Interrelationships of Land Use/Cover Change and Topography with Soil Acidity and Salinity as Indicators of Land Degradation

Manandhar, Ramita; Odeh, Inakwu O. A.

doi:10.3390/land3010282

Cited by 15 publications

(8 citation statements)

References 32 publications

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“…This SQI concept can be innovated by replacing the soil type descriptions with arbitrary ranges of soil texture descriptions to enable regional SQI comparisons. Besides management choices (e.g., NT, CT), other factors that reportedly influence agricultural production, and were not modeled in this study include: crop hybrids, microbial activity, pests occurrence, solar insolation, planting dates, fertilizer application and intake rates, and the weather patterns (Bouma, 2002;Bouma and McBratney, 2013;Manandhar and Odeh, 2014). Because, the year 2012 was a drought year, this SQI approach will be tested with data from subsequent years to determine its efficacy.…”

Section: Interconnection Between Sqi Land Management Practices and Ymentioning

confidence: 96%

A standardized soil quality index for diverse field conditions

Obade

Lal

2016

Science of The Total Environment

115

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Section: Interconnection Between Sqi Land Management Practices and Ymentioning

confidence: 96%

A standardized soil quality index for diverse field conditions

Obade

Lal

2016

Science of The Total Environment

115

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“…One of these changes due to the topography is the increase in sodium and acidification of the soils, also coincident with our findings. Moreover, these impacts can be more extreme if both factors interact with land use changes due to agricultural practices and grazing [58]. The gully upstream watershed area, the distance from the gully head to the watershed ridge, the height of the gully head, and the gully head advancement, can explain about 85% of the total variance.…”

Section: Key Factors That Hide the Sustainability Of The Territory Bymentioning

confidence: 99%

Assessment of the Sustainability of the Territories Affected by Gully Head Advancements through Aerial Photography and Modeling Estimations: A Case Study on Samal Watershed, Iran

et al. 2018

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Gully erosion is considered one of the major issues of land sustainability because it can remove considerable volumes of sediment and productive soils. Once started, gullies can continue to move by headcut retreat, or slumping of the side walls. Studies of gully development require constant monitoring activities which are not possible in not-well-explored areas, such as the arduous region of Iran, due to costs and a lack of geoinformation. Thus, the present research attempts to assess gully evolution using only two digital aerial photographs of different periods (1968 and 1994) and field assessment (2009) to estimate the gully head advancement based on frames geometry and rigorous procedure in southwestern Iran. Also, the gully head advancement was estimated and compared among them by different empirical equations. The results indicated that the mean of gully head advancement was 1.4 m year−1 and 1.2 m year−1 during 1968–1994 and 1994–2009, respectively, and the annual average of sediment mobilization was 26.8 m3 ha−1 in 2009. The model assessment indexes indicated that SCS (Soil Conservation Service) II was the best model for gully head advancement estimations in this study area. The main reasons for this can be associated with the Rp factor (previous gully head advancement) and the local environmental conditions. We conclude that the sustainability of the territory has been greatly affected due to this advancement. We also hypothesize that gully head changes could be related to the susceptibility of geological formations, climate, soil properties, and the coincidence of other gullies’ formation with common drainage networks in the study area. Based on the obtained results, land managers can use the results to distinguish the gullies in this region with a higher environmental risk, and to decide an effective implementation of soil conservation measures in order to include them in the land management plans.

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“…Within the viticultural agroecosystem, soils play a major role in providing mineral nutrients to plants, and soil characteristics also affect vine water status which is a key factor determining grape quality potential (van Leeuwen et al, 2009). The alteration of natural hydrological dynamics and increased sediment transport create several problems related to uncontrolled solute and nutrient transport (Gruber and Kosegarten, 2002;Manandhar and Odeh, 2014;Navel and Martins, 2014), soil loss (Hacisalihoglu, 2007;Novara et al, 2011;Prosdocimi et al, 2016b;Quiquerez et al, 2014), formation of rills and ephemeral gullies (Kosmas et al, 1997;Martínez-Casasnovas et al, 2003;Rodrigo Comino et al, 2015), degradation of roots, biodiversity and carbon storage (Bruggisser et al, 2010;Eldon and Gershenson, 2015;Francone et al, 2010;Gagnarli et al, 2015;Zsófi et al, 2011), and quality of the product and productivity (García-Díaz et al, 2016;Likar et al, 2015;Lorenzo et al, 2012;Marqués et al, 2015;Terrón et al, 2015). To understand the soil erosion processes in vineyards will bring solutions for a sustainable agriculture (Novara et al, 2013) and this is related to the income of the farmers due to payments for ecosystem services (Galati et al, 2016) and the soil erosion rates (Novara et al, 2016a), and the soil carbon sequestration (Novara et al, 2016b).…”

Section: Introductionmentioning

confidence: 99%