Soil Properties Spatial Variability and Delineation of Site-Specific Management Zones Based on Soil Fertility Using Fuzzy Clustering in a Hilly Field in Jianyang, Sichuan, China

Metwally, Mohamed S.; Shaddad, Sameh M.; Liu, Manqiang; Yao, Rongjiang; Abdo, Ahmed I.; Li, Peng; Jiao, Jiaoguo; Chen, Xiaoyun

doi:10.3390/su11247084

Cited by 66 publications

(66 citation statements)

References 75 publications

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“…The fuzzy matrix constructed by the distance obtained from the optimized calculation formula is a fuzzy similarity matrix R. Because it is not necessarily transitive, the intra group connection method is used to achieve its transitivity [54]. In the fuzzy matrix, all samples in the sample set U are classified and gradually merged to form a dynamic clustering diagram.…”

Section: Data Standardization Stepsmentioning

confidence: 99%

Application of Geophysical and Hydrogeochemical Methods to the Protection of Drinking Groundwater in Karst Regions

Song

Yang

Wang

et al. 2020

IJERPH

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To provide theoretical support for the protection of centralized drinking groundwater sources in karst areas, it is necessary to accurately identify the development of karst conduits and analyze the differences in hydrogeochemical characteristics of different karst systems. This provides a scientific basis for the accurate designation of risk zones that may cause drinking groundwater pollution. In this study, a geophysical survey, hydrogeological chemical process analysis and optimized fuzzy cluster analysis were used to gradually improve the understanding of karst water systems. AMT and HDR methods were used to calibrate the resistivity around the water-filling karst conduits, which ranged from 39 to 100 Ω·m. A total of seven karst systems were identified, including four karst systems in the north of the study area, one karst system in the west and two karst systems in the south. Analysis of the hydrochemical data showed that HCO3-Ca and HCO3-Mg-Ca types accounted for 90% of all samples. The δD and δ18O values of their main conduits were −51.70‰ to −38.30‰ and −7.99‰ to −5.96‰, respectively. The optimized fuzzy clustering analysis method based on the weight of variables assigned by AHP more accurately verified karst water systems. Based on these findings, the drinking groundwater source risk zone was designated with an area of 33.90 km2, accounting for 34.5% of the study area. This study effectively improved the rationality and accuracy of the designation of drinking groundwater source risk zones in karst areas, and provided a scientific basis for the identification of karst water systems and decision-making of drinking groundwater source protection in karst areas.

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Section: Data Standardization Stepsmentioning

confidence: 99%

Application of Geophysical and Hydrogeochemical Methods to the Protection of Drinking Groundwater in Karst Regions

Song

Yang

Wang

et al. 2020

IJERPH

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“…Considerable advances in statistical techniques and modeling approaches have allowed different agricultural zones to be accurately delineated with new methods like machine learning, GIS, remote sensing, geostatistics, and kriging at a regional and farm scale [5,9]. Several methods and approaches, such as delineating by an active canopy sensor [10], using soil properties by fuzzy k-means cluster analysis [11,12], fuzzy c-means clustering algorithm, principal component analysis (PCA) [12][13][14][15][16][17], and soil fertility analysis [13] have been used to delineate different MZs. However, the selection of the techniques or approaches depends on the purposes of the determination of MZ and the complexity of each approach.…”

Section: Introductionmentioning

confidence: 99%

“…Different types of environmental and soil data could be used for delineating the MZs [10]. For instance, pedo-geomorphological factors [18], soil nutrients [19,20], intrinsic soil properties (e.g., electrical conductivity (EC), pH, particle size distribution, soil organic matter, cation exchange capacity, nitrogen, phosphorous, and potassium) [9,10,12,15,21] can be used for this purpose. Different types of information can be integrated to define MZs by using a clustering algorithm.…”

Section: Introductionmentioning

confidence: 99%

“…This effective approach is capable of identifying zones or regions in the fields or farms that internally have similar soil properties, conditions, and productivity potentials [5]. In the application of site-specific management zones, several studies reported successful application of MZ delineation for agricultural purposes, fertilizer application, and farm management [12,22,23]. Aggelopooulou et al [24], in an apple orchard in Greece, delineated four zones using soil and tree properties, which required different management of irrigation, fertilizer, and cultural activities.…”

Section: Introductionmentioning

confidence: 99%

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Integration of PCA and Fuzzy Clustering for Delineation of Soil Management Zones and Cost-Efficiency Analysis in a Citrus Plantation

et al. 2020

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Citrus spp. are one of the most important commercial crops with global marketing potential in the world, as in Iran. A soil management zone (MZ) as an appropriate approach is necessary to achieve sustainable production, along with improving soil management and increasing economic benefits in the commercial citrus plantations of northern Iran. As the first report, the biological and terrain attributes along with the physicochemical properties (57 soil samples, 0–30 cm) were used for MZ delineation using the integration of principal component analysis (PCA) and the fuzzy c-means clustering methods. An economic analysis based on the MZ results was also performed to determine the changes in each MZ using a relative cost (RC) value. The high correlation between soil properties and terrain attributes and the considerable spatial variation of these factors in the study area call for site-specific nutrient management. The optimal number of MZs was six and there was a significant heterogeneity variation among different MZs. The ranking of the MZs were MZ5 > MZ2 > MZ6 > MZ1 > MZ3 > MZ4 based on higher soil quality and lower costs per tree. The MZ4, MZ3, MZ1, MZ6, and MZ2 required 34.4, 30.6, 29.4, 9.77, and 9.44% more costs than MZ5 (as reference MZ) for achieving similar productivity, respectively. Therefore, this simple and cost-effective approach could be an initial step to utilize fertilizers site-specifically for data-scarce areas and reduce the soil property variability within the delineated MZs, which is fundamental for precision agriculture management.

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“…Soil is one of the most important materials on earth surface that most structures foundations are placed on it. Spatial variability of geotechnical properties of soils is a significant index of quality of soils, in addition to suitability for construction projects (Metwally et al, 2019). Hence, civil engineers have to study its geotechnical properties which helps to discover an understanding about their suitability for foundation laying material (Khatri, 2018).…”

Section: Introductionmentioning

confidence: 99%

Evaluating the Spatial Distribution of some Soil Geotechnical Properties Using Various Interpolation Methods (Case Study: Sulaimani Province, Iraq)

Najmaddin

Salih

Abdalla

2020

Journal of Soil Sciences and Agricultural Engineering

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Soil geotechnical parameters are important inputs for the prediction of ground suitability for construction projects. The aim of the study is the evaluation of spatial distribution of some soil geotechnical characteristics for Sulaimani governorate, northern Iraq which has a semi-arid climate. Sixty different soil specimens were taken from a distance of 2.0 meters from natural ground surface, around the Sulaimani city which are suitable for resettlement purposes. Several required laboratory experiments were performed to obtain some engineering properties of the collected soils according to ASTM standards, namely field water content, field wet density, initial void ratio (IVR), and degree of saturation (DS). Three different interpolation methods namely Inverse Distance Weighted (IDW), and Thin Plate Spline (TPS), which are deterministic interpolation methods in addition to and one geostatistical method, Ordinary Kriging (OK), were applied. Cross validation and accuracy assessment of model performance are also applied and analyzed. In general, the geostatistical method performance was compared with the deterministic methods. Ok method found to be more accurate and less biased method than the other two methods, which has lower RMSE (1.38%, 11.33%, 0.07 and 0.82 gm cm-3) and ME (-0.63%, 0.94%,-0.16 and 0.3 gm cm-3) for water content, DS, IVR and wet density respectively. According to the interpolation maps 65 to 70 % of study area is likely suitable for construction purposes compare to the other 30 to 35 %, which need some precautions for the suitability issue for construction projects. The results yielded in the reliability of the obtained soil geotechnical properties from geospatial maps, which may importantly engage to suitable engineering management application and modeling of land use.

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Soil Properties Spatial Variability and Delineation of Site-Specific Management Zones Based on Soil Fertility Using Fuzzy Clustering in a Hilly Field in Jianyang, Sichuan, China

Cited by 66 publications

References 75 publications

Application of Geophysical and Hydrogeochemical Methods to the Protection of Drinking Groundwater in Karst Regions

Application of Geophysical and Hydrogeochemical Methods to the Protection of Drinking Groundwater in Karst Regions

Integration of PCA and Fuzzy Clustering for Delineation of Soil Management Zones and Cost-Efficiency Analysis in a Citrus Plantation

Evaluating the Spatial Distribution of some Soil Geotechnical Properties Using Various Interpolation Methods (Case Study: Sulaimani Province, Iraq)

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