Personal Information

Mohamed Zaki Khedr

Professor of Petrology and Geochemistry

(e.g., Geochemistry of Economic minerals)

Geology Department, Faculty of Science,

Kafrelsheikh University, El-Geish Street,

33516, Kafr El-Sheikh, Egypt

      E-mails: mohamed.khader1@sci.kfs.edu.eg;     Khedrzm75@gmail.com,

      Tel. /Mobile Number: +2-01013017715,  or  +2-01062469149       

      Tel: +2-0473160085  or   +2-0473150053,  Fax: +2-0473215175

      Date of Birth:  October 12, 1975

      Nationality: Egypt

      Personal Net Sites

http://www.kfs.edu.eg/drkhedr.html

https://drmohamedkhedr.blogspot.com.eg

https://www.researchgate.net/profile/Mohamed_Khedr3

https://www.independent.academia.edu/DrMohamedKhedr

https://scholar.google.com.eg/citations?user=-FzqCQsAAAAJ&hl=en

https://www.facebook.com/Dr.MohamedZakiKhedrr/

Research Interest

      Mineralogical and geochemical exploration of rare metals, wolframite (host tungsten), and lithium-bearing minerals (spodumene, mica) in younger granites and associated pegmatites

      Remote sensing and geochemical studies of Neoproterozoic mineralized granitoid rocks enriched with rich gold, garnet and copper

      Petrology and geochemistry of mafic-ultramafic rocks (ophiolite and layered intrusions) and their mineralization (Au-Ni-Cu- Co-PGM, Fe-Ti-V oxide deposits, chromitite, and sulphide deposits)

      Carbonation of mantle (Rodingites and listvenite formation) and its relation with gold deposits

      Geochemistry of  heavy minerals in Wadi deposits, stream sediments and black sands

      Mineralogical and geochemical exploration of copper, cobalt and nickel in metavolcanics and related rocks (copper-bearing talc).

      Porphyritic textures and their related mineralization

      Alteration zone-related mineralization  and mineralization at thermal or intrusive contacts such as the contact between mafic-ultramafic rocks and late intrusions

      The spatial difference and extent of serpentinization and magnetization of peridotites from base of mantle section to the Moho Transition Zone

      Mineralogy and chemistry of chromitite deposits and associated platinum group minerals (PGM), and mineral inclusions as evidence of ore deposit origin and type of metasomatism.

      Stable isotope (O, C, H) and isotopic compositions (e.g., Ar?K,  Rb–Sr, Re?Os, Sm?Nd, Lu?Hf, U?Pb) of mafic-ultramafic rocks (whole rocks) and their minerals (Amphiboles, Pyroxenes, Spinels, Olivines, Sulphides)

I) Master’s Program (2000?2004)

My master research focused on petrology and geochemistry of Neoproterozoic ophiolitic rocks and younger granites in Southern Eastern Desert, Egypt. Thesis title was: "Petrological and geochemical studies on the area around wadi Arais, South Eastern Desert, Egypt". The results have been published in two papers that discussed petrography and geochemistry of ophiolitic rocks (serpentinites, podiform chromitites, metagabbros and metavolcanics), their petrogenesis and a new model for the geodynamic evolution of the Arais area as a part of the Arabian Nubian Shield (Neoproterozoic age). Another paper has been published and discussed the petrogenesis of mineralized younger granites around Wadi Arais. In addition, the new geological map of Arais Area (scale 1: 50000) was published during this study.

II) PhD Study (2006?2010)

I have studied metamorphosed and hydrous peridotites (mantle petrology and geochemistry) in the Happo-O’ne complex, central Japan, under supervision of Prof. Dr. Shoji Arai, Kanazawa University, Japan. PhD Thesis title was: Petrology and geochemistry of high-pressure metamorphosed peridotites, Happo-O’ne complex, central Japan. The importance and main achievement of this study have been published in three international papers (Khedr and Arai, 2009, 2010; Khedr et al., 2010). This PhD project reported a retrograde origin of the Happo-O’ne peridotites, and discussed their tectonic setting (fore-arc setting) and metamorphic history. This study helped us to know the features of ancient mantle processes during subduction (Pacific Ocean-Eurasian Plate) and metasomatism above the subducted slab (subduction metasomatism). It also discussed chemical change of slab-fluid compositions (vertical changes) during multi-stage metasomatism of mantle-wedge peridotites based on chemistry of clinopyroxenes (Major, trace and REE) and whole-rock chemistry. Peculiar Cr-spinel (enriched in TiO₂ up to 6.0 wt%) was recorded as evidence of Ti mobility and exchanging between spinel and host minerals in micrometer scales.

III) The postdoctoral and current research (2010?2023)

    The postdoctoral and current research focused on petrology, geochemistry and economic minerals of both younger granites and mafic-ultramafic rocks to understand factor controlling ore deposits, Neoproterozoic to Mesozoic mantle processes (mantle dynamic, mantle heterogeneity/metasomatism, melting processes, geochemical gradient, and melt refertilization) in Egypt, Oman, Iran and Japan. Neoproterozoic mafic-ultramafic rocks (e.g., ophiolitic and layered intrusion types) and their ore deposits (podiform and banded chromitites, ilmenite and magnetite ore deposits) from the Eastern Desert of Egypt have been discussed to indicate the petrogenesis of these complexes and the origin of their ore deposits. Integration of these data has, among other things, provided new insights into ore genesis, subduction-zone processes, slab-derived fluid compositions, mantle-crust magmatic processes (fractionation, assimilation, and contamination of magmas) and the geodynamic evolution of the Arabian-Nubian Shield and the suture zone of the Arabian?Eurasian collision.

A-petrology and geochemical studies of ophiolitic rocks, granites and layered intrusions

 I have, with professors from Japan, USA and Austria, used geochemical data and mineral composition to understand petrogenesis and classification of layered intrusions, Alaskan-type intrusions, ophiolites (e.g., serpentinized peridotites), mineral and bulk–rock chemistry of Shadli bimodal metavolcanics and younger granites as well as their related ore deposits in Egypt. I have also discussed petrogenesis of serpentinized peridotites in Japan to understand behaviors of trace elements during the retrograde and prograde processes.

Petrology and geochemistry of basal peridotites and serpentinites above the metamorphic sole in the central Oman ophiolite have been discussed to understand oceanic mantle heterogeneity and mantle processes. The small-scale (<5 cm) lithological and chemically mantle heterogeneity based on textural, mineral composition and whole rock chemistry was documented. The study can put constraints on the geodynamic evolution of Oman ophiolites during the closure of Neotethys Ocean due to Arabian?Eurasian collision or detached ophiolite section by faults or segments of Mid-ocean ridge.

I have, with coauthors from Iran, Japan, USA and united kingdom, studied the origin and age dating of late Miocene K-rich volcanism in NW Iran, chemistry and isotopic compositions of supra-subduction zone magmatism associated with the Neyriz ophiolite (Iran), mantle peridotites in Late Cretaceous ophiolites, geochemical and geochronological constraints on origin of the Sawlava ophiolite (NW Iran) and Fannuj-Maskutan SSZ-type ophiolite (Inner Makran, SE Iran), subduction initiation and back-arc opening north of Neo-Tethys, and roll-back, extension and mantle upwelling triggered Eocene shoshonitic magmatism in NW Iran. Isotopic studies and age dating have been done for some ophiolitic rocks to indicate rock age, crustal contamination, and contribution from slab-derived components during subduction. In addition, I, with coauthors from Pakistan and France, studied geochemistry of Waziristan ophiolite complex in Pakistan and studied melt-impregnation and metamorphism of Atlantis Massif peridotite (IODP Expedition 357) with coauthor Dr. Scott Whattam (KFUPM, Saudi Arabia)

B-Ore deposits and mineralization studies

 I have used geochemical data and mineral composition to understand the source and origin of high-Mn impurities in iron ores from Bahariya Oasis and explained and classified these ores based on mineralogy, elemental mapping, trace, and rare earth elements. This work helps our society for using the Mn-free ores in the steel industry in Egypt, but Mn-rich iron ores for production of ferromanganese alloy. I compared iron-ore morphology and composition in sedimentary rocks (Bahariya Oasis, Egypt) with magnetite deposits in Oman serpentinites to know iron source and origin and to understand iron mobility, metal solubility in different fluid compositions. I have described mineralogy of magnetite deposit concentrated within a nonconformity surface between Aniba serpentinites and overlying limestones in the Southern Oman ophiolite to know magnetite origin and iron sources during serpentinization of peridotites as well as to understand iron mobility/leaching, metal solubility during serpentinization stages, with special reference to factors controlling the magnetite-orebody sizes.

I have used geochemical data of chromite and its mineral inclusions to indicate the genesis of both chromitite types and associated sulphide deposits, tectonic setting and factor controlling the size (volume %) and distribution of chromitite pods. I have firstly studied banded chromitites and associated sulphides in the Neoproterozoic subarc deep-crustal magma of Alaskan-type complex in Egypt to understand magmatic fractionation and sub-arc magma processes. I have studied Korab Kansi mafic-ultramafic intrusion in South Eastern Desert of Egypt that hosts economic Fe-Ti-V deposits as evidence of Ti-rich ferropicritic magmatism. Mineral chemistry and geochemical data suggested that metasomatized mantle due to interaction of lithosphere with upwelling asthenospheric melts and slab-derived fluids/melts in an island-arc setting of high oxygen fugacity and water contents are factor controlling the formation of Ti-rich melts and formation of economic Fe-Ti-V deposits.

I have, with coauthors from Iran, used geochemical data to understand petrogenesis of arc-related harzburgite-dunite-chromitite complexes in Sabzevar ophiolite (Iran), geochemical variability among stratiform chromitites and ultramafic rocks from Western Makran, South Iran, petrogenesis of arc-related peridotite hosted chromitite deposits in Sikhoran-Soghan mantle section, South Iran. These data shed the light on genesis of podiform chromitites and indicate different mechanisms for formation of both podiform chromitite and stratiform chromitite deposits in Iran.

Recently, I have, with my team, used application of remote sensing and geochemical data in detecting mineralized granitic zones (rich in rare metals and garnets) in the Central Eastern Desert of Egypt, understanding genesis and evaluation of heavy minerals in black sands in the Southern Eastern Desert of Egypt, and determine two styles of Fe–Ti-V ore deposits in the Neoproterozoic layered mafic-ultramafic intrusions. In addition, my team determined genesis of sulfide mineralization and gold-bearing sulfides in Atshan and Darhib areas, South Eastern Desert of Egypt. Formation of banded chromitites and associated Ni-Co-Cu rich sulphides in the Neoproterozoic Alaskan-type complex and petrogenesis of the ~740 Ma Korab Kansi mafic-ultramafic intrusion enriched with Fe–Ti-V ore deposits have been discussed to determine ore genesis and factor controlling their distribution and sizes.

I have, with my team, used application of remote sensing and geochemical data for exploration of rare metals-bearing granites and rare metals (REE, Li, Cs, Ta, Nb, Sc, Y, Zr, Sn, U, and W) that are economically important and enter in manufacture of cell phones, battery, notebooks and digital cameras. In addition, we studied carbonation of mantle and listvenite enriched with gold, gold-bearing minerals in metagabbros-diorite complex and granitoid rocks, beside metavolcanics and talc enriched in copper for battery manufactures.

Educational Qualification

Minor Field

Field

University/Institution

Date

Academic Degree

Mineralogy and Geochemistry

Geology

Kanazawa University-Japan

2010

PhD

Mineralogy and Petrology

Geology

Faculty of Science-Tanta University-Egypt

2004

Master

Geology

Geology

Faculty of Science-Tanta University-Egypt

1997

B.Sc

Employment History

Date (D–-M–Y)

Position

28 –7–2020

Professor of Petrology and Geochemistry (especially geochemistry of economic minerals in igneous and metamorphic rocks), Geological Department, Faculty of Science, Kafrelsheikh University, Egypt

29 –6 –2015

Associate Professor of Petrology and Geochemistry, Geological Department, Faculty of Science, Kafrelsheikh University, Egypt

24 –5–2010

Assistant Professor of Mineralogy and Petrology, Geological Department, Faculty of Science, Kafrelsheikh University, Egypt

1 – 6–2009

Assistant lecturer of Geology, Geological Department, Faculty of Science, Kafrelsheikh University, Egypt

15–6–2004

Assistant lecturer of Geology, Geological Department, Faculty of Education, Kafrelsheikh branch, Tanta University, Egypt

1 –11–1999

Demonstrator of Geology, Geological Department, Faculty of Education, Kafrelsheikh branch, Tanta University, Egypt

15 –9–1998

Geologist in Egyptian Geological Survey and Mining Authority, Cairo, Egypt

Scholarship and Postdoctoral Position

Date

Sponsor/Country

Scholarship/Visiting Name

February 2023

King Fahd University of Petroleum and Minerals, Saudi Arabia

Visiting Professor

August-2022

Japan Society for the Promotion of Science (JSPS)-Japan- Hosting: Kanazawa University

JSPS Bridge Scholarship

2019-2020

Graduate School of Natural Science and Technology, Niigata University, Japan

Postdoctoral Researcher

1-31July2018

Graduate School of Natural Science and Technology, Kanazawa University, Kanazawa, Ishikawa, Japan

Visiting Professor

June-July2016

Graduate School of Natural Science and Technology, Kanazawa University, Kanazawa, Ishikawa, Japan

Visiting Professor

2013 –2014

Japan Society for the Promotion of Science (JSPS)-Japan- Hosting: Kanazawa University

Postdoctoral Fellow (JSPS)

2011–2013

Graduate School of Natural Science and Technology, Kanazawa University, Kanazawa, Ishikawa, Japan

Postdoctoral Researcher

2006 –2010

Egyptian Government “Egyptian higher Education Scholarship” to conduct PhD (4 yrs) in Japan

Scientific Mission

Supervision and Reviewer in Journals 

Supervision:

- Supervisor for five Master Students.

1-Al Desouky, A. A. A. (2018). " Geology and geochemistry of ophiolite-island arc association-hosted sulphides as a guide of gold exploration in the Southern Eastern Desert of Egypt ".

2-Abo Khashaba, S.M.A. (2019). " Integration of remote sensing and geochemical data for the exploration of some rare metals-bearing granitic plutons, Central Eastern Desert, Egypt"

3-Ahmed, H.Z.A. (2019). " Using remote sensing and geochemical data to indicate distribution and origin of heavy minerals in  some black-sand sites along the coastal plains and wadies across Red Sea mountains, Egypt ".

4-Mohamed Hassan Mohamed Hassan Ghoneim. (2021). Geological and geochemical studies of gold- and sulphides-bearing ophiolitic and island arc assemblages in the Southern Eastern Desert, Egypt

5-Mahmoud Ahmed Mahmoud Syed. (2021). Geological and geochemical studies of volcanic and metavolcanic rocks, South

Eastern Desert, Egypt

6-Ahmed Saaid Moftah. (2022). Mineralogy, geochemistry and genesis of Fe-Ti oxide ores in gabbroic rocks from some selected areas, Eastern Desert, Egypt

Reviewer in International Journals

1- Precambrian Research   2- Journal of African Earth Sciences      3-Lithos        4- Ore Geology Reviews                  

5- Contributions to Mineralogy and Petrology       6-International Geology review          7-Island arc

8-Journal of Asian Earth Sciences          9-Geological Journal        10-Chemie der Erde (Geochemistry)

11-Journal of the Geological Society        12.Arabian Journal of Geosciences, 13. Lithosphere   

 14. Minerals          15. Guest Editor in "Minerals" 

https://www.mdpi.com/journal/minerals/special_issues/OVD0343WCM

Academic and Professional Affiliations

·         A member in the National Committee for Earth's physics and Earth's scales, Academy of Scientific Research and Technology, Arab Republic of Egypt, 2020

·         A member in Japan Association of Mineralogical and Petrological Sciences.

• A member in Japan Geoscience Union (JPGU)                  
• A member in the Geochemical Society, https://www.geochemsoc.org/
• A member in Asia-Oceania Geosciences Society (AOGS).   
• A member in Japan Society for the Promotion of Science (JSPS), Egyptian branch
• A member in the Geological Society of Egypt.

·         A member in Egyptian Syndicate of Scientific Professions.

Activity in Faculty and University

• Participation in committee for buying scientific instruments and investigated these instruments
• Participation in Quality Assurance Unit for Educational Quality and work as a vice president of Quality Assurance Unit 2015
• Participation in Exam Control for students in Faculty of Science and Faculty of Pharmacy since 2014 Till Now
• Participation in one project for undergraduate students to improve the educational system.
• Participation in training of Academic staff of Kafrelsheikh University to improve the scientific publications because I got international certificate of TOT (Associate Trainer) from IBCT (International Board of Certified Trainer)    see site: http://www.ibct-mena.com

Responsibility toward Society

• Published several articles in Egyptian newspaper about the black sand and mineralization, how to use and how to preserve these natural resources

http://www.ahram.org.eg/NewsQ/604378.aspx

• Several interviews in Egyptian television and speaking about black sand and gold mineralization in Egypt. How does the science help our society

https://www.youtube.com/watch?v=jTaqhmYimi8

https://www.youtube.com/watch?v=WGe_EMM5KPY&t=17s

https://www.youtube.com/watch?v=jt1RzJFMKpg

 https://www.youtube.com/channel/UCBaMWKk6Z6r2-q8DlB8LD8A/videos

https://www.youtube.com/channel/UCBaMWKk6Z6r2-q8DlB8LD8A/videos

https://www.youtube.com/watch?v=FMTv3jgWeo8&feature=share&fbclid=IwAR3AJ5nqMP88GhOsejKq1fFBWmEuWt4khKjVNA2LHCEmnGwizUyLn0Rn6p0
https://www.youtube.com/watch?v=D0U5a2OkkqU&feature=share&fbclid=IwAR2BTUxEBjzpiQYsqQi7mcLEnLZY4ejb6LiKdkyeV-Nz-UcxhXek_EzjPX4

the Speaking of science program on Nile Tv

https://www.youtube.com/watch?v=XKros2seT0Q&t=464s

https://www.youtube.com/watch?v=QaxKWrDMLgI&t=6s

• Participation in teaching for teachers worked in Elementary Schools to improve their academic knowledge and skill
• Participation in training of geological students in some Petroleum and Industrial Companies to improve the experimental skills
• Member of the National Committee for Earth's physics and Earth's scales, Academy of Scientific Research and Technology, Arab Republic of Egypt
• Participation  and evaluation of students' articles in STEM school, Kafr El-Sheikh

Field Experiences and Qualifications

?  Expedition and Field Work:

• Several field trips to Eastern Desert of Egypt  (2015-2020) to teach field work, surveying and petrology for fourth grade geological students, Faculty of Science, Kafrelsheikh University, Egypt
• The field work experience in Neoproterozoic ophiolite complex in the south and central Eastern Desert of Egypt, studying the podiform chromitite and associated ultramafic rocks as well as Alaskan type rocks and layered mafic-ultramafic rocks (during postdoctoral project, 2011-2020).
• Several field trips to Sultanate of Oman to study the Oman ophiolite complex through the Japanese Project 2010, 2011 and 2012 (during postdoctoral project).
• The field work experience in Paleozoic ultramafic rocks in Hida Marginal belt (Ise area), central Japan, November/2010 (during postdoctoral project).
• Field trip to the Japanese Fukui prefecture for studying the Oeyama ultramafic masses (October 2007).
• The field work experience in high-pressure metamorphosed peridotites, Happo-O’ne complex, central Japan (during Ph.D., 2006 - 2010).
• Several years field experience in Neoproterozoic ophiolitic rocks and granites in the Southern Eastern Desert of Egypt (during M.Sc. study, 2000 - 2004).

?  Qualified for using the following instruments

• Qualified for using Scanning Electron Microscopy (SEM)-Energy Dispersive X-Ray Spectroscopy (EDS), to identify minerals by spectrum and taken SEM photos and mapping.
• Using X-Ray Diffraction (XRD) to identify hydrous minerals by using powders of whole rocks.
• Qualified for using X-ray fluorescence (XRF) spectrometer (System-3270, Rigaku) at the Department of Earth Science, Kanazawa University, Japan (2006-2014) to determine major-oxides for whole rocks and can prepare the fused glass and powder pellet.
• Qualified for using Differential Thermal Analysis (DTA) at the Department of Earth Science, Kanazawa University, Japan to identify types of serpentine minerals.
• Qualified for using Electron-Probe Micro Analyser (EPMA) at the Department of Earth Science, Kanazawa University, Japan (2006-2014) to determine major-oxides for minerals.
• Qualified for using and calculate data and using laser-ablation (193 nm ArF excimer: MicroLas GeoLas Q-plus)-inductively coupled plasma mass spectrometry (Agilent 7500S) (LA–ICP–MS) at Kanazawa University, Japan (2007-2014) to determine trace and Rare Earth Elements in minerals and rocks.
• Qualified to use the micro-Raman system (HORIBA Jobin Yvon, LabRAM HR800) equipped with a 514.5 nm Ar lazer (MELLES GRIOT, 43 SERIES ION LASER, 543-GS-A02) and an optical microscope (Olympus, BX41) at Kanazawa University, Japan. I worked on Lazer  Raman from 2011-2014 to determine the fluid inclusions in chromitites and determine type of hydrous minerals.
• Qualified and professional to prepare thin section and polished thin sections for petrography and ore studies.

Teaching Experiences

I am teaching these courses for students in Kafrelsheikh University, Egypt

• Advanced Geochemistry2 (Ph.D. Students)
• Advanced Geotectonic 1 (Master Students)
• Advanced Geochemistry1 (Master Students)
• Volcanology (Master Students)
• Precambrian Rocks (Igneous and Metamorphic Petrology) (G433), Geological Students, 4^th level
• Tectonic of Egypt (G439), Geological Students, 4^th level
• Geological Field Training (G440), Geological Students, 4^th level
• Field Geology and Surveying (G323) for geological students, third level
• Geochemistry (G317), Geological Students, third level
• Geotectonic (G318), Geological Students, third level
• Mineralogy and Optical of Minerals
• Crystallography
• Report Writing
• Introduction of Petrology
• Structural Geology (G208), Geological Students, second level
• Structural Geology, Students of Faculty of Education
• Regional Geology, Students of Faculty of Education

Participation in International Conferences

1.       Khedr, M.Z., Abo Khashaba, S.M.,  El-Shibiny, N.H., Takazawa, E., Hassan, S.M., Azer, M.K., Whattam, S.A., 2022. Geochemical and remote sensing exploration of mineralized zones in A-type granites, Central Eastern Desert, Egypt: Origin and concentration of rare metal. Accepted Abstract, ICES 2023, International Conference and Exhibition for Science, springer Publishing Partner .

2.       Khedr, M.Z, Ahmed A. Al Desouky, Eiichi Takazawa, Shoji Arai, Samir Kamh.Geochemistry and petrogenesis of carbonatized peridotites, Southern Eastern Desert of Egypt: Evidence for gold and sulphide concentration in CO2-rich fluids. 3 ^rd Conference of the Arabian Journal of Geoscience (CAJG), 2-5 November 2020, Sousse, Tunisia.

3.       Khedr, M.Z., Hamada Zaghloul, Eiichi Takazawa, Hesham A. El Nahas. Comparison and evaluation of black sand along the Mediterranean Sea Coast and Red Sea Mountains: Constraints from mineralogy and geochemical data. 3 ^rd Conference of the Arabian Journal of Geoscience (CAJG), 2-5 November 2020, Sousse, Tunisia

4.       Khedr, M.Z, Saif Abo Khashaba, Eiichi Takazawa, Nahed El-shibiny, Mokhles Azer, Reda El-arafy. Remote sensing and geochemical constraints on younger granites from Eastern Desert of Egypt: New insights into the genesis of rare metals. 3 ^rd Conference of the Arabian Journal of Geoscience (CAJG), 2-5 November 2020, Sousse, Tunisia

5.       Khedr, M.Z., Arai, S. (2016): Geochemistry of Neoproterozoic Alaskan-type rocks (Egypt): variations of hydrous magma related to mantle heterogeneity. Goldschmidt2016 at Yokohama, Tokyo, Japan, 26 June – 1 July 2016, Abstracts, Gold2016: abs:1489, Pag.8/54.

6.       Khedr, M.Z., Arai, S. (2014): Origin of Mineral Inclusions in Neoproterozoic Chromitites, South Eastern Desert (Egypt): Evidence of Alkalic Metasomatism in the Sub-arc Mantle. 11_th International Annual General Meeting of AOGS (Asia-Oceania Geosciences Society) at Sapporo, Hokkaido, Japan, 28 July – 1 August 2014, Abstract SE03-A001, AOGS14-Abs-153.

7.       Khedr, M.Z., Arai, S., Tamura, A. (2014): Heterogeneous basal lherzolites from the north to south Oman ophiolite: evidence for the mantle heterogeneity. Goldschmidt2014 at Sacramento, California, USA, 8-13 June 2014, Abstracts, Gold2014: abs:1105, Pag.56.

8.       Khedr, M.Z., Arai, S. (2012): Spatial distribution and origin of mantle heterogeneity in the Oman ophiolite: evidence from basal peridotites. Japan Association of Mineralogical Sciences (JAMS) Annual Meeting at Kyoto University, Japan, 19-21 September 2012, Abstract

9.       Khedr, M.Z., Arai, S. (2012):  Geochemistry of basal lherzolites above the metamorphic sole in North Oman: evidence of peridotite-slab interactions. 9_th International Annual General Meeting of AOGS (Asia-Oceania Geosciences Society) at Singapore, 13-17 August 2012, Abstract on CD.

10.   Khedr, M.Z., Arai, S., Marie, P. (2012):  Petrology and chemistry of lherzolites above the metamorphic sole in North Oman (Wadi Sarami): evidence for mantle metasomatism. Annual Meeting of Japan Geoscience Union at Chiba, Japan, 23-25 May 2012, Abstract.

11.   Khedr, M.Z., Arai, S. (2011):  Petrology of chromian spinel-bearing serpentinites in the Ise area, Hida Marginal Belt: characteristics of their protoliths. Annual Meeting of Japan Geoscience Union at Chiba, Japan, 23-26 May 2011, Abstract.

12.   Khedr, M.Z., Arai, S. (2010):  Petrology and geochemistry of prograde peridotites from Happo-O’ne, Japan: evidence of element mobility during deserpentinization. Japan Association of Mineralogical Sciences (JAMS) Annual Meeting at Shimane University, Japan, 23-25 September 2010, Abstract.

13.   Khedr, M.Z., Arai, S. (2009):  Geochemistry of high-P metaperidotites from Happo-One, Japan: implications for slab-derived fluids. 6th Annual General Meeting of AOGS (Asia-Oceania Geosciences Society) at Singapore, 11-15 August 2009, Abstract on CD, pp.282.

14.   Khedr, M.Z., Arai, S. (2009):  Geochemistry of hydrous peridotites above subducting slab a case study of Ti rich Cr spinel bearing peridotites from Happo Japan. Japan Geoscience Union (JPGU) Meeting at Chiba, Japan, May 2009 Abstract.

15.   Khedr, M.Z., Arai, S. (2008):  Hydrous peridotites with Ti-rich chromian spinel “a low-temperature peridotite overlying slab”. Proceedings of the first Egypt-Japan International Symposium on Science and Technology (EJISST) at Waseda University, Tokyo, Japan, 8-10 June 2008, pp. 135.

National participation:

1. Participation in Egypt-Japan Science Forum 2020 "Natural Product and Discovery of New Drugs" at Alexandria Library, 15 February 2020, Egypt.
2. Participating in the Egypt-Japan Multidisciplinary Science Forum "Sustainability in Scientific Research" at E-JUST, Alexandria, Egypt, 16^th February, 2019.
3. Participating in the international Conference/Egypt-Japan Multidisciplinary Science Forum "Innovations and New Challenges" at Al-Azhar University, Cairo, Egypt, 24^th March, 2018.
4. Ghoneim, M.F., Lebda, E.M. and Khedr, M. Z. Pre-Post collisional plutonites of Arais area, Eastern Desert, Egypt: geochemical concept. 6^th International Conference on Geochemistry, Alexandria, University, Egypt, 15-17 September, 2004.
5. Ghoneim, M.F., Lebda, E.M., Nasr, B.B. and Khedr, M.Z. Geology and tectonic evolution of the area around wadi Arais, southern Eastern Desert, Egypt. 6^th International Conference on the Geology of the Arab World (GAW6), Cairo University, Egypt, February 2002.

International Training  Participation

1)      Participation in Scanning Electron Microscopy-Energy Dispersive X-Ray Spectroscopy (SEM –EDS), workshop”, 2019, Geology Department, Graduate School of Natural Science and Technology, Niigata University, Japan.

2)      Participation in “EPMA: Electron Probe Micro-analyzer workshop”, 2019, Geology Department, Graduate School of Natural Science and Technology, Niigata University, Japan

3)      Participation in “(laser-ablation)-inductively coupled plasma mass spectrometry, workshop”, 2020, Geology Department, Graduate School of Natural Science and Technology, Niigata University, Japan.

4)      Participation in “Lazer Micro-Raman system workshop”, 2011, Geology Department, Graduate School of Natural Science and Technology, Kanazawa University, Japan.

5)      Participation in “XRF: X-Ray Fluorescence workshop”, to prepare glass bed, powder pellet, and calibration of XRF during 2008, 2011. Geology Department, Graduate School of Natural Science and Technology, Kanazawa University, Japan.

6)      Participation in “(laser-ablation)-inductively coupled plasma mass spectrometry, workshop”, 2008, Geology Department, Graduate School of Natural Science and Technology, Kanazawa University, Japan.

7)      Participation in “EPMA: Electron Probe Micro-analyzer workshop”, 2006, 2007, Geology Department, Graduate School of Natural Science and Technology, Kanazawa University, Japan.

8)    Participation in “Preparing Thin section and polished section workshop” during 2006. Geology Department, Graduate School of Natural Science and Technology, Kanazawa University, Japan

National Training  Participation

1.      Participation in Training Course of “Credit Hours Systems Course”, during the period from 3?4 July, 2019, The International Center for HRM (Human Resource Management) and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt

2. Participation in Training Course of “Using Technological Teaching Skills”, during the period from 16?17 June, 2019, The International Center for HRM and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt

3.      Participation in Training Course of “Conference Organization”, during the period from 16?17 September 2018, The International Center for HRM and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt

4.      Participation in Training Course of “Description of Educational Courses and Programms”, 4?6 February, 2017, International Center for HRM and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt

5. Participation in Training Course of “Financial and legal Affairs”, 26?27 December 2016, International Center for HRM and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt.
6. Participation in Training Course of “Self Evaluation for Higher Education Institutes”, 1?3 March, 2016, International Center for HRM  and Continuing Education at Kafrelsheikh University, Kafr El-Sheikh, Egypt.
7. Participation in Training Course of “Time and Meeting Management”, 30?31 August 2015, International Faculty and Leadership Development Center (FLDC at Kafrelsheikh University, Kafr El-Sheikh, Egypt.

8.      Participation in Training Course of “University’s Code of Ethics”, 15?17 March, 2015, International Faculty and Leadership Development Center (FLDC at Kafrelsheikh University, Kafr El-Sheikh, Egypt

9.      Participation in Training Course of “TOT: Training of Trainers”, 10?14 March 2015, IBCT (International Board of Certified Trainers), at Development Center, Kafrelsheikh University, Kafr El-Sheikh, Egypt.

10.  Participation in Training Course of “Student Evaluation”, 3?5 February, 2015, Faculty and Leadership Development Center (FLDC), Kafr El-Sheikh University, Kafr El-Sheikh, Egypt.

Awards

§   Four Years Scholarship from Government of Egypt to conduct the Ph.D in Japan, 2006.

• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, June/2011.
• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, April/2012.

§   One Year Scholarship (JSPS) from Government of Japan to conduct postdoctoral research, 2013.

• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, April/2014.
• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, May/2015.
• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, May/2016.
• The National Encouraging Prize” (One of the famous National Prize in Egypt) Academy of Scientific Research and Technology (ASRT), Egypt, June/2016. www.asrt.sci.eg
• Award of excellence medal from the first class of the President of the Republic of Egypt at the scientist Festival, Cairo, Egypt - August 2017.
• The International Scientific Publications Prize” Kafrelsheikh University, Egypt, April/2017, 2018, 2019, 2020, 2021

International Publications

International Research Articles:

1. Eslami, A., Grieco, G., Bussolesi, M., Ichiyama, Y., Lenaz, D., Skogby, H., Khedr, M.Z., Kutyrev, A.V., Cavallo, A. (2023). Co-occurrence of compositionally variable chromitites in Sabzevar ophiolite, NE Iran. Lithos 446–447 (2023) 107133
2. Jalil, R., Alard, O., Schaefer, B., Ali, L., Sajid, M., Khedr, M.Z., Shah, M.T., Ullah, Z., Anjum, M.N. (2023). Geochemistry of Waziristan ophiolite complex: Implications for petrogenesis and tectonic setting. Minerals 13(3), 311; https://doi.org/10.3390/min13030311
3. Abo Khashaba, S.M., El-Shibiny, N.H., Hassan, S.M., Takazawa, E., Khedr, M.Z. (2023). Application of remote sensing data integration in detecting mineralized granitic zones: A case study of the Gabal Al-Ijlah Al-Hamra, Central Eastern Desert, Egypt. Journal of African Earth Sciences, 104855. https://doi.org/10.1016/j.jafrearsci.2023.104855
4. Sepidbar, F., Homam, S.M., Khedr, M.Z., Stern, R.J., Karsli, O.  (2023). Primary minerals and mantle peridotites in Late Cretaceous ophiolites of Iran: a review. International Geology Review. https://doi.org/10.1080/00206814.2023.2166603
5. Khedr, M.Z., Zaghloul, H., Takazawa, E., El-Nahas, H., Azer, M.K., El-Shafei, S.A. (2023). Genesis and evaluation of heavy minerals in black sands: A case study from the southern Eastern Desert of Egypt. Geochemistry, 125945
6. Whattam. S.A., DeHoog, J.C.M., Leybourne, M.I., Khedr, M.Z. (2022). Link between melt-impregnation and metamorphism of Atlantis Massif peridotite (IODP Expedition 357). Contributions to Mineralogy and Petrology, 177, 106-132
7. Khedr, M.Z., Abo Khashaba, S.M., El-Shibiny, N.H., El-Arafy, R.A., Takazawa, E., Azer, M.K., Palin, R.M. (2022). Remote sensing techniques and geochemical constraints on the formation of the Wadi El-Hima mineralized granites, Egypt: new insights into the genesis and accumulation of garnets. International Journal of Earth Sciences,  111:2409–2443
8. Khedr, M.Z., Takazawa, E., Arai, S., Stern, R.J., Morishita, T., El-Awady, A. (2022). Styles of Fe–Ti-V ore deposits in the Neoproterozoic layered mafic-ultramafic intrusions, south Eastern Desert of Egypt: Evidence for fractional crystallization of V-rich melts. Journal of African Earth Sciences 194, 104620
9. Ghorbani, M.R., Mahmoud, H., Sepidbar, H., Barth, M., Khedr, Z.M., Iwata, N., Shinjo, R., Ahmadi, P. (2022). Geochemical and geochronological constraints on origin of the Sawlava ophiolite (NW Iran): Evidence for oceanic mantle evolution beneath Iran-Iraq border. Lithos, 418–419, 106695
10. Moghadam, H.S., Arai, S., .Griffin, W.L., Khedr, M.Z., Saccani, E., Henry, H., O'Reilly, S.Y., Ghorbani, G. (2022). Geochemical variability among stratiform chromitites and ultramafic rocks from Western Makran, South Iran. Lithos 106591.
11. Khedr, M.Z., Takazawa, E., Hauzenberger, C., Tamura, A., Arai, S., Stern, R.J., Morishita, T., El-Awady, A. (2022). Petrogenesis of arc-related serpentinized peridotites (Egypt): Insights into Neoproterozoic mantle evolution beneath the Arabian-Nubian Shield. Journal of Asian Earth Sciences 226. 105078
12. Sepidbar, F., Khedr, M.Z., Ghorbani, M.R., Palin, R.M., Xiao, Y. (2021). Petrogenesis of arc-related peridotite hosted chromitite deposits in Sikhoran-Soghan mantle section, South Iran: Evidence for proto-forearc spreading to boninitic stages. Ore Geology Reviews 136, 104256.
13. Abdel-Karim, A.M., El-Awady, M., Khedr, M.Z., El?Afandy, A.H., Elwan, W., Tamura, A., Ali, S. (2021). Genesis of sulfide mineralization, Atshan and Darhib areas, South Eastern Desert of Egypt: Evidence of fluid pathway effects along shear zones. Arabian Journal for Science and Engineering 47, 641–665
14. Sepidbar, F., Lucci, F., Biabangard, H., Khedr, M.Z., Jiantang, P. (2020). Geochemistry and tectonic significance of the Fannuj-Maskutan SSZ-type ophiolite (Inner Makran, SE Iran). International Geology Review. https://doi.org/10.1080/00206814.2020.1753118
15. Khedr, M.Z., Arai, S., Morishita, T. (2020). Formation of banded chromitites and associated sulphides in the Neoproterozoic subarc deep-crustal magma inferred from the Alaskan-type complex, Egypt. Ore Geology Reviews 120, 103410.
16. Khedr, M.Z, El-Awady, A., Arai, S., Hauzenberger, C., Tamura, A., Stern, R.J., Morishita, T. (2020). Petrogenesis of the ~740 Korab Kansi mafic-ultramafic intrusion, South Eastern Desert of Egypt: Evidence of Ti-rich ferropicritic magmatism. Gondwana Reserch 82, 48–72.
17. Heikal, Th.S., Khedr, M.Z, Abd El Monsef, M., Gomaa, S.R. (2019). Petrogenesis of Abu Dabbab Neoproterozoic Albite Granite, Central Nubian Shield of Egypt: New approach to petrological constrains and geodynamic evolution. Journal of African Earth Science 158, 1-20.
18. Moghadam, H.S., Stern, R.J., Griffn, W.L., Khedr, M.Z., Kirchenbaur, M., Ottley, C.J., Whattam, S., Kimura, J-I, Ghorbani, G., Gain, S., O’Reilly, S.Y., Tamura, A. (2019). Subduction initiation and back-arc opening north of Neo-Tethys: Evidence from the Late Cretaceous Torbat-e-Heydarieh ophiolite of NE Iran. Geological Society of America (GSA) Bulletin 132 (5-6): 1083–1105.
19. Abdel-Karim, A.M., Ali, S., El-Awady, A., Elwan W., Khedr, M.Z., Tamura, A. (2019). Mineral and bulk–rock chemistry of Shadli bimodal metavolcanics from Eastern Desert of Egypt: Implication for tectonomagmatic setting and Neoproterozoic continental growth in the Arabian–Nubian Shield. Lithos 338-339, 204–217.
20. Moghadam, H.S., Griffin, W.L., Kirchenbaur, M., Garbe-Sch?nberg, D., Khedr, M.Z., Kimura, J-I., Stern, R.J., Ghorbani, G., Murphy, R., O’Reilly, S.Y., Arai, S., Maghdour-Mashhour, R. (2018). Roll-back, Extension and Mantle Upwelling Triggered Eocene Shoshonitic Magmatism in NW Iran. Journal of Petrology 59, 1417-1465.
21. Khedr, M.Z., Arai, S. (2018). Composite origin of magnetite deposits hosted in Oman peridotites: Evidence for iron mobility during serpentinization. Ore Geology Review101, 180-198.
22. Khedr, M.Z., Arai, S. (2017). Peridotite-chromitite complexes in the Eastern Desert of Egypt: insight into Neoproterozoic sub-arc mantle processes. Gondwana Research 52, 59-79.
23. Zaeimnia, F., Kananian, A., Arai, S., Mirmohammadi, M., Imamalipour, A., Khedr, M.Z., Miura, M., Abbou-Kebir, K. (2017). Mineral chemistry and petrogenesis of chromitites from the Khoy ophiolite complex, north western Iran: implications for aggregation of two ophiolites. Island Arc 26 (6), DOI: https://doi.org/10.1111/iar.12211
24. Khedr, M.Z., Arai, S. (2016). Petrology of a Neoproterozoic Alaskan-type complex from the Eastern Desert of Egypt: implications on mantle heterogeneity. Lithos 263, 15-32.
25. Khedr, M.Z., Arai, S. (2016). Chemical variations of mineral inclusions in Neoproterozoic high-Cr chromitites from Egypt: Evidence of fluids during chromitite genesis. Lithos 240–243, 309–326.
26. Moghadam, H. S., Li, X-H., Ling, X-X., Stern, R.J., Khedr, M.Z., Chiaradia, M., Ghorbani, G., Arai, S., Tamura, A. (2015). Devonian to Permian evolution of the Paleo-Tethys Ocean: New evidence from U–Pb zircon dating and Sr–Nd–Pb isotopes of the Darrehanjir–Mashhad “ophiolites”, NE Iran. Gondwana Research 28, 781-799.
27. Moghadam, H. S., Khedr, M.Z., Arai, S., Stern, R. J., Ghorbani, G., Tamura, A. (2015).   Arc-related harzburgite-dunite-chromitite complexes in the mantle section of the Sabzevar ophiolite: a model for formation of podiform chromitites. Gondwana Research 27 (2), 575–593.
28. Baioumy, H. M., Ahmed, A.H., Khedr, M.Z. (2014). A mixed hydrogenous and hydrothermal origin of the Bahariya iron ores, Egypt: Evidences from the trace and rare earth element geochemistry. Journal of Geochemical Exploration 146, 149-162.
29. Moghadam, H. S., Khedr, M.Z., Chiaradia, M., Stern, R. J., Arai, S., Ottley, C.J., Tamura, A. Bakhshizad, F. (2014).  Supra-subduction zone magmatism of the Neyriz ophiolite, Iran: constraints from geochemistry and Sr-Nd-Pb isotopes. International Geology Review, 56 (11), 1395-1412.
30. Moghadam, H. S., Ghorbani, G., Khedr, M.Z., Fazlnia, N., Chiaradia, M., Eyuboglu, Y., Santosh, M., Francisco, C.G., Martinez, M.L., Gourgaud, A., Arai, S., (2014).  Late Miocene K-rich volcanism in the Eslamieh Peninsula (Saray), NW Iran: Implications for geodynamic evolution of the Turkish–Iranian High Plateau. Gondwana Research 26 (3–4), 1028–1050.
31. Khedr, M.Z., Arai, S., Python., M., Tamura, A. (2014). Chemical variations of abyssal peridotites in the central Oman ophiolite: evidence of oceanic mantle heterogeneity. Gondwana Research 25, 1242-1262.
32. Baioumy, H. M., Khedr, M.Z., Ahmed, A.H. (2013). Mineralogy, geochemistry and origin of Mn in the high-Mn iron ores, Bahariya Oasis, Egypt. Ore Geology Review 53, 63-76.
33. Khedr, M.Z., Arai, S., Python, M. (2013). Petrology and chemistry of basal lherzolites above the metamorphic sole from Wadi Sarami, central Oman ophiolite. Journal of Mineralogical and Petrological Sciences 108, 13-24.
34. Khedr, M.Z., Arai, S. (2013). Origin of Neoproterozoic ophiolitic peridotites in south Eastern Desert, Egypt, constrained from primary mantle mineral chemistry. Journal of Mineralogy and Petrology 107 (5), 807-828.
35. Khedr, M.Z., Arai, S. (2012). Petrology and geochemistry of prograde deserpentinized peridotites from Happo-O’ne, Japan: evidence of element mobility during deserpentinization. Journal of Asian Earth Sciences 43, 150-163.
36. Khedr, M.Z., Arai, S. (2011).  Petrology and geochemistry of chromian spinel-bearing serpentinites in the Hida Marginal Belt (Ise area, Japan): characteristics of their protoliths. Journal of Mineralogical and Petrological Sciences 106, 255-260.
37. Khedr, M.Z., Arai, S. (2010). Hydrous peridotites with Ti-rich chromian spinel as a low-temperature forearc mantle facies: evidence from the Happo-O’ne metaperidotites (Japan). Contributions to Mineralogy and Petrology 159 (2), 137-157.
38. Khedr, M.Z., Arai, S., Tamura, A., Morishita, T. (2010).  Clinopyroxenes in high-P metaperidotites from Happo-O’ne, central Japan: implications for wedge-transversal chemical change of slab-derived fluids. Lithos 119, 439-456.
39. Khedr, M.Z., Arai, S. (2009).  Geochemistry of metasomatized peridotites above subducting slab: a case study of hydrous metaperidotites from the Happo-O’ne complex, central Japan. Journal of Mineralogical and Petrological Sciences 104, 313-318.

• National Publications

1. Ghoneim, M.F., Lebda, E.M. and Khedr, M. Z. (2004). Pre-Post collisional plutonites of Arais area, Eastern Desert, Egypt: geochemical concept. 6th International Conference on Geochemistry, Alexandria, University, Egypt, pp. 849-874
2. Ghoneim, M.F., Lebda, E.M., Nasr, B.B. and Khedr, M.Z. (2002). Geology and tectonic evolution of the area around wadi Arais, southern Eastern Desert, Egypt. 6th International Conference on the Geology of the Arab World (GAW6), Cairo University, Egypt, 1, pp. 45-66.

• Books

1.       Hamdy, M.M, Khedr, M.Z. (2021). Ophiolite-associated Cu, Ni and Cr deposits, pp.487-547. In: Hamimi, Z., Arai, S., Fowler, A., El-Bialy, M.Z. (Eds.); The Geology of the Egyptian Nubian Shield, Regional Geology Reviews book series (RGR), Springer Nature Switzerland, 700p https://doi.org/10.1007/978-3-030-49771-2

2.       Khedr, M.Z. and Arai, S. (2012). Petrology and Geochemistry of High-pressure Metaperidotites, Japan: Geology, Mineralogy and Geochemistry of Hydrous Retrograde Peridotites in Central Japan. LAP LAMBERT Academic Publishing, Saarbrücken, Germany, pp. 249.

Papers Under Review

1. Mohamed Zaki Khedr, Ahmed A. Al Desouky1, Eiichi Takazawa, Samir Kamh, Christoph Hauzenberger, Scott A.Whattam, Amr El-Awady, 2023. Remote sensing and geochemical investigations of sulfide-bearing metavolcanic and gabbroic rocks (Egypt): constraints on host-rock petrogenesis and sulfide genesis. Gondwana Research (Minor revision under review)

2-Mohamed Zaki Khedr, Ahmed A. Al Desouky, Samir Kamh, Christoph Hauzenberger, Shoji Arai, Akihiro Tamura, Scott A. Whattam, Tomoaki Morishita, El Saeed R.Lasheen, Amr El-Awady, , 2023. Petrogenesis of Gerf Neoproterozoic carbonatized peridotites (Egypt): Evidence of convergent margin metasomatism of depleted sub-arc mantle. Lithos (Major revision: under review).

3- Mohamed Zaki Khedr et al., 2023. Origin of sulphide deposits hosted in Neoproterozoic metavolcanics from Hamama, central Eastern Desert of Egypt: Evidence for ore accumulation by circulation of hydrothermal fluids along shear zones. Journal of African Earth Science (under review)

Paper under submission

1-      Robert James Stern, Mohamed Zaki Khedr, Martin J. Whitehouse, Rolf L. Romer, Saif M. Abo Khashaba, N.H. El-Shibiny. Late Cryogenian and Early Ediacaran Rare Metal-rich Granites in the Eastern Desert of Egypt: Constraints from Zircon Ages and Whole-Rock Sr- and Nd- and Feldspar Pb- Isotopic Compositions.

2-      Mohamed Zaki Khedr, Christoph Hauzenberger, Tomoaki Morishita, Akihiro Tamura, Shehata Ali^. The layered gabbroic intrusion in the Arabian-Nubian Shield, Egypt: Implications for Neoproterozoic Fe-Ti-rich magmatism at the end of the Pan-African Orogeny

3-      Khedr, M.Z., Abo Khashaba, S.M.,  El-Shibiny, N.H., Takazawa, E., Hassan, S.M., Azer, M.K., Whattam, S.A. Geochemical and remote sensing evaluation of metasomatized I-type granites, Nubian Shield: New insight into the role of metasomatism for rare metal concentrations. (Submit in March 2023)

Please see the attached Certificates

1-Certificate of B.Sc and grade of B.Sc.

2- Certificate of Pre-Master degree

3- Certificate of Master degree

4-Certificate of PhD degree and grade of PhD

5-Different Expertise Certificates

1-Prof. Dr. Shoji Arai (Supervisor of PhD), Department of Earth Sciences, Kanazawa University
Kanazawa 920-1192, Japan. Tel: +81-76-264-6521; Fax: +81-76-264-6521
ultra_1027@yahoo.co.jp

2-Prof. Dr. Eiichi Takazawa, Department of Earth Sciences, Niigata University
2-8050 Ikarashi, Nishi-ku, Niigata, 950-2181, JAPAN.        Phone 025-262-6114; Fax 025-262-6194

takazawa@geo.sc.niigata-u.ac.jp, takazawa@sc.niigata-u.ac.jp

3- Prof. Dr. Robert J. Stern, Geosciences Department, University of Texas at Dallas, Richardson, TX 75083-0688, US.  bobdadbob@yahoo.com; rjstern@utdallas.edu; phone 214-284-4701

4-Prof. Dr. Alaa Salem, Department of Geology, Faculty of Science, Kafr El Sheikh University, El-Geish st, 33516, Kafr El Sheikh, Egypt.Tel: 20 (047) 3215174; Cell Phone: 01222515807; Fax: 20 (047) 3215175.

alaasalem667@yahoo.com

5- Prof. Dr. Ahmed Hassan Ahmed, Professor of Ore geology, Faculty of Earth Sciences,
King Abdulaziz University, Jeddah, Saudi Arabia
HomePage: http://ahmohammed.kau.edu.sa, ahmh2jp@yahoo.com