Understanding the role of water and tillage erosion from &amp;lt;sup&amp;gt;239+240&amp;lt;/sup&amp;gt;Pu tracer measurements using inverse modelling

Wilken, Florian; Ketterer, Michael E.; Koszinski, Sylvia; Sommer, Michael; Fiener, Peter

doi:10.5194/soil-6-549-2020

Cited by 17 publications

(24 citation statements)

References 68 publications

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“…4.2 ha) in the centre of our study area using 239 + 240 Pu and an inverse modeling analysis. The results showed that soil erosion by water is an order of magnitude lower compared to tillage erosion (Wilken et al, 2020) and, thus, support our findings that tillage erosion and the corresponding patterns in soil properties and plant growth conditions are dominant in this region. It is important to note that in our study, EVI is only a proxy for crop biomass.…”

Section: Methodological Considerationssupporting

confidence: 89%

“…We can safely assume that most of the erosion-related pattern of EVI was not caused by recent erosion (e.g., due to water losses by runoff) but related to long-term soil truncation and colluviation, which modify important soil properties influencing plant growth and crop biomass (e.g., rooting depth, bulk density, water and nutrient availability, etc.). Nevertheless, the modeled erosion patterns served well as proxy variables for long-term soil truncation or colluviation even though they were based on recent data of soil use valid for the last 60 years (Wilken et al, 2020). Most changes in erosion parameters like rain erosivity, cropping sequence, or tillage intensity, which might have happened, would not change the soil redistribution pattern but only the absolute amount.…”

Section: Methodological Considerationsmentioning

confidence: 99%

“…The dramatic increase of sedimentation rates in kettle holes and at footslopes, which was dated on the second half of the 20th century, was related to increasing mechanization of tillage practices (Frielinghaus & Vahrson, 1998;Keller, Sandin, Colombi, Horn, & Or, 2019;Li et al, 2002;Van der Meij et al, 2019). Wilken et al (2020) assessed soil redistribution by tillage and water in a small, representative sub-catchment (ca. 4.2 ha) in the centre of our study area using 239 + 240 Pu and an inverse modeling analysis.…”

Section: Methodological Considerationsmentioning

confidence: 99%

“…The tillage transport coefficient k til depends on the tillage implement, tillage speed, tillage depths, bulk density, texture, and soil moisture at time of tillage (Van Oost, . For our study, we used a constant k til value of 350 kg m À1 yr À1 , which was recently determined for this region (Wilken, Ketterer, Koszinski, Sommer, & Fiener, 2020). As k til only determines the intensity of the calculated erosion rates, the parameterization of k til is not sensitive to the spatial pattern of tillage translocation.…”

Section: Patterns Of Soil Erosionmentioning

confidence: 99%

“…The parameterization of the water erosion module follows Wilken et al (2020) with a k tc value of 150 m, R factor of 450 MJ mm ha À1 hr À1 yr À1 , K factor of 0.027 Mg ha hr ha À1 MJ À1 mm À1 , and P factor of 1.0 (i.e., no erosion control practices). The C factor was calculated for a conventional small grain tillage crop rotation that is typical for the study region (winter rapeseed-winter wheat-winter barley, cultivated without cover crops; Wilken et al, 2018).…”

Section: Patterns Of Soil Erosionmentioning

confidence: 99%

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Tillage erosion as an important driver of in‐field biomass patterns in an intensively used hummocky landscape

et al. 2021

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Tillage erosion causes substantial soil redistribution that can exceed water erosion especially in hummocky landscapes under highly mechanized large field agriculture. Consequently, truncated soil profiles can be found on hill shoulders and top slopes, whereas colluvial material is accumulated at footslopes, in depressions, and along downslope field borders. We tested the hypothesis that soil erosion substantially affects in‐field patterns of the enhanced vegetation index (EVI) of different crop types on landscape scale. The interrelation between the EVI (RAPIDEYE satellite data; 5 m spatial resolution) as a proxy for crop biomass and modeled total soil erosion (tillage and water erosion modeled using SPEROS‐C) was analyzed for the Quillow catchment (size: 196 km2) in Northeast Germany in a wet versus normal year for four crop types (winter wheat, maize, winter rapeseed, winter barley). Our findings clearly indicate that eroded areas had the lowest EVI values, while the highest EVI values were found in depositional areas. The differences in the EVI between erosional and depositional sites are more pronounced in the analyzed normal year. The net effect of total erosion on the EVI compared to areas without pronounced erosion or deposition ranged from −10.2% for maize in the normal year to +3.7% for winter barley in the wet year. Tillage erosion has been identified as an important driver of soil degradation affecting in‐field crop biomass patterns in a hummocky ground moraine landscape. While soil erosion estimates are to be made, more attention should be given toward tillage erosion.

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Section: Methodological Considerationssupporting

confidence: 89%

Section: Methodological Considerationsmentioning

confidence: 99%

Section: Methodological Considerationsmentioning

confidence: 99%

Section: Patterns Of Soil Erosionmentioning

confidence: 99%

Section: Patterns Of Soil Erosionmentioning

confidence: 99%

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Tillage erosion as an important driver of in‐field biomass patterns in an intensively used hummocky landscape

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Tillage Erosion

Blanco,

Lal

2023

Soil Conservation and Management

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10Be and 14C data provide insight on soil mass redistribution along gentle slopes and reveal ancient human impact

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Purpose Spatial and temporal patterns of past erosional events are a useful and needed information to explain observed soil patterns in different landscapes. Soil thickness reflects the overall expression of pedogenesis and erosion. Forested soils of Northern Germany exhibit varying soil thicknesses with thin soils on crest positions and buried soils at the footslope. The aim of this study is to reconstruct the complex soil mass redistribution and soil patterns of this forested area due to different periods of erosion and stability. Methods We explored the explanatory power of both 10Be (in situ and meteoric) on a hillslope and we 14C-dated buried horizons at different depths. Results The 10Be depth profiles did not show an exponential decrease with depth. They had a ‘bulge’ shape indicating clay translocation and interaction with oxyhydroxydes (meteoric 10Be), bioturbation and soil mass redistribution (in situ 10Be). The combined application of both 10Be and 14C dating revealed progressive and regressive phases of soil evolution. Although Melzower Forest is protected (same vegetation) since the past 250 years, both 10Be clearly indicated major soil mass redistribution along the investigated catena. Conclusion A strong erosion impulse must have occurred between 4.5 and 6.8 kyr BP indicating an earlier human impact on soil erosion than previously postulated (~ 3 kyr earlier). Our findings correlate in fact with the first settlements reported for this region (~ 6.8 kyr BP) and show their immediate effect on soils. The overall soil redistribution rates in this forest are surprisingly similar to those obtained from a nearby agricultural area.

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Understanding the role of water and tillage erosion from <sup>239+240</sup>Pu tracer measurements using inverse modelling

Cited by 17 publications

References 68 publications

Tillage erosion as an important driver of in‐field biomass patterns in an intensively used hummocky landscape

Tillage erosion as an important driver of in‐field biomass patterns in an intensively used hummocky landscape

Tillage Erosion

10Be and 14C data provide insight on soil mass redistribution along gentle slopes and reveal ancient human impact

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