runoff, sediments, and chemical elements losses using the bucket‐siphon sampler system (BS3) siphoning method. The tests performed within the system used the runoff collected in a Nitisol or solutions constructed at the laboratory through mixing soil (i.e., Nitisol or Cambisol) with tap water. The BS3 method was efficient in estimating the total volume of water runoff and the concentration of sediments and P in the surface runoff. The maximum flow rate supported by the BS3 method, as presented here, is 0.035 L s–1, which considering a 10‐m² plot is equivalent to 12.6 mm h–1. Due to the craft characteristics of the system, we recommend the calibration of each unit built to obtain a precise ratio between the volume stored and discarded by the siphoning. The prototype developed here is suitable for quantifying runoff volume, sediment, and P losses in field plots and has been manufactured under US$15.00. Core Ideas The system provides measurement of runoff volume, sediment, and P concentrations. The new system allows increasing the runoff volume of storage. It allows a reduction in the number of field visits during the rainy season. The system has a low cost of manufacturing. The system needs individual calibration for each situation where it will be applied.