Quantification of runoff in laboratory-scale chambers
Autor: | Allan R. Isensee, Ali M. Sadeghi |
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Rok vydání: | 1999 |
Předmět: |
Crop residue
Environmental Engineering Steady state Rain Health Toxicology and Mutagenesis Public Health Environmental and Occupational Health Environmental engineering Reproducibility of Results Agriculture Soil science General Medicine General Chemistry Models Theoretical Pollution Bulk density Soil Pollutants Environmental Chemistry Environmental science Leachate Pesticides Water pollution Surface runoff Intensity (heat transfer) |
Zdroj: | Chemosphere. 38:1733-1744 |
ISSN: | 0045-6535 |
Popis: | Many of the variables that control transport of agrochemicals and pathogens in the field are difficult to measure because parameters such as slope, soil and plant conditions, and rainfall cannot be adequately controlled in the natural environment. This paper describes the design, construction, operation and performance of a system useful for studying surface transport of agrochemicals and pathogens under controlled slope, rainfall and soil conditions. A turntable is used to support and rotate 4 soil chambers under oscillating dripper units capable of simulating rainfall intensities from 1 to 43 mm h-1. Chambers (35 x 100 x 18 cm i.d.) were constructed with an adjustable height discharge gate to collect runoff and three drains to collect leachate. Height adjustable platforms were constructed to support and elevate the chambers up to 20% slope. The chambers were uniformly packed with 35 to 45 kg of soil (bulk density 1.18-1.27 g cm-3) and initially saturated with two low intensity rain events. The coefficient of variation of the rainfall delivery over a range of 5 to 43 mm h-1 averaged 7.5%. An experiment to determine the variability between chambers in runoff amount and uniformity indicated that at least one runoff-equilibration cycle is needed to obtain steady state conditions for conducting runoff transport evaluations. Another experiment conducted to evaluate atrazine [2-chloro-4-(ethylamino)-6-(isopropylamino)-s-triazine] runoff under simulated crop-residue covered vs bare soil conditions indicated six times more runoff from bare than crop residue covered soil. The system is capable of precise application of simulated rain, the simultaneous collection of runoff and leachate at slopes up to 20% and can be easily modified to meet a wide range of research parameters. |
Databáze: | OpenAIRE |
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