The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Agricultural Waste and its Nano-Management: Mini Review
349
364
EN
Hassan
El-Ramady
Soil and Water Dept., Faculty of Agriculture, Kafrelsheikh University, Egypt
hassan.elramady@agr.kfs.edu.eg
Ahmed
El-Henawy
0000-0003-0190-6472
Soil and Water Dept., Faculty of Agriculture, Kafrelsheikh University, Egypt
aelhenawy@agr.kfs.edu.eg
Megahed
Amer
0000-0002-6665-4838
Soils Improvement Dept., Soils, Water and Environment Research Institute (SWERI), Sakha Station, Agricultural Research Center (ARC), Kafr El-Sheikh 33717, Egypt
megahedamer3@gmail.com
Alaa El-Dein
Omara
0000-0001-5622-7501
Agriculture Microbiology Department, Soil, Water and Environment Research Institute (SWERI), Sakha Agricultural Research Station, Agriculture Research Center (ARC), Kafr El-Sheikh 33717, Egypt
alaa.omara@yahoo.com
Tamer
Elsakhawy
Agriculture Microbiology Department, Soil, Water and Environment Research Institute (SWERI), Sakha Agricultural Research Station, Agriculture Research Center (ARC), Kafr El-Sheikh 33717, Egypt
drelsakhawyg@gmail.com
Heba
Elbasiouny
0000-0002-7245-6483
Department of Environmental and Biological Sciences, Home Economy faculty, Al-Azhar University, Tanta 31732, Egypt
hebaelbasiouny@azhar.edu.eg
Fathy
Elbehiry
Central Laboratory of Environmental Studies, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt
fathyelbehiry@gmail.com
Doaa
Abou Elyazid
Horticulture Dept., Faculty of Agriculture, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt
delgiar@agr.kfs.edu.eg
Mohammed
El-Mahrouk
Horticulture Dept., Faculty of Agriculture, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt
threemelmahrouk@yahoo.com
10.21608/ejss.2020.46807.1397
Agricultural wastes are considered residues resulted from the agricultural production and after harvesting fruit and vegetable and their processing, agro-industrial by/co-products from the grapes, banana, olives and milk processing. These wastes may represent a treasure when they are turning into valuable applications (i.e., composting, biochar, removing pollutants from the environment and organic fertilizers) or they may burn in open fields causing some environmental problems such as soil degradation and air pollution. The landfill disposal and open dumping of agro-wastes is a common practice in the developing countries generating huge amounts of ash, which may create serious health and environmental problems, primarily due to pollution of groundwater. Under the umbrella of the bioeconomy and based on industrial innovation and high technology, new and better approaches for the recovery of agricultural wastes have been developed. This has contributed to guaranteeing sustainable production and its consumption, resource efficiency, the conversation of these wastes into valuable products and the reduction of negative environmental impacts. The common management of Agro-wastes may include a lot of suggested uses such as production of biosynthesis of nanoparticles, biotechnological products, composting and biofuel production. A lot of bioactive compounds could be produced from the agro-wastes, which have many application possibilities such as functional food, pharmaceutical and cosmetic approaches. The nano-management of agro-wastes may include using of nanotechnology to convert the agro-wastes into a valuable product. This topic still has several open questions particularly under the sustainable and bioeconomy.
vegetables and fruits,banana peels,Biochar,Nanomaterials,Bioeconomy
https://ejss.journals.ekb.eg/article_122173.html
https://ejss.journals.ekb.eg/article_122173_8bbccb3c63b39632401f988325d55c00.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
CO2 emissions and soil organic carbon in calcareous soils as affected by bonechar and phosphate rock
365
375
EN
Maher
Saleh
Alexandria uni.
maher.saleh@alexu.edu.eg
Ahmed
A.
El-Refaey
Department of Soil and Water Science, Faculty of Desert and Environmental Agriculture, Matrouh University, Marsa Matrouh, Egypt
ahmedelrefaey@alexu.edu.eg
Yasser
Abd Elaziz
Eldamarawy
3Soils and Water Use Department, National Research Centre, Cairo, Egypt
yassereldamarawy@ymail.com
10.21608/ejss.2020.32612.1363
<br /> This study aims to identify the role of bone char (BC) application to calcareous soils in reducing CO2 emission and improving soil fertility compared to phosphate rock (PR). The bovine bone was subjected to anaerobic thermal decomposition (pyrolysis) for two hours at a temperature of 650 °C to produce bone char. Closed-system incubation experiments were conducted to follow the CO2 emission from the soil treated with BC or PR by rates 1.25 and 2.5%. CO2 emissions were tracked over 90 days at two different ambient temperatures (15+2 and 27+2oC). Results of the elemental composition of BC were similar to PR, but BC was characterized by the presence of organic carbon. The active surface groups of bone char are very similar to the phosphate rock groups, but the presence of organic matter resulted in the existence of C = C and O = C groups. A laboratory incubation experiment for 90 days was conducted for soil treated with bone char and tracking the emitted CO2. Application of BC to soil increased phosphorus solubility and retention of CO2 compared to phosphate rock (PR). Carbon dioxide (CO2) immobilization was very high in high temperature (27+2oC) reached 3274-3870 mg/kg soil compared to 101-242 mg/kg soil in low temperature (15+2 oC) in BC-treated soils. BC application to the soil in winter increased the organic carbon from 1.1 to 1.52%, while the percentage dropped from 0.79 to 0.55 in high temperature, with increasing of the dissolved organic carbon form by 40-60 mg/kg soil.
Bonechar,Phosphate Fertilizer,CO2 emissions,Soil organic carbon,Calcareous Soils
https://ejss.journals.ekb.eg/article_111569.html
https://ejss.journals.ekb.eg/article_111569_8237bd2c2c6a31c33e3200223fe8b778.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Effect of Super Absorbent Polymer and Bio fertilization on Maize Productivity and Soil Fertility under Drought Stress Conditions
377
395
EN
rabaa
yaseen
Soil Fertility and Microbiology Department, Desert Research Center, Cairo, Egypt
rabaa.yaseen@yahoo.com
Rehab
Hegab
Soil Fertility and Microbiology Dept., Water Resources and Desert Soils Division, Desert Research Center, Cairo, Egypt.
drrehabhh@yahoo.com
Mohammed
Kenawey
Plant production Dept., Environment and Arid Land Agriculture Division. Desert Research Center, Cairo, Egypt.
mohammedkenawey@yahoo.com
Doaa
Eissa
Desert Research Center
doaataha63@yahoo.com
10.21608/ejss.2020.35386.1372
This study was aimed to investigate the response of maize to supper absorbent polymer (SAP) and exopolysaccharides (EPS) producing bacteria under drought stress conditions at Panjar El -Soukkar region, Alexandria government, Egypt. The functional groups and heavy metal contents of SAP were determined. The swelling capacity of the polymer increased with increasing the hydrolysis time up to 30 minutes and the de-swelling water ratios of the polymer varied from 0.25 to 8 days. EPS-producing bacteria, Klebsiella oxytoca, Serratia marcescens, and Pseudomonas aeruginosa were selected and classified based on their phenotypic, biochemical, and also their molecular criteria. The EPS production by the selected isolates ranged from 0.85 to 1.24 g/100ml and the total activity of antioxidant of the extracted EPS ranged from 1.464 to 1.827%. The bacterial isolates could tolerate up to -2.24 MPa of water stress and their production of EPS increased with increasing drought stress levels. Different plant growth promoting parameters of selected isolates were evaluated. Two field experiments were conducted during 2018 and 2019 summer growing seasons. The obtained data revealed that drought stress had significant adverse effects on growth and yield parameters of maize plant, NPK uptake by grains, nutrient availability and microbial activities in soil. Seed bacterization of maize with EPS-producing bacterial isolates in combination with SAP improved all measured characters compared to PGPR inocula or SAP used alone. The findings suggested that applying superabsorbent polymer in combination with EPS-producing bacteria could improve tolerance of maize plant toward drought.
Corn (Zea mays),Antioxidant exopolysaccharide,PGPR,superabsorbent polymer,FTIR,Drought stress
https://ejss.journals.ekb.eg/article_112322.html
https://ejss.journals.ekb.eg/article_112322_a3cef1dd87ba8dbe14fcf96a7a7ae9c4.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Spectroscopic Characterization of Plant Cover in El-Fayoum Governorate, Egypt
397
408
EN
Ghada
Khdery
National Authority for Remote Sensing and Space Sciences (NARSS), 23 Joseph Tito Street, El-Nozha El-Gedida, P.O. Box: 1564 Alf Maskan, Cairo, Egypt.
ghada.ali@narss.sci.eg
Abd-Alla
Gad
National Authority for Remote Sensing and Space Sciences (NARSS), 23 Joseph Tito Street, El-Nozha El-Gedida, P.O. Box: 1564 Alf Maskan, Cairo, Egypt.
abdallagad1@gmail.com
Ahmed
M.
El-Zeiny
National Authority for Remote Sensing and Space Sciences (NARSS), 23 Joseph Tito Street, El-Nozha El-Gedida, P.O. Box: 1564 Alf Maskan, Cairo, Egypt.
aelzeny@narss.sci.eg
10.21608/ejss.2020.36730.1377
EL- Fayoum region is the unique Egyptian western desert depression provided by surface Nile water. It’s one of the global oldest agricultural provinces. Hyperspectral remote sensing plays an important role in assessing the biophysical characters of plant. The current investigation is one of the early attempts to study the hyperspectral characteristics of cultivated crops and wild plants in El-Fayoum Governorate. The work assists in understanding the status of the vegetation structure responding to water scarcity in the study area. Spectral reflectance of cultivated & wild plants was recorded ASD field spec spectroradiometer device and integrated with lab analyses using statistical analyses of SPSS and JMP Software. Optimal waveband and optimal wavelength were calculated by ANOVA and Tukey’s analysis for discriminating of plants in the study area. Remotely sensed hyperspectral data were processed to produce spectral indices of plants to estimate the plant's vitality. Results indicated that Near Infrared (NIR) and Short Wave Infrared II (SWIR II) spectral regions were optimal to discriminate investigated taxa. In the Blue spectral zone no significant reflection was noticed. Spectral characteristics for the Mangifera indica (infected plant) indicated water stress. Spectral Reflectance analysis for Ablmoschus esculentus indicated plant suffered chlorophyll decrease. Plant Senescence Reflectance Index (PSRI) and Moisture Stress Index (MSI) for Mangifera indica (infected plant) and Abelmoschus esculentus (infected plant) were high and indicated that two plants suffer canopy stress. Also, results showed that Citrus sinensis has the highest value of NDVI (0.82) and CRII (7.99) between other plants. It could be concluded that the study of spectral signature is rather valuable in characterizing vegetation cover. Also, growth conditions and the environment can be predicted via spectral characterization curves.
Spectroscopic Characterization,Plant Cover,El-Fayoum Governorate,Remote Sensing
https://ejss.journals.ekb.eg/article_113689.html
https://ejss.journals.ekb.eg/article_113689_e2e2530891a1f61ae5d3db39f1d52502.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Studying the Effect of Spraying Magnetized Fulvate and Humate Solutions on Phosphorus Availability in Sandy Soil Cultivated by Faba Bean (Vicia faba L.)
409
423
EN
Mohamed
Saad Mohamed
Sandy and Calcareous soil Research Department - Soils, Water and Environment Research Institute - Agricultural Research Center
drmohamedsaad2018@yahoo.com
10.21608/ejss.2020.36394.1374
Two field experiments were carried out in sandy soil at the Ismailia Agricultural Research Station during winter seasons of 2017/2018 – 2018/2019. The aim is to study the effect of magnetized aqueous solutions (0.5% v/v) of potassium fulvate (KF) and/or potassium humate (KH) sprayed in presence of soil applied rock phosphate (RP) and/or super phosphate (SP) fertilizers (16.09 Kg P ha-1 application rate) on faba been (Vicia Faba L.) plant. Spraying of solutions was applied four times 30, 50, 70 and 90 days after sowing. Control treatments (0 additions), magnetized (KFM and/or KHM) and non-magnetized (mixed with tab water, KFT and/or KHT) treatments were distributed in a complete randomized block design. Cultivation was performed as recommended by the Ministry of Agriculture. At maturity stage and after harvest, yield (Mg ha-1) and some yield components, percentage (%) of N, P, and K available in soil and total in plant, pH and EC were estimated. Results showed the magnetic treatments KFM and KHM resulted in the most significant increase of the available P (mg kg-1) in soil for RP and SP treatments and the available N for RP. The increase in the available K in soil was non-significant. Magnetic solutions of KFM and KHM also exhibited a significant increase in the seed weight and dry weight of pods (g plant-1) but the increase in the yield of seeds and straw (Mg ha-1) was non-significant. Foliar application of magnetic fulvate and humate solutions may enhance the efficiency of phosphorus fertilization under sandy soil conditions.
Humic substances,K-humate,K-fulvate, Phosphorus availability,Foliar treatment,Faba bean growth
https://ejss.journals.ekb.eg/article_117211.html
https://ejss.journals.ekb.eg/article_117211_805e855e169d80fac2d3f383f65d07ae.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Mycorrhizae Can Support Squash Plant Growth in Phosphorus Deficient Calcareous Soil
425
435
EN
Islam
Ibrahim
Abou El Seoud
0000-0001-7825-9790
Department of Soil and Agricultural Chemistry, Faculty of Agriculture, Saba Basha, Alexandria University, Egypt.
drislamabouelseoud1971@yahoo.com
Nagla
M
Abd El Hamid
Department of Soil Science, Alex University, Egypt
naglaah@gmail.com
mahmoud
Wafik
Sadik
0000-0001-7825-9790
Department of microbiology, Faculty of Agriculture, Cairo University
mahmoudsadik63@gmail.com
10.21608/ejss.2020.30086.1357
This work was aimed to select the proper Arbuscular Mycorrhizal (AM) inocula strain to enhance the growth of squash plants in calcareous P-deficient soil. Three treatments of phosphorus fertilizer of calcium triple phosphate, 15.5% P2O5 were tested at different rates. In parallel, pots were inoculated with 4 AM strains (Rhizoglomus irregulare) namely M49; M139; M301 and M 510. Treatments were repeated 5 times and arranged in the greenhouse in a randomized completely block design (RCBD) and plants were harvested after 57 days. In conclusion, from the results and under the same conditions of this experiment, we recommended that all mycorrhizal strains were effective in improving plant growth. The strain M301 enhanced squash plants growth and P uptake. Also, inoculation with this strain could improve P availability in soil. The two mycorrhizal strains (M49 and M139) can be used for improving the growth of squash plants under low P level and in calcareous soil conditions. This study is one of the few studies that indicate the specialization of mycorrhizal fungi strains on the host plant and this study must be followed by many other studies in different climatic conditions, different soil properties and on different genus and strains of AM fungi on different plants family to confirm or deny this hypothesis.
squash plants,mycorrhizal strains,P,fertilizer,Calcareous soil
https://ejss.journals.ekb.eg/article_117627.html
https://ejss.journals.ekb.eg/article_117627_3ad11f49f7c85a4ab9f18a4e04027426.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Soil and Air Pollution in the Era of COVID-19: A Global Issue
437
448
EN
Hassan
El-Ramady
0000-0002-1113-726X
soil and water dept. faculty of agriculture
ramady2000@gmail.com
Eric
Brevik
Departments of Natural Sciences and Agriculture and Technical Studies, Dickinson State University,
Dickinson, ND 5860,1 USA
eric.brevik@dickinsonstate.edu
Megahed
Mohamed
Amer
0000-0002-6665-4838
Soils Improvement and Conservation Res. Department, Soils, Water and Environment Res. Institute,Agric. Res. Center, Giza, Egypt.
megahedamer3@gmail.com
Tamer
Elsakhawy
Agriculture Microbiology Department, Soil, Water and Environment Research Institute (SWERI), Sakha Agricultural Research Station, Agriculture Research Center (ARC), 33717 Kafr El-Sheikh, Egypt,
drelsakhawyg@gmail.com
Alaa El-Dein
Abdelghaffar
Omara Ahmed
0000-0001-5622-7501
Soil, Water and Environment Research Institute, Sakha, ARC.
alaa.omara@yahoo.com
Heba
Elbasiouny
0000-0002-7245-6483
Department of environmental and biological science, home economy Faculty, Al-Azhar university, Egypt.
hebaelbasiouny@azhar.edu.eg
Fathy
Elbehiry
KFS uni
fathyelbehiry@gmail.com
Ahmed
Ali
Mosa
Soil dept. Fac. of Agric Mansoura University , Mansoura . Egypt
ahmedmosa@mans.edu.eg
Ayman
El-Ghamry
soil and water dept. faculty of agriculture, Mansoura Uni.
ame.egypt@gmail.com
Yousry
Bayoumi
Horticulture Dept., Faculty of Agriculture, Kafrelsheikh University, 33516 Kafr El-Sheikh, Egypt
ybayoumi2002@yahoo.com.sg
Tarek
A.
Shalaby
Arid-land Agriculture Department, College of Agricultural and Food Sciences, King Faisal University, Al-Ahsa, KSA
tshalaby@kfu.edu.sa
10.21608/ejss.2020.49996.1411
By the end of 2019, the universe was woken up to see one of the unprecedented dramatic catastrophes all the over the world, which called the COVID-19 pandemic or coronavirus. This virus already changed the global map and enforced the globe to start a new era that no one can predict the volume of changes worldwide on social, economic and environmental levels. The pollution of soil and air as two compartments of the agroecosystem were and still represent two vital columns of the environment structure. Based on the social distancing, lockdown and quarantine, the air pollution was reduced in several cities worldwide, whereas this relationship on soil as a complex system still needs mor and more investigations. Therefore, the most immediate impacts of the COVID-19 pandemic on soils and vice versa are mainly depending on the human activities. The managing soils may include both restoring of soils from the virus impacts and to sustain crop yields for long-term sustainability to keep the soil healthy for next generations. Therefore, this review is an attempt to highlight the mutual impact of COVID-19 on pollution of soil and air. Many open questions are needed to be investigated such as what are the expected environmental impacts of COVID-19 on soil and air? Is there any links between air pollution and COVID-19? Is there any role of soil in spreading the COVID-19 pandemic? What about the soil pollution status under COVID-19 outbreak? What is the projected management scenario of soil and air pollution under COVID-19 outbreak? What is the potential presence of COVID-19 and its behavior in the soil?
environmental pollution,Virus corona,SARS-CoV-2,soil health,Air Quality
https://ejss.journals.ekb.eg/article_126520.html
https://ejss.journals.ekb.eg/article_126520_c6d7f3845edbc431a2e96e609a8c1ef6.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Bio-fortification of Potato Plants with different Nitrogen Rates and Applied Iron Forms in Presence and Absent of Azotobacter sp.
449
467
EN
Hanaa
Mohamed
Sakara
soil Dep., Agric., Mansoura Univ., Egypt
nemosema@gmail.com
ahmed
gamal el-deen
badour
Soil, Water and Environment Res. Inst., Agric. Res. Center, Giza, Egypt
ahmed.badour2010@gmail.com
10.21608/ejss.2020.43816.1386
Field investigation during 2018-2019 and 2019-2020 were carried out to study the effect of nitrogen fertilization and iron applications on potato plants in presence or absence of azotobacter. The experiment was laid out in split-split plot design with three replications having 16 treatments arrangement as; four rates of nitrogen fertilization (0, 50, 75 and 100% N from recommended dose) as main plot, two forms of iron (soil and foliar) as sub plot and Azotobacter inoculation (presence and absence) as sub-sub plot one. The findings indicate that growth parameters (i.e. plant height, fresh and dry weights), yield attributing parameters (i.e. fresh weight of tuber (g plant -1), No. of tubers per plant, average tuber weight (g) and dry matter of tubers (%) as well as total yield; (ton fed-1), chemical content as N, P, K%, Fe mg.kg-1 in leaves and tuber, leaves chlorophyll content as well as potato quality (i.e. total carbohydrates, starch (%), vitamin C (mg 100g -1) and NO3-N;(mg kg -1) ) increased with an increase in nitrogen levels with maximum values being obtained on application of 75% N from recommended dose. However, highest values for all traits were recorded with foliar application of Fe-EDTA, also, in presence of azotopacter. So, it can be concluded that 75% N + Fe-EDTA + azotobacter produced the best potato yield and quality compared to other treatments.
Nitrogen fertilization,iron,azotobacter and potato plants
https://ejss.journals.ekb.eg/article_127013.html
https://ejss.journals.ekb.eg/article_127013_431d7482fe3f49b58231da5747c9b242.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Impact of Biofertilizers on Maize (Zea mays L.) Growth and Yield under Calcareous Soil Conditions.
469
483
EN
Shimaa
Ganzour
Soils, Water and Environment Research Institute (SWERI), Agriculture Research Center (ARC), Egypt
sh.ganzour82@gmail.com
Tharwat
Ghabour
0000-0003-0618-8975
Soils & Water Use Dept., National Research Center, Dokki, Cairo, Egypt
thghabour@hotmail.com
Nadia
M.
Hemeid
Soils, Water and Environment Research Institute (SWERI), Agriculture Research Center (ARC), Egypt
Khatab
A.
Khatab
Soils, Water and Environment Research Institute (SWERI), Agriculture Research Center (ARC), Egypt
10.21608/ejss.2020.45922.1392
The agricultural expansion in Egypt is of great importance to face the shortage in cereal crop production. Biofertilizers recently are used to overcome the deficiency of some nutrients due to their fixation in the soil and consequently increase its fertility especially in calcareous soil. The current work is aiming to assess the use of phosphate solubilizing bacteria (PSB) and cyanobacteria (Cyan.) for maize production in calcareous soil. A field experiment was conducted to achieve this goal in a split-plot type in three replicates over two years. The obtained results were promising, where all growth parameters; leaf chlorophyll content, plant height, ear length, ear diameter and ear weight, showed a significant increase. Yield parameters; grain weight, weight of 100 grains, grain yield and straw yield were increased by 56, 27, 86 and 26%, respectively compared to control. Effect of the phosphate solubilizing bacteria on yield exceeded that of cyanobacteria but the effect of their combination was the highest. Nutrient uptake by grain and straw was also remarkably increased, where N, P and K uptake by grain showed an increase of about 112, 192 and 198%, respectively of their values of control treatment. Grain components; carbohydrate and protein contents increased by 8.8 and 112%, respectively as compared to control. Carbohydrate content under PSB treatment was higher than its value under Cyan. while protein content showed the opposite. Finally, available N, P and K in soil increased by about 55, 94 and 39%, respectively at the end of the experiment.
Calcareous soil,Maize,biofertilizers,Phosphate solubilizing bacteria,Cyanobacteria,Wadi Al-Arish
https://ejss.journals.ekb.eg/article_127083.html
https://ejss.journals.ekb.eg/article_127083_a5e1e58181cbee8eeebd2071c5eaf732.pdf
The National Information and Documentation Centre (NIDOC) affiliated to Academy of Scientific Research and Technology(ASRT)
Egyptian Journal of Soil Science
0302-6701
2357-0369
60
4
2020
12
01
Soil Mineralogy of North Western Desert, Egypt
485
500
EN
Yousif
Kotb
El Ghonamey
Soils, Water and Environment Research Institute (SWERI) - ARC
kotby72@gmail.com
Abdellatif
Deyab
Abdellatif
0000-0003-0679-6030
Soil, Water and Environment Research Institute, Agricultural Research Center, Egypt
abdellatifdeyab@yahoo.com
Mamdouh
Khalil
Abdel Ghaffar
Remote sensing and GIS Unit, SWERI, ARC
mamdouh66swi@gmail.com
10.21608/ejss.2020.48740.1407
The purpose of this work is to study the mineralogical characteristics in an area north of the Western Desert, Egypt to give an idea about origin and genesis of soils as well as their uniformity and weathering. The study area divided into four main geomorphological units: terraces, escarpment, structural platform and sand accumulation. The sand fraction consists of light and heavy minerals. The light minerals are the main constituent of sand fraction and consists mainly of quartz (≥ 92 %) followed by feldspars (plagioclase and orthoclase) in addition to muscovite and calcite minerals. The heavy minerals consist of opaques and non-opaques. Opaque minerals are the major heavy fraction constituent and composed essentially of iron oxide minerals. The complementary non-opaque minerals consist of:(a) Sedimentary origin minerals, which also named ultrastable or index minerals, are mostly dominating the non-opaque minerals. (b) Igneous origin minerals or unstable minerals are the second abundance minerals. (c) Metamorphic origin minerals or metastable (index) minerals are detected in considerable portions. The vertical distribution of the index minerals and the uniformity ratio values in the studied soils change irregularly depth wise. This indicates that these soils were formed from materials of multi-origin. The clay minerals could be present as a result of inheritance from parent material by alteration, degradation of primary minerals and addition. The variation in the relative content of the present clay minerals may be attributed mainly to sedimentation regime varieties (e.g. recycling from different sedimentary precursors) and /or to the nature of the source rocks.
Soil mineralogy,North Western Desert,Egypt
https://ejss.journals.ekb.eg/article_128686.html
https://ejss.journals.ekb.eg/article_128686_e0b41e5ee631c040708b0151d9315af1.pdf