Remote Sensing and Soil Quality

Modelling land degradation vulnerability (LDV) in the newly-reclaimed desert oases is a key factor for sustainable agricultural production. In the present work, a trial for usingremote sensing data, GIS tools, and Analytic Hierarchy Process (AHP) was conducted for modeling and evaluating LDV. The model was then applied within 144,566 ha in Farafra, an inland hyper-arid Western Desert Oases in Egypt. Data collected from climate conditions, geological maps, remote sensing imageries, field observations, and laboratory analyses were conducted and subjected to AHP to develop six indices. They included geology index (GI), topographic quality index (TQI), physical soil quality index (PSQI), chemical soil quality index (CSQI), wind erosion quality index (WEQI), and vegetation quality index (VQI). Weights derived from the AHP showed that the effective drivers of LDV in the studied area were as follows: CSQI (0.30) > PSQI (0.29) > VQI (0.17) > TQI (0.12) > GI (0.07) > WEQI (0.05). The LDV map indicated that nearly 85% of the total area was prone to moderate degradation risks, 11% was prone to high risks, while less than 1% was prone to low risks. The consistency ratio (CR) for all studied parameters and indices were less than 0.1, demonstrating the high accuracy of the AHP. The results of the cross-validation demonstrated that the performance of ordinary kriging models (spherical, exponential, and Gaussian) was suitable and reliable for predicting and mapping soil properties. Integrated use of remote sensing data, GIS, and AHP would provide an effective methodology for predicting LDV in desert oases, by which proper management strategies could be adopted to achieve sustainable food security.

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Assessing land cover and soil quality by remote sensing and geographical information systems (GIS)

CATENA ◽

10.1016/j.catena.2012.10.014 ◽

2013 ◽

Vol 104 ◽

pp. 77-92 ◽

Cited By ~ 40

Author(s):

Vincent de Paul Obade ◽

Rattan Lal

Keyword(s):

Remote Sensing ◽

Information Systems ◽

Land Cover ◽

Soil Quality ◽

Geographical Information Systems ◽

Geographical Information

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Assessing soil quality in semiarid tropical region of southern India using GIS and remote sensing

GlobalSoilMap ◽

10.1201/b16500-81 ◽

2014 ◽

pp. 455-459

Author(s):

Uttam Mandal ◽

K Venkanna ◽

K Sharma ◽

Kaushalya Ramachandran

Keyword(s):

Remote Sensing ◽

Soil Quality ◽

Southern India ◽

Tropical Region ◽

Gis And Remote Sensing

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Importance of Soil Health and It’s Estimation by Remote Sensing and GIS

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.36568 ◽

2021 ◽

Vol 9 (VII) ◽

pp. 1262-1266

Author(s):

Ashish Kumar Singh

Keyword(s):

Remote Sensing ◽

Soil Quality ◽

Renewable Resources ◽

Soil Health ◽

Agricultural Practices ◽

Uttar Pradesh ◽

Remote Sensing And Gis ◽

Soil Functions ◽

Waste Land ◽

Sentinel 2

The soil quality is defined as the measurements of an essential organic and moving composition. To conserve the environment boundary with human health as well as to maintain the soils productivity are the main objective. In order to understand, it is important to differentiate between the soil heath and soil quality. The soil functions are generally related to soil quality however the living and organic stocks are of a non renewable resources, reutilizing the nutrients is presented by the soil health. Among this the Soil Organic Carbon is most important factor. In the soil SOC plays an important role in the productivity of the soil. In this research we conducted a study on the District of Farrukhabad, Uttar Pradesh by using Remote Sensing. A Sentinel-2 data has used for the analysis of Land Use and Land Cover purposes. The result concluded the highest and minimum measurement of SOC in Agricultural and waste land respectively. The main objective of this research, to describe the quality and characteristic of the soil and consider the reasons by which the soil quality get disturb, to discover the agricultural practices which directly affects the soil quality.

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Assessing Soil Quality Indicators in El- Minya Governorate Using Integration between Gis and Remote Sensing

Annals of Agricultural Science, Moshtohor ◽

10.21608/assjm.2021.195437 ◽

2021 ◽

Vol 59 (2) ◽

pp. 761-776

Author(s):

Rania M. Mohamed

Keyword(s):

Remote Sensing ◽

Soil Quality ◽

Quality Indicators ◽

Soil Quality Indicators ◽

Gis And Remote Sensing

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Modeling Land Suitability for Rice Crop Using Remote Sensing and Soil Quality Indicators: The Case Study of the Nile Delta

Sustainability ◽

10.3390/su12229653 ◽

2020 ◽

Vol 12 (22) ◽

pp. 9653

Author(s):

Ahmed A. El Baroudy ◽

Abdelraouf. M. Ali ◽

Elsayed Said Mohamed ◽

Farahat S. Moghanm ◽

Mohamed S. Shokr ◽

...

Keyword(s):

Remote Sensing ◽

Food Security ◽

Soil Quality ◽

Quality Indicators ◽

Nile Delta ◽

Point Of View ◽

Soil Quality Indicators ◽

Global Food Security ◽

Increasing Demand ◽

Global Food

Today, the global food security is one of the most pressing issues for humanity, and, according to Food and Agriculture Organisation (FAO), the increasing demand for food is likely to grow by 70% until 2050. In this current condition and future scenario, the agricultural production is a critical factor for global food security and for facing the food security challenge, with specific reference to many African countries, where a large quantities of rice are imported from other continents. According to FAO, to face the Africa’s inability to reach self-sufficiency in rice, it is urgent “to redress to stem the trend of over-reliance on imports and to satisfy the increasing demand for rice in areas where the potential of local production resources is exploited at very low levels” The present study was undertaken to design a new method for land evaluation based on soil quality indicators and remote sensing data, to assess and map soil suitability for rice crop. Results from the investigations, performed in some areas in the northern part of the Nile Delta, were compared with the most common approaches, two parametric (the square root, Storie methods) and two qualitative (ALES and MicrioLEIS) methods. From the qualitative point of view, the results showed that: (i) all the models provided partly similar outputs related to the soil quality assessments, so that the distinction using the crop productivity played an important role, and (ii) outputs from the soil suitability models were consistent with both the satellite Sentinel-2 Normalize Difference Vegetation Indices (NDVI) during the crop growth and the yield production. From the quantitative point of view, the comparison of the results from the diverse approaches well fit each other, and the model, herein proposed, provided the highest performance. As a whole, a significant increasing in R2 values was provided by the model herein proposed, with R2 equal to 0.92, followed by MicroLES, Storie, ALES and Root as R2 with value equal to 0.87, 0.86, 0.84 and 0.84, respectively, with increasing percentage in R2 equal to 5%, 6% and 8%, respectively. Furthermore, the proposed model illustrated that around (i) 44.44% of the total soils of the study area are highly suitable, (ii) 44% are moderately suitable, and (iii) approximately 11.56% are unsuitable for rice due to their adverse physical and chemical soil properties. The approach herein presented can be promptly re-applied in arid region and the quantitative results obtained can be used by decision makers and regional governments.

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Monitoring and Assessment of Salinity and Chemicals in Agricultural Lands by a Remote Sensing Technique and Soil Moisture with Chemical Index Models

Geosciences ◽

10.3390/geosciences10060207 ◽

2020 ◽

Vol 10 (6) ◽

pp. 207 ◽

Cited By ~ 3

Author(s):

Hashim Ali Hasab ◽

Hayder Dibs ◽

Abdulameer Sulaiman Dawood ◽

Wurood Hasan Hadi ◽

Hussain M. Hussain ◽

...

Keyword(s):

Remote Sensing ◽

Soil Moisture ◽

Soil Quality ◽

Agricultural Land ◽

Remote Sensing Data ◽

Quality Parameters ◽

Chemical Pollution ◽

Landsat 8 ◽

Moisture Index ◽

Chemical Index

Agricultural land in the south of Iraq provides habitat for several types of living creatures. This land has a significant impact on the ecosystem. The agricultural land of Al-Hawizeh marsh covers an area of more than 3500 km2 and is considered an enriched resource to produce several harvests. A total of 74% of this area suffers from a high degree of salinity and chemical pollution, which needs to be remedied. Several human-made activities and post-war-related events have caused radical deterioration in soil quality in the agricultural land. The goal of this research was to integrate mathematical models, remote sensing data, and GIS to provide a powerful tool to predict, assess, monitor, manage, and map the salinity and chemical parameters of iron (Fe), lead (Pb), copper (Cu), chromium (Cr), and zinc (Zn) in the soils of agricultural land in Al-Hawizeh marsh in southern Iraq during the four seasons of 2017. The mathematical model consists of four parts. The first depends on the B6 and B11 bands of Landsat-8, to calculate the soil moisture index (SMI). The second is the salinity equation (SE), which depends on the SMI result to retrieve the salinity values from Landsat-8 images. The third part depends on the B6 and B7 bands of Landsat-8, which calculates the clay chemical index (CCIs). The fourth part is the chemical equation (CE), which depends on the CCI to retrieve the chemical values (Fe, Pb, Cu, Cr, and Zn) from Landsat-8 images. The average salinity concentrations during autumn, summer, spring, and winter were 1175, 1010, 1105, and 1789 mg/dm3, respectively. The average Fe concentrations during autumn, summer, spring and winter were 813, 784, 842, and 1106 mg/dm3, respectively. The average Pb concentrations during autumn, summer, spring, and winter were 4.85, 3.79, 4.74, and 7.2 mg/dm3, respectively. The average Cu concentrations during autumn, summer, spring, and winter were 3.9, 3.1, 4.45, and 7.5 mg/dm3, respectively. The average Cr concentrations during autumn, summer, spring, and winter seasons were 1.28, 0.73, 1.03, and 2.91 mg/dm3, respectively. Finally, the average Zn concentrations during autumn, summer, spring, and winter were 8.25, 6, 7.05, and 12 mg/dm3, respectively. The results show that the concentrations of salinity and chemicals decreased in the summer and increased in the winter. The decision tree (DT) classification depended on the output results for salinity and chemicals for both SE and CE equations. This classification refers to all the parameters simultaneously in one stage. The output of DT classification results can display all the soil quality parameters (salinity, Fe, Pb, Cu, Cr, and Zn) in one image. This approach was repeated for each season in this study. In conclusion, the developed systematic and generic approach may constitute a basis for determining soil quality parameters in agricultural land worldwide.

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