Modeling Performance of a Tile Drainage System Incorporating Mole Drainage

Tuohy, Patrick; O'Loughlin, J.; Fenton, Owen

doi:10.13031/trans.12203

Cited by 12 publications

(6 citation statements)

References 19 publications

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“…The few articles published deal instead with catchment hydrology mod-eling (Crochemore et al, 2015;Poncelet et al, 2017). Use of the NSE criterion has been detailed more extensively (Moriasi et al, 2007;Ritter and Muñoz-Carpena, 2013;Moriasi et al, 2015); moreover, studies focusing on model calibration using the NSE score in subsurface drainage modeling state that values above 0.5 are considered to be acceptable (Helwig et al, 2002;Tuohy et al, 2018a). Even if a comparison between the NSE and KGE scores is theoretically incorrect and not unequivocal (Criss and Winston, 2008;Knoben et al, 2019), we are assuming herein that the score ranges using the NSE criterion can be transposed to those using the KGE criterion.…”

Section: Numerical Evaluation Criteriamentioning

confidence: 99%

Robustness of a parsimonious subsurface drainage model at the French national scale

Jeantet

Henine

Chaumont

et al. 2021

Hydrol. Earth Syst. Sci.

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Abstract. Drainage systems are currently implemented on agricultural plots subjected to temporary or permanent waterlogging issues. Drained plots account for 9 % of all arable soils in France. As such, the need for accurate hydrological modeling is crucial, especially in an unstable future context affected by climate change. The aim of this paper is to assess the capacity of the SIDRA-RU hydrological drainage model to represent the variability in pedoclimatic conditions within French metropolitan areas and to demonstrate the utility of this model as a long-term management tool. The model is initially calibrated using the KGE′ criterion as an objective function (OF) on a large and unique database encompassing 22 plots spread across France and classified according to three main soil textures (silty, silty–clay, and clayey). The performance of SIDRA-RU is evaluated by monitoring both the set of KGE′ calibration values and the quality of simulations on each plot with respect to high and low discharges, as well as the annual drained water balance. Next, the temporal robustness of the model is assessed by conducting, on selected plots, the split-sample test capable of satisfying the data requirements. Results show that the SIDRA-RU model accurately simulates drainage discharge, especially on silty soils. The performance on clayey soils is slightly weaker than that on silty soils yet remains acceptable. Similarly, the split-sample test indicates that SIDRA-RU is temporally robust on all three soil textures. Consequently, the SIDRA-RU model closely replicates the diversity of French drained soil and could be used for its long-term management potential.

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Section: Numerical Evaluation Criteriamentioning

confidence: 99%

Robustness of a parsimonious subsurface drainage model at the French national scale

Jeantet

Henine

Chaumont

et al. 2021

Hydrol. Earth Syst. Sci.

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“…Mole drains are a semi-permanent system from a layout and operational point of view and are similar to tile drainage. Although costing less than tile drainage, they do require more maintenance (Tuohy et al, 2016, 2018; Dhakad et al, 2018). This drainage system is generally installed to manage rising groundwater levels and land salinization problems (Robinson et al, 1987; Castanheira and Serralheiro, 2010; Kolekar et al, 2014).…”

Section: Soil Managementmentioning

confidence: 99%

“…a blade like bullet with cylindrical foot, or mole plow) through the soil which creates an open channel. The installation cost of mole drainage is low but the moles should be re-formed at approximately 2- to 5-year intervals to uphold the channel integrity and optimize overall performance of the system (Tuohy et al, 2016, 2018). Combined drainage systems (mole and tile drainage) can be used efficiently to simulate water balance and drainage network system over a watershed, and to aid drainage management in a floodplain landscape (Tuohy et al, 2018).…”

Section: Soil Managementmentioning

confidence: 99%

Soil and Crop Management Practices to Minimize the Impact of Waterlogging on Crop Productivity

et al. 2019

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Waterlogging remains a significant constraint to cereal production across the globe in areas with high rainfall and/or poor drainage. Improving tolerance of plants to waterlogging is the most economical way of tackling the problem. However, under severe waterlogging combined agronomic, engineering and genetic solutions will be more effective. A wide range of agronomic and engineering solutions are currently being used by grain growers to reduce losses from waterlogging. In this scoping study, we reviewed the effects of waterlogging on plant growth, and advantages and disadvantages of various agronomic and engineering solutions which are used to mitigate waterlogging damage. Further research should be focused on: cost/benefit analyses of different drainage strategies; understanding the mechanisms of nutrient loss during waterlogging and quantifying the benefits of nutrient application; increasing soil profile de-watering through soil improvement and agronomic strategies; revealing specificity of the interaction between different management practices and environment as well as among management practices; and more importantly, combined genetic, agronomic and engineering strategies for varying environments.

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“…These results point to opportunities for more accurately siting and designing vegetated filter strip buffers for more effective nonpoint-source pollution reduction. Tuohy et al (2018) used the SEEP/W model (GEO-SLOPE, 2012) to evaluate alternative designs for combined mole drain and subsurface tile drainage systems. In fine-texture, low-permeability soils, subsurface tile-only drainage systems may not be adequate for controlling high water table conditions.…”

Section: Modelingmentioning

confidence: 99%

Advances in Drainage: Selected Works from the Tenth International Drainage Symposium

Strock

Hay

Helmers

et al. 2018

Transactions of the ASABE

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Abstract. This article introduces a special collection of fourteen articles accepted from among the 140 technical presentations, posters, and meeting papers presented at the 10th International ASABE Drainage Symposium. The symposium continued in the tradition of previous symposia that began in 1965 as a forum for presenting and assessing the progress of drainage research and implementation throughout the world. The articles in this collection address a wide range of topics grouped into five broad categories: (1) crop response, (2) design and management, (3) hydrology and scale, (4) modeling, and (5) water quality. The collection provides valuable information for scientists, engineers, planners, and others working on crop production, water quality, and water quantity issues affected by agricultural drainage. The collection also provides perspectives on the challenges of increasing agricultural production in a changing climate, with ever-greater attention to water quality and quantity concerns that will require integrated technical, economic, and social solutions. Keywords: ASABE Drainage Symposium, crop response, design and management, hydrology and scale, modeling, water quality.

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Modeling Performance of a Tile Drainage System Incorporating Mole Drainage

Cited by 12 publications

References 19 publications

Robustness of a parsimonious subsurface drainage model at the French national scale

Robustness of a parsimonious subsurface drainage model at the French national scale

Soil and Crop Management Practices to Minimize the Impact of Waterlogging on Crop Productivity

Advances in Drainage: Selected Works from the Tenth International Drainage Symposium

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