Detecting Areas Vulnerable to Sand Encroachment Using Remote Sensing and GIS Techniques in Nouakchott, Mauritania

Gómez, Diego; Salvador, Pablo; Sanz, Julia; Casanova, Carlos; Casanova, José

doi:10.3390/rs10101541

Cited by 14 publications

(6 citation statements)

References 58 publications

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“…Africa (Malaki et al, 2009;Afrasinei et al, 2018 ;Gómez et al, 2018) and other arid, and semiarid regions around the world (Mirmousavi, 2016;Baumgertel et al, 2019), which indicate that wind erosion vulnerability increase from north to south, refereeing to the effect of related factors which encourage wind erosion-human impact, degrades soil structure, denudation of natural vegetation, extent of sandy soils, and harsh climatic conditions.…”

Section: Discussionmentioning

confidence: 99%

Assessing and mapping wind erosion-prone areas in northeastern Algeria using additive linear model, AHP, FAHP approaches, GIS, and medium resolution multisource remotely sensed data

Mihi

Benaradj

2021

Preprint

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Wind erosion is one of the most severe environmental problems in arid, semi-arid and dry sub-humid regions of the planet. This dissertation aimed to identify areas sensitive to wind erosion in northeastern Algeria (Wilaya of Tebessa) based on empirical model using analytic hierarchy process (AHP), fuzzy analytic hierarchy process (FAHP) approaches, and geomatics-based techniques. Sixteen causative factors were used incorporating meteorological, soil erodibility, physical environment, and anthropogenic impacts as main available inputs in this approach. Weighted linear combination (WLC) algorithm was used to combine all standardized raster layers. Area under curve (AUC) value equal 0.96 indicate an excellent accuracy for the proposed approach. Globally, wind erosion risk increase gradually from the north to south of the whole area. Besides, it was found that areas with slight, moderate, high, and very high covered 9.65 %, 25.83 %, 24.30 %., and 40.22 %, respectively of the total. Our results highlighted the potential of additive linear model, and free available medium resolution multi-source remote sensing data in studying natural hazards and disasters mainly under data-scarce or areas of difficult access in developing countries. In addition, restoration and re-vegetation activities of sensitive areas at high risk of wind erosion represent a challenge for researchers and decision-makers.

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Section: Discussionmentioning

confidence: 99%

Assessing and mapping wind erosion-prone areas in northeastern Algeria using additive linear model, AHP, FAHP approaches, GIS, and medium resolution multisource remotely sensed data

Mihi

Benaradj

2021

Preprint

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“…However, it is worth noting that there is another approach toward measuring surface erosion that uses another InSAR product, the so-called phase coherence, rather than the phase angle as shown in Liu et al (2001). With the installment of contemporary InSAR assets such as Terra SAR X, Advanced Land Observing Satellite (ALOS) Phased Array type L-band Synthetic Aperture Radar (PALSAR) 1/2, and Sentinel-1, which have better resolution, revisiting times, and resolving power on the baseline conditions, nowadays some research has begun to establish methods of monitoring sand dune dynamics and eolian migrations as shown in Gaber et al (2018), Gómez et al (2018), and Havivi et al (2018). A detailed study of phase coherence behaviors in arid deserts which may involve eolian erosions was reported by Ullmann et al (2019) who showed that surface characteristics such as slope and wetness are not crucial for the loss of phase coherence, the so-called decorrelation.…”

Section: Methodsmentioning

confidence: 99%

Reconstructed Aeolian Surface Erosion in Southern Mongolia by Multi-Temporal InSAR Phase Coherence Analyses

Kim¹,

Dorjsuren²,

Choi

et al. 2020

Front. Earth Sci.

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“…Many researchers use fixation to face this natural hazardous. There are several sand dune stabilization strategies such as mechanical stabilization, or biological stabilization, presently biological strategies considered as the most common and most efficient strategies (Gómez et al, 2018). Yao et al (2007) utilized multi-temporal Landsat imagery for tracking of dune migration and pattern identification on the northern Alxa plateau, Inner Mongolia, China (Els et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Development of Desertification Indicators for Desertification Monitoring from Landsat Images Using Python Programming

Taha¹,

Basheer

Mohamed

2022

Geoplanning: Journal of Geomatics and Planning

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Nowadays, desertification is one of the most serious environment socioeconomic issues and sand dune advances are a major threat that causes desertification. Wadi El-Rayan is one of the areas facing severe dune migration. Therefore, it's important to monitor desertification and study sand dune migration in this area. Image differencing for the years 2000 (Landsat ETM+) and 2019 (OLI images) and Bi-temporal layer stacking was performed. It was found that image differencing is a superior method to get changes of the study area compared to the visual method (Bi-temporal layer stacking). This research develops a quantitative technique for desertification assessment by developing indicators using Landsat images. Spatial distribution of the movement of sand dunes using some spectral indices (NDVI, BSI, LDI, and LST) was studied and a Python script was developed to calculate these indices. The results show that NDVI and BSI indices are the best indices in the identification and detection of vegetation. It was found that mobile sand dunes on the southern side of the lower Wadi El-Rayan Lake caused filling up of large part of the lower lake. The indices results show that sand movement decreased the size of the lower Wadi El-Rayan Lake and there are reclamation activities in the west of the lower lake. The results show that a good result could be achieved from the developed codes compared to ready-made software (ENVI 5).

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Detecting Areas Vulnerable to Sand Encroachment Using Remote Sensing and GIS Techniques in Nouakchott, Mauritania

Cited by 14 publications

References 58 publications

Assessing and mapping wind erosion-prone areas in northeastern Algeria using additive linear model, AHP, FAHP approaches, GIS, and medium resolution multisource remotely sensed data

Assessing and mapping wind erosion-prone areas in northeastern Algeria using additive linear model, AHP, FAHP approaches, GIS, and medium resolution multisource remotely sensed data

Reconstructed Aeolian Surface Erosion in Southern Mongolia by Multi-Temporal InSAR Phase Coherence Analyses

Development of Desertification Indicators for Desertification Monitoring from Landsat Images Using Python Programming

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