Estimating Non-Sustainable Soil Erosion Rates in the Tierra de Barros Vineyards (Extremadura, Spain) Using an ISUM Update

[1]  Artemi Cerdà,et al.  The effect of patchy distribution ofStipa tenacissimaL. on runoff and erosion , 1997 .

[2]  S. Sadeghi,et al.  Plot sizes dependency of runoff and sediment yield estimates from a small watershed , 2013 .

[3]  Manuel López-Vicente,et al.  Soil and Water Conservation in Rainfed Vineyards with Common Sainfoin and Spontaneous Vegetation under Different Ground Conditions , 2018, Water.

[4]  J. García‐Ruiz,et al.  The effects of land uses on soil erosion in Spain: A review , 2010 .

[5]  Francisco J. Moral,et al.  Application of climatic indices to analyse viticultural suitability in Extremadura, south-western Spain , 2015, Theoretical and Applied Climatology.

[6]  F. F. Pruski,et al.  Expected climate change impacts on soil erosion rates: A review , 2004 .

[7]  Pijl,et al.  Design of Terrace Drainage Networks Using UAV-Based High-Resolution Topographic Data , 2019, Water.

[8]  S. Keesstra,et al.  Connectivity assessment in Mediterranean vineyards using improved stock unearthing method, LiDAR and soil erosion field surveys , 2018 .

[9]  F. J. Rebollo,et al.  A GIS-based multivariate clustering for characterization and ecoregion mapping from a viticultural perspective , 2016 .

[10]  V. Chaplot,et al.  Field measurements of interrill erosion under ­different slopes and plot sizes , 2000 .

[11]  M. Nichols,et al.  Slope–Velocity–Equilibrium and evolution of surface roughness on a stony hillslope , 2017 .

[12]  Eugenio Cavallo,et al.  Long-term monitoring of soil management effects on runoff and soil erosion in sloping vineyards in Alto Monferrato (North–West Italy) , 2016 .

[13]  Panos Panagos,et al.  Potential Sources of Anthropogenic Copper Inputs to European Agricultural Soils , 2018, Sustainability.

[14]  S. Beguería,et al.  A meta-analysis of soil erosion rates across the world , 2015 .

[15]  J. A. Martínez-Casasnovas,et al.  Understanding soil erosion processes in Mediterranean sloping vineyards (Montes de Málaga, Spain). , 2017 .

[16]  Panos Panagos,et al.  Soil erodibility in Europe: a high-resolution dataset based on LUCAS. , 2014, The Science of the total environment.

[17]  Paolo Tarolli,et al.  Impact of mechanisation on soil loss in terraced vineyard landscapes , 2019, Cuadernos de Investigación Geográfica.

[18]  M. López‐Vicente,et al.  Influence of DEM resolution on modelling hydrological connectivity in a complex agricultural catchment with woody crops , 2018 .

[19]  Carolina Boix-Fayos,et al.  Measuring soil erosion by field plots: understanding the sources of variation , 2006 .

[20]  Jesús Álvarez-Mozos,et al.  Determination of long-term erosion rates in vineyards of Navarre (Spain) using botanical benchmarks , 2009 .

[21]  R. Bryan,et al.  The influence of slope angle on final infiltration rate for interrill conditions , 1997 .

[22]  M. C. Ramos,et al.  Effects of land‐use changes in vegetation cover and sidewall erosion in a gully head of the Penedès region (northeast Spain) , 2009 .

[23]  S. Keesstra,et al.  Testing simple scaling in soil erosion processes at plot scale , 2018, CATENA.

[24]  D. A. Barry,et al.  Effect of raindrop splash and transversal width on soil erosion: Laboratory flume experiments and analysis with the Hairsine-Rose model , 2010 .

[25]  J. Poesen,et al.  Predicting soil erosion and sediment yield at regional scales: Where do we stand? , 2013 .

[26]  Fethi Bouksila,et al.  Combining field monitoring and aerial imagery to evaluate the role of gully erosion in a Mediterranean catchment (Tunisia) , 2018, CATENA.

[27]  Philippe Lagacherie,et al.  A regional-scale study of multi-decennial erosion of vineyard fields using vine-stock unearthing–burying measurements , 2010 .

[28]  Christian Gary,et al.  Management of service crops for the provision of ecosystem services in vineyards: A review , 2018 .

[29]  Emmanuelle Vaudour,et al.  Retrospective 70 y-spatial analysis of repeated vine mortality patterns using ancient aerial time series, Pléiades images and multi-source spatial and field data , 2017, Int. J. Appl. Earth Obs. Geoinformation.

[30]  Mario Minacapilli,et al.  Time Scale Effects and Interactions of Rainfall Erosivity and Cover Management Factors on Vineyard Soil Loss Erosion in the Semi-Arid Area of Southern Sicily , 2019, Water.

[31]  A. Vacca,et al.  Measurement of runoff and soil erosion in three areas under different land use in Sardinia (Italy) , 2000 .

[32]  I. Kisić,et al.  Effects of soil erosion by water under different tillage treatments on distribution of soil chemical parameters , 2017 .

[33]  J. A. Martínez-Casasnovas,et al.  Sediment production in large gullies of the Mediterranean area (NE Spain) from high‐resolution digital elevation models and geographical information systems analysis , 2003 .

[34]  Sander Jacobs,et al.  Nature‐Based Solutions for Europe's Sustainable Development , 2017 .

[35]  A. Cevasco,et al.  Response of Terraced Slopes to a Very Intense Rainfall Event and Relationships with Land Abandonment: A Case Study from Cinque Terre (Italy) , 2018 .

[36]  G. Stallone,et al.  The Effect of Shallow Tillage on Soil Erosion in a Semi-Arid Vineyard , 2019, Agronomy.

[37]  A. Collins,et al.  Monte Carlo fingerprinting of the terrestrial sources of different particle size fractions of coastal sediment deposits using geochemical tracers: some lessons for the user community , 2019, Environmental Science and Pollution Research.

[38]  E. Baraza,et al.  Long-term establishment of natural green cover provides agroecosystem services by improving soil quality in a Mediterranean vineyard , 2019, Ecological Engineering.

[39]  D. Abate,et al.  Quantifying the effectiveness of mountain terraces on soil erosion protection with sediment traps and dry-stone wall laser scans , 2018, CATENA.

[40]  H. Gholami,et al.  Fingerprinting sources of reservoir sediment via two modelling approaches. , 2019, The Science of the total environment.

[41]  Amélie Quiquerez,et al.  Lithology, landscape structure and management practice changes: Key factors patterning vineyard soil erosion at metre-scale spatial resolution , 2014 .

[42]  Simone Orlandini,et al.  Simulation of field-measured soil loss in Mediterranean hilly areas (Chianti, Italy) with RUSLE , 2016 .

[43]  J. Lipiec,et al.  Effects of tractor traffic on spatial variability of soil strength and water content in grass covered and cultivated sloping vineyard , 2005 .

[44]  T. Lasanta,et al.  Factors affecting runoff and erosion under simulated rainfall in Mediterranean vineyards , 2007 .

[45]  M. C. Ramos Soil water content and yield variability in vineyards of Mediterranean northeastern Spain affected by mechanization and climate variability , 2006 .

[46]  J. Vente,et al.  The evolution of soil conservation policies targeting land abandonment and soil erosion in Spain: A review , 2019, Land Use Policy.

[47]  Andrea Vacca,et al.  Rates and spatial variations of soil erosion in Europe: A study based on erosion plot data , 2010 .

[48]  S. Keesstra,et al.  Soil-Related Sustainable Development Goals: Four Concepts to Make Land Degradation Neutrality and Restoration Work , 2018, Land.

[49]  Ali Keshavarzi,et al.  Determining the best ISUM (Improved stock unearthing Method) sampling point number to model long-term soil transport and micro-topographical changes in vineyards , 2019, Comput. Electron. Agric..

[50]  E. Moradi,et al.  Spatial variability of soil roughness in persimmon plantations: A new combined ISUM (improved stock unearthing method) approach , 2019, Ecological Indicators.

[51]  J. Martínez-Fernández,et al.  Spatial variability of the relationships of runoff and sediment yield with weather types throughout the Mediterranean basin , 2019, Journal of Hydrology.

[52]  S. Keesstra,et al.  Updated Measurements in Vineyards Improves Accuracy of Soil Erosion Rates , 2018 .

[53]  Jean Poesen,et al.  Effects of slope angle and aspect on plant cover and species richness in a humid Mediterranean badland , 2014 .

[54]  A. Atucha,et al.  Soil erosion, runoff and nutrient losses in an avocado (Persea americana Mill) hillside orchard under different groundcover management systems , 2013, Plant and Soil.

[55]  A. Edwards,et al.  Rock fragments in soil support a different microbial community from the fine earth , 2004 .

[56]  A. Cerdà Soil erosion after land abandonment in a semiarid environment of southeastern Spain , 1997 .

[57]  Soil degradation caused by a high-intensity rainfall event: implications for medium-term soil sustainability in Burgundian vineyards. , 2008 .

[58]  R. Lal Accelerated Soil erosion as a source of atmospheric CO2 , 2019, Soil and Tillage Research.

[59]  P. Mozzi,et al.  Estimation of potential soil erosion in the Prosecco DOCG area (NE Italy), toward a soil footprint of bottled sparkling wine production in different land-management scenarios , 2019, PloS one.

[60]  J. A. Gomez,et al.  European small portable rainfall simulators: A comparison of rainfall characteristics , 2013 .

[61]  Amélie Quiquerez,et al.  Erosion rates and sediment budgets in vineyards at 1-m resolution based on stock unearthing (Burgundy, France) , 2008 .

[62]  Ahmed Abed Gatea Al-Shammary,et al.  Soil Bulk Density Estimation Methods: A Review , 2018, Pedosphere.

[63]  S. Ayoubi,et al.  Erodibility of calcareous soils as influenced by land use and intrinsic soil properties in a semiarid region of central Iran , 2018, Environmental Monitoring and Assessment.

[64]  Pascal Allemand,et al.  Assessing the impact of soil surface characteristics on vineyard erosion from very high spatial resolution aerial images (Côte de Beaune, France) , 2014 .

[65]  D. A. Barry,et al.  Rain splash soil erosion estimation in the presence of rock fragments , 2012 .

[66]  Robert J. A. Jones,et al.  Tolerable Versus Actual Soil Erosion Rates in Europe , 2009 .

[67]  Mario Minacapilli,et al.  The impact of soil erosion on soil fertility and vine vigor. A multidisciplinary approach based on field, laboratory and remote sensing approaches. , 2018, The Science of the total environment.

[68]  D. Flanagan,et al.  Runoff and soil erosion plot-scale studies under natural rainfall: A meta-analysis of the Brazilian experience , 2017 .

[69]  Jerry C. Ritchie,et al.  Application of Radioactive Fallout Cesium-137 for Measuring Soil Erosion and Sediment Accumulation Rates and Patterns: A Review , 1990 .

[70]  Jesús Rodrigo-Comino,et al.  Five decades of soil erosion research in "terroir". The State-of-the-Art , 2018 .

[71]  Katharina Helming,et al.  Soil erosion under different rainfall intensities, surface roughness, and soil water regimes , 2002 .

[72]  Juraj Lieskovský,et al.  MODELLING THE EFFECT OF VEGETATION COVER AND DIFFERENT TILLAGE PRACTICES ON SOIL EROSION IN VINEYARDS: A CASE STUDY IN VRÁBLE (SLOVAKIA) USING WATEM/SEDEM , 2014 .

[73]  R. Rickson,et al.  Can control of soil erosion mitigate water pollution by sediments? , 2014, The Science of the total environment.

[74]  Jesús Rodrigo-Comino,et al.  Improving stock unearthing method to measure soil erosion rates in vineyards , 2018 .

[75]  José Alfonso Gómez Calero,et al.  Characteristics and importance of rill and gully erosion: a case study in a small catchment of a marginal olive grove , 2015 .

[76]  S. Keesstra,et al.  Soil Erosion as an Environmental Concern in Vineyards: The Case Study of Celler del Roure, Eastern Spain, by Means of Rainfall Simulation Experiments , 2018 .

[77]  J. Ries,et al.  Analysis of Weather-Type-Induced Soil Erosion in Cultivated and Poorly Managed Abandoned Sloping Vineyards in the Axarquía Region (Málaga, Spain) , 2019, Air, Soil and Water Research.

[78]  Philippe Davy,et al.  Soil erosion rates in Burgundian vineyards , 2006 .

[79]  Hasan Ahmadi,et al.  Relationship between soil erosion, slope, parent material, and distance to road (Case study: Latian Watershed, Iran) , 2011 .

[80]  U. Schmiedel,et al.  The Ecological and Financial Impact of Soil Erosion and its Control – A Case Study from the Semiarid Northern Cape Province, South Africa , 2017 .