Soil erosion assessment—Mind the gap

Kim, Jong-Ho; Ivanov, V. Y.; Fatichi, Simone

doi:10.1002/2016gl071480

Cited by 25 publications

(12 citation statements)

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“…Even though erosion research has existed for many decades in most countries of the world, and numerous research papers on erosion have been published, there are still major research gaps (Poesen, ). To address the research gaps of soil erosion assessment, accurate measurements and long‐term observations should be attained (Kim et al, ). In a meta‐analysis of soil erosion rates across the world with more than 4000 sites involving various measurement methods, García‐Ruiz et al () showed that a large proportion of the experiments lasted less than 3 years.…”

Section: Introductionmentioning

confidence: 99%

“…Prasuhn () and Boardman and Evans () also analysed numerous field‐monitoring studies and found very few long‐term studies. Various authors emphasized the high temporal and interannual as well as spatial dynamics and variability and the episodic nature of the triggering processes (García‐Ruiz et al, ; Knox et al, ; Evans and Boardman, , ; Kim et al, ; Fischer et al, ; Batista et al, ; Fiener et al, ; Onnen et al, ). Therefore, they stressed the distinct need for long‐term monitoring studies.…”

Section: Introductionmentioning

confidence: 99%

“…To address the research gaps of soil erosion assessment, accurate measurements and long-term observations should be attained (Kim et al, 2016). In a meta-analysis of soil erosion rates across the world with more than 4000 sites involving various measurement methods, García-Ruiz et al (2015) showed that a large proportion of the experiments lasted less than 3 years.…”

Section: Introductionmentioning

confidence: 99%

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Twenty years of soil erosion on‐farm measurement: Annual variation, spatial distribution and the impact of conservation programmes for soil loss rates in Switzerland

Prasuhn

2020

Earth Surf Processes Landf

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Long‐term field assessments of soil erosion on the landscape scale are very scarce. Such monitoring programmes create sound data regarding severity, extent, frequency and types of soil erosion and the vulnerability of particular crops. In a 20‐year monitoring programme between 1997 and 2017, accurate erosion damage mapping was carried out on 203 fields on arable land in the Canton of Berne (Switzerland). During 115 field inspections, 4060 field years and 2165 mapped erosion systems were recorded. Because several soil conservation programmes were implemented during this period, two 10‐year time periods (1st October 1997 to 30th September 2007 [P1] and 1st October 2007 to 30th September 2017 [P2]) were established and compared. The soil erosion rate was already low in P1 (mean: 0.74 t ha−1 year−1), but decreased significantly in P2 (mean: 0.20 t ha−1 year−1). During P1 and P2, respectively, 12 and 42% of the fields were without any visible erosion. Within 10 years, erosion occurred on each field on average 3.2 times in P1 and only 1.3 times in P2. Soil losses are spatially concentrated and linked to topographically defined pathways (thalwegs, slope depressions) or human‐made flow pathways (wheel tracks, tramlines, headlands). Financial incentives, rising awareness among farmers, innovative contractor farmers and good extension service of cantonal agencies helped conserve 85% of the arable land in the study area with conservation tillage methods by 2015. As a result, soil erosion was significantly reduced. The field‐based measurements show that a significant decrease in soil erosion is possible by changes in soil tillage practices and that erosion control is feasible almost everywhere under real‐life conditions on farmers’ fields. In this respect, the Frienisberg region is a case example of successful erosion control. © 2020 John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Twenty years of soil erosion on‐farm measurement: Annual variation, spatial distribution and the impact of conservation programmes for soil loss rates in Switzerland

Prasuhn

2020

Earth Surf Processes Landf

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“…Real-time forecasting is an important component of flood risk management and mitigation but is subject to multiple uncertainties caused by meteorological inputs, initial states, model structures, and model parameters (Ajami et al, 2007;Beven, 1989;Mockler et al, 2016;Moradkhani & Sorooshian, 2008). Due to the complexities of natural phenomena represented by equifinality (Beven, 2006;Beven & Freer, 2001), hysteresis (Fatichi et al, 2015;Ivanov et al, 2010;Wei & Dewoolkar, 2006), nonuniqueness (Beven, 2000;McKenna et al, 2003;Kim & Ivanov, 2014;Kim, Dwelle, et al, 2016), nonlinearity (Kim & Ivanov, 2015;Kitanidis & Bras, 1980;Xie & Zhang, 2010), and internal variability (Kim et al, 2016a(Kim et al, , 2016bKim et al, 2018;Lafaysse et al, 2014;Mondal & Mujumdar, 2012;Nikiema & Laprise, 2011), perfect predictions using numerical models are infeasible. The problem exacerbates, if one attempts to simulate constitutive models derived from empirical or phenomenological observations rather than basic conservation laws of physics that would also require embracing a large number of parameters.…”

Section: Introductionmentioning

confidence: 99%

A Novel Modeling Framework for Computationally Efficient and Accurate Real‐Time Ensemble Flood Forecasting With Uncertainty Quantification

Tran

Dwelle

Sargsyan

et al. 2020

Water Resources Research

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A novel modeling framework that simultaneously improves accuracy, predictability, and computational efficiency is presented. It embraces the benefits of three modeling techniques integrated together for the first time: surrogate modeling, parameter inference, and data assimilation. The use of polynomial chaos expansion (PCE) surrogates significantly decreases computational time. Parameter inference allows for model faster convergence, reduced uncertainty, and superior accuracy of simulated results. Ensemble Kalman filters assimilate errors that occur during forecasting. To examine the applicability and effectiveness of the integrated framework, we developed 18 approaches according to how surrogate models are constructed, what type of parameter distributions are used as model inputs, and whether model parameters are updated during the data assimilation procedure. We conclude that (1) PCE must be built over various forcing and flow conditions, and in contrast to previous studies, it does not need to be rebuilt at each time step; (2) model parameter specification that relies on constrained, posterior information of parameters (so‐called Selected specification) can significantly improve forecasting performance and reduce uncertainty bounds compared to Random specification using prior information of parameters; and (3) no substantial differences in results exist between single and dual ensemble Kalman filters, but the latter better simulates flood peaks. The use of PCE effectively compensates for the computational load added by the parameter inference and data assimilation (up to ~80 times faster). Therefore, the presented approach contributes to a shift in modeling paradigm arguing that complex, high‐fidelity hydrologic and hydraulic models should be increasingly adopted for real‐time and ensemble flood forecasting.

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“…Under any circumstance and prior to treating soil erosion, assessing its extent and identifying hotspots are required [13,27]. However, this assessment is not an easy task given the heterogeneity and large spatial/temporal variability of its driving factors [28,29], particularly in Mediterranean landscapes [30] that are characterized by a complexity of slope, climate and land occupation factors [10].…”

Section: Introductionmentioning

confidence: 99%

Evaluating Differences of Erosion Patterns in Natural and Anthropogenic Basins through Scenario Testing: A Case Study of the Claise, France and Nahr Ibrahim, Lebanon

Sayah¹,

Nedjaï²,

Abdallah³

et al. 2019

Soil Erosion - Rainfall Erosivity and Risk Assessment

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This study assessed soil erosion risks of two basins representing different geographical, topographical, climatological and land occupation/management settings. A comparison and an evaluation of site-specific factors influencing erosion in the French Claise and the Lebanese Nahr Ibrahim basins were performed. The Claise corresponds to a natural park with a flat area and an oceanic climate, and is characterized by the presence of 2179 waterbodies (mostly ponds) considered as hydro-sedimentary alternating structures, while Nahr Ibrahim represents an orographic Mediterranean basin characterized by a random unequal land occupation distribution. The Claise was found to be under 12.48% no erosion (attributed to the dense pond network), 65.66% low, 21.68% moderate and 0.18% high erosion risks; while Nahr Ibrahim was found to be under 4, 39.5 and 56.4%, low, moderate and high erosion risks, along with 66% land degradation determined from the intersection of land capability and land occupation maps. Under the alternative scenario for the Claise where ponds were considered dried, erosion risks became 1.12, 0.52, 76.8 and 21.56%, no erosion, low, moderate and high risks, respectively. For Nahr Ibrahim, and following the Land Degradation Neutrality intervention, high erosion risks decreased by 13.9%, while low and moderate risks increased by 3 and 10.8%.

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Soil erosion assessment—Mind the gap

Cited by 25 publications

References 69 publications

Twenty years of soil erosion on‐farm measurement: Annual variation, spatial distribution and the impact of conservation programmes for soil loss rates in Switzerland

Twenty years of soil erosion on‐farm measurement: Annual variation, spatial distribution and the impact of conservation programmes for soil loss rates in Switzerland

A Novel Modeling Framework for Computationally Efficient and Accurate Real‐Time Ensemble Flood Forecasting With Uncertainty Quantification

Evaluating Differences of Erosion Patterns in Natural and Anthropogenic Basins through Scenario Testing: A Case Study of the Claise, France and Nahr Ibrahim, Lebanon

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