Masoud Bijani | Ecology | Editorial Board Member

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Dr. Masoud Bijani | Ecology | Editorial Board Member

Tarbiat Modares University | Iran

Dr. Masoud Bijani is an Associate Professor of Agricultural Extension and Education in the Department of Agricultural Extension and Education at the College of Agriculture, Tarbiat Modares University in Tehran, Iran, recognized for his extensive academic, administrative, and research contributions across agricultural extension, rural sociology, natural resources, and environmental studies. He holds multiple academic degrees in Agricultural Extension and Education from Shiraz University, the University of Tehran, and the Islamic Azad University Science and Research Branch, with each stage of his training culminating in high-ranking scholarly performance, including first-grade standings in his B.Sc., M.Sc., and initial Ph.D. programs and second-grade distinction in his additional Ph.D. specialization in Agricultural Extension. His scholarly journey includes a study leave at Freie Universität Berlin under the supervision of leading experts in water conflicts and environmental sociology, where he also taught applied statistics and SPSS for doctoral students. Dr. Bijani has served in a wide range of influential academic roles, including faculty positions at the Islamic Azad University Boroujerd Branch and Ramin University of Ahwaz, research affairs director, head of department, portal committee director, vice-chancellor of national agricultural academic networks, head of the College of Agriculture library, and board member or council member in numerous national scientific, technical, agricultural extension, and water resource organizations. His research interests span agricultural extension productivity, ICT in agriculture, rural development, social studies in agriculture and natural resources, water conflict analysis, environmental decision-making, e-learning, qualitative and quantitative research methods, and statistical applications in social sciences. He is widely recognized for his professional mastery of SPSS, Word, PowerPoint, and extension teaching methods, holding editorial and guest editor roles in various scholarly journals. Dr. Bijani is also author of major academic works including Learning of Triple Knowledge (Knowledge for Knowing, Knowledge for Doing, Knowledge for Being) and Introduction on Analyzing and Measuring Agricultural Extension Productivity, illustrating his long-standing dedication to advancing agricultural education, sustainability, and human–environment interaction.

Profile : Scopus | ORCID

Featured Publications : 

Human ecological analysis of conflict toward using natural resources: Evidence from Iran. (2025). Environmental Challenges.

Digital markets, local products: Psychological drivers of buying nomadic local foods online. (2025). Foods.

Mapping socio-institutional studies of biodiversity governance and climate change justice in wetland ecosystems. (2025).

Assessment of sustainability trend of apicultural industry: Evidence from beekeepers in Iran. (2025). Journal of Agricultural Science and Technology.

Comparing predictive power of planned behavior and social cognition theories on students’ pro-environmental behaviors: The case of University of Zanjan, Iran. (2025). Journal of Cleaner Production.

Toward tenure security: The relationship between women’s land ownership, formal land title documents and their empowerment. (2025). Land Use Policy.

 

Seyed Mohammad Jafar Nazemosadat | Ecology | Best Researcher Award

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Prof. Seyed Mohammad Jafar Nazemosadat | Ecology | Best Researcher Award

Academic at Shiraz University | Iran

Prof. Seyed Mohammad Jafar Nazemosadat is a distinguished climatologist and agro-meteorologist whose pioneering research has significantly advanced the understanding of climate dynamics in the Middle East. His work has illuminated the complex interactions between oceanic, atmospheric, and terrestrial systems, particularly emphasizing how phenomena such as ENSO, the Madden–Julian Oscillation (MJO), and the Atlantic Meridional Oscillation (AMO) influence precipitation and temperature variability across Iran and neighboring regions. He has led extensive studies on climate change impacts, drought forecasting, and land-use dynamics, integrating remote sensing and satellite-based data analysis into agricultural meteorology. His seminal contribution established the first proven linkage between Iran’s precipitation patterns and ENSO—a breakthrough that reshaped regional climate modeling approaches. As founder of the Oceanic and Atmospheric Research Centre at Shiraz University, he has fostered interdisciplinary research on satellite-based climate monitoring. With over 40 English-indexed journal publications, 55 Persian papers, and 100 conference contributions, Prof. Nazemosadat’s work has had enduring influence on sustainable water and land management strategies in arid and semi-arid ecosystems. His scholarly impact and leadership exemplify excellence in ecological and atmospheric research, positioning him as a deserving candidate for the Best Researcher Award.

Profile : Google Scholar | ORCID

Featured Publications

Nazemosadat, M. J., & Cordery, I. (2000). On the relationships between ENSO and autumn rainfall in Iran. International Journal of Climatology: A Journal of the Royal Meteorological Society, 20(6), 206–214.

Nazemosadat, M. J., & Ghasemi, A. R. (2004). Quantifying the ENSO-related shifts in the intensity and probability of drought and wet periods in Iran. Journal of Climate, 17(20), 4005–4018.

Danandeh Mehr, A., Kahya, E., Şahin, A., & Nazemosadat, M. J. (2015). Successive-station monthly streamflow prediction using different artificial neural network algorithms. International Journal of Environmental Science and Technology, 12(7), 2191–2200.

Nazem, A. S. M. J., Samani, N., Barry, D. A., & Moulaei, N. M. (2006). ENSO forcing on climate change in Iran: Precipitation analysis. Iranian Journal of Science and Technology, Transaction B: Engineering, 30(4), 96–105.*

Shirvani, A., Nazemosadat, S. M. J., & Kahya, E. (2015). Analyses of the Persian Gulf sea surface temperature: Prediction and detection of climate change signals. Arabian Journal of Geosciences, 8(4), 2121–2130.*