CV


FA
Moslem Rostampoor

Moslem Rostampoor

Associate Professor

Faculty: Natural Resources and Environment

Department: Pasture and Watershed

Degree: Ph.D

Birth Year: 1983

CV
FA
Moslem Rostampoor

Associate Professor Moslem Rostampoor

Faculty: Natural Resources and Environment - Department: Pasture and Watershed Degree: Ph.D | Birth Year: 1983 |

BIO

Moslem Rostampour is an accomplished rangeland ecologist and natural resources engineer with expertise in rangeland management, ecosystem modeling, and applied ecology. His research spans both experimental and applied approaches, focusing on the interactions between vegetation, soil, and livestock in rangeland ecosystems. He has conducted extensive work on plant community dynamics, soil-plant relationships, and rangeland restoration, with particular attention to sustainable management practices.

Rostampour has been actively involved in curriculum development and teaching at undergraduate and graduate levels, covering topics such as rangeland ecology, advanced statistics, ecosystem modeling, and rangeland management practices. He has also contributed to multiple national projects on rangeland assessment, restoration, and sustainable utilization.

He has received numerous awards recognizing his academic and research excellence, including first rank in both the Master’s (2006) and Ph.D. (2009) entrance examinations in Natural Resources Engineering – Rangeland Management, Exemplary Faculty Member and Supervisor awards, and recognition as Distinguished and Exemplary Researcher of the University.

His work integrates applied research, education, and capacity building, aiming to advance the sustainability and productivity of rangelands in Iran and beyond.

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Germination and growth responses of milk thistle (Silybum marianum) to seed priming with selenium and nano-selenium under salinity conditions

AuthorsHossein Hammami,Elham Havangi,Moslem Rostampour
JournalBiocatalysis and Agricultural Biotechnology
Page number1-15
Serial number67
Volume number5
Paper TypeFull Paper
Published At2025
Journal TypeTypographic
Journal CountryNetherlands
Journal IndexScopus

Abstract

Salt stress is a significant factor that impacts on seed germination, establishment, and growth of plants. This study investigated the impact of selenium and nano-selenium seed priming on the germination and growth characteristics of milk thistle under salinity conditions. Consequently, two experiments were arranged separately as a completely randomized factorial design with three replications. In the 1st and 2nd experiment, seeds of milk thistle were subjected to seven priming levels (control (no priming), 5, 10, and 15 mg/L selenium, and 5, 10, and 15 mg/L nanoselenium) and four salinity stress levels (0, 20, 40, and 60 mM NaCl) in laboratory and green­ house setting, respectively. Salinity and priming treatments showed significantly affected all germination characteristics. Significant effects were detected in GR, MGT, RL, SFW, SDW, and SVI concerning the interaction between salinity and priming. The highest GR, SL, SFW, SDW, and SVI, along with the lowest MGT were recorded at 15 mg/L of nano-selenium across all salinity levels in comparison to non-priming treatments. Salinity and priming treatments significantly affected all plant attributes in pot studies, with the exception of Chl b. The interaction between salinity and priming significantly affected PH, RL, RDW, SDW, RWC, and antioxidant activity characteristics. In both non-salinity and salinity conditions, the 15 mg/L nano-selenium exhibited the most pronounced growth characteristics across all features. Overall, 15 mg/L nano-selenium treat­ ments markedly improved germination and growth characteristics of milk thistle under salinity stress conditions.

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