Assessing environmental changes in abandoned German vineyards. Understanding key issues for restoration management plans

Rodrigo‐Comino, Jesús; Neumann, Martin; Remke, Alexander; Ries, Johannes B.

doi:10.15201/hungeobull.67.4.2

Cited by 11 publications

(4 citation statements)

References 43 publications

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“…Furthermore, due to the runoff and sediment transportation, soil loss is accompanied by accumulation eutrophication and water pollution, nutrition leaching and crop yield depression [22]. Accordingly, soil erosion is a great challenge for sustainability in agroecosystems worldwide, such as Europe [22][23][24][25], Africa [26,27], Asia [28], and Australia [29].…”

Section: Introductionmentioning

confidence: 99%

Soil Management Effects on Soil Water Erosion and Runoff in Central Syria—A Comparative Evaluation of General Linear Model and Random Forest Regression

Mohammed

Al-Ebraheem²,

Holb

et al. 2020

Water

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The Mediterranean part of Syria is affected by soil water erosion due to poor land management. Within this context, the main aim of this research was to track soil erosion and runoff after each rainy storm between September 2013 and April 2014 (rainy season), on two slopes with different gradients (4.7%; 10.3%), under three soil cover types (SCTs): bare soil (BS), metal sieve cover (MC), and strip cropping (SC), in Central Syria. Two statistical multivariate models, the general linear model (GLM), and the random forest regression (RFR) were applied to reveal the importance of SCTs. Our results reveal that higher erosion rate, as well as runoff, were recorded in BS followed by MC, and SC. Accordingly, soil cover had a significant effect (p < 0.001) on soil erosion, and no significant difference was detected between MC and SC. Different combinations of slopes and soil cover had no effect on erosion, at least in this experiment. RFR performed better than GLM in predictions. GLM’s median of mean absolute error was 21% worse than RFR. Nonetheless, 25 repetitions of 2-fold cross-validation ensured the highest available prediction accuracy for RFR. In conclusion, we revealed that runoff, rain intensity and soil cover were the most important factors in erosion.

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Section: Introductionmentioning

confidence: 99%

Soil Management Effects on Soil Water Erosion and Runoff in Central Syria—A Comparative Evaluation of General Linear Model and Random Forest Regression

Mohammed

Al-Ebraheem²,

Holb

et al. 2020

Water

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“…A well-developed soil can take and keep even 200-300 mm precipitation at one time depending on its land-use, porosity, aggregation and canopy cover. However, soils especially those of crop fields and vineyards are highly degraded; therefore, water infiltration is inhibited (Jakab, G. et al 2017;Rodrigo-Comino, J. 2019).…”

Section: Introductionmentioning

confidence: 99%

Spatial analysis of changes and anomalies of intense rainfalls in Hungary

et al. 2019

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Extreme precipitation events can trigger flash flood, mass movements, pluvial flood and accelerated soil erosion. As soil structures are highly degraded due to intensive improper cultivation water infiltration can considerably decrease during the vegetation period. Additional changes in canopy coverage on the soil surface cause relevant variability in infiltration and hence vulnerability against runoff related disasters. Most researchers agree that the frequency of extreme precipitations increases, however, in the Carpathian Basin the uncertainties are quite high. This study aims to compare daily maximum mean precipitation amounts (MMPA) predicted by the Goda-method for June and August as the most probable months of extremities. We used the CarpatClim database as input and predicted MMPAs for two periods, 1960-1985 and 1986-2010. The Goda-method uses monthly data and calculates daily results on given probability. A general increase was found between the first and second half of the period regarding daily maximum precipitation amount in both investigated months. For August the 1-day precipitation amount increased from 56.1 mm to 61.8 mm, whereas 6-days amount from 93.8 mm to 103.2 mm at 1 per cent probability (r = 0.53; p < 0.001). Beyond this change, relevant spatial differences were found. Comparing the macro regions plains had lower increase compared to the mountains, whereas the highest increase was in the Transdanubian Hills (TH). The most endangered location is the southern part of the Transdanubian Hills where parallel with the intensive increase in MMPA both in June and August the environmental conditions such as loose parent material and the high percentage of crop fields also emphasize the potential hazard.

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“…The high soil organic carbon (SOC) content of native soils significantly decreases owing to cultivation [4]. Intensive crop production decreases the organic matter (OM) input as it removes the main parts of the plant by harvesting, and directly oxidizes SOM by applying intensive inversion tillage [5][6][7]. In soil, OM is mineralized by the microbiome, the process of which is generally limited by the degree of available oxygen.…”

Section: Introductionmentioning

confidence: 99%

Differences in Mineral Phase Associated Soil Organic Matter Composition due to Varying Tillage Intensity

et al. 2019

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The volume of soil organic matter (SOM) changes, owing to variations in tillage systems. Conservation tillage (CT) is a useful method for recovering the SOM content of crop fields. However, little is known about the SOM composition of silt- and clay-associated and aggregate-occluded organic matter (OM). The present study aimed at determining the SOM compositions of various SOM fractions in the same Luvisol in a native forest and under ploughing and CT. SOM fractions (silt and clay associated; sand and aggregates associated; restricted OM) were characterized using diffuse reflectance Fourier transform infrared (FTIR) spectroscopy. The size of both the aggregate-occluded and resistant SOM pools increased, owing to the shift in the tillage system to CT for 15 years. As a general trend, the soil organic carbon content was inversely proportional to aromaticity under both crop fields, which supported the preferential mineralization of aliphatic components in each fraction. The shift in the tillage system could trigger rapid qualitative changes even in the stable restricted carbon pools; nevertheless, it was difficult to distinguish between the role of OM and the mineral composition in the FTIR spectra. In particular, the clay-related organic-mineral complexes could trigger difficulties in the traditional interpretation methods.

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Assessing environmental changes in abandoned German vineyards. Understanding key issues for restoration management plans

Cited by 11 publications

References 43 publications

Soil Management Effects on Soil Water Erosion and Runoff in Central Syria—A Comparative Evaluation of General Linear Model and Random Forest Regression

Soil Management Effects on Soil Water Erosion and Runoff in Central Syria—A Comparative Evaluation of General Linear Model and Random Forest Regression

Spatial analysis of changes and anomalies of intense rainfalls in Hungary

Differences in Mineral Phase Associated Soil Organic Matter Composition due to Varying Tillage Intensity

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