Tanisha Manoj Arte | Nanotechnology | Best Researcher Award

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Ms. Tanisha Manoj Arte | Nanotechnology | Best Researcher Award

Mercer University – Atlanta, GA | United States

Tanisha Manoj Arte is an emerging pharmaceutical researcher specializing in non-invasive vaccine delivery systems, microparticulate formulation, and immunological assay development. Her research focuses on advancing next-generation vaccine technologies by developing and optimizing multi-route delivery platforms such as intranasal, buccal, and transdermal systems. She has contributed significantly to the design of microparticle-based vaccines targeting SARS-CoV-2 variants and influenza viruses, emphasizing heterologous prime-boost strategies for cross-protective immunity. Tanisha’s collaborative work with institutions such as Inventprise Inc., Vaxine Pty Ltd., and Emory University reflects her interdisciplinary approach integrating formulation science, nanotechnology, and immunotherapy. Her expertise encompasses spray drying, microfluidic synthesis, and analytical characterization of nano- and microparticles, coupled with in vivo and in vitro immunological assessments. Tanisha’s scientific contributions have been published in high-impact journals such as International Journal of Pharmaceutics, Pharmaceutics, Vaccines, and Viruses, where her research demonstrates innovative approaches toward pain-free and thermally stable vaccine formulations. She has also explored 3D-printed drug delivery platforms for therapeutic applications, such as curcumin-based vaginal films and buccal films for viral vaccines. Her work exemplifies innovation in translational biopharmaceutics and contributes to global efforts in improving vaccine accessibility and efficacy. Tanisha has received recognition as a recipient of the Best Researcher Award for her impactful contributions to non-invasive vaccine research. Her publications collectively demonstrate over 120 citations, with an h-index of 6 on Scopus and h-index of 8 on Google Scholar, highlighting her growing influence in the field of pharmaceutical sciences.

Publication Profile

Orcid

Featured Publications

  • Arte, T. M., Patil, S. R., Adediran, E., Singh, R., Bagwe, P., Gulani, M. A., Pasupuleti, D., Ferguson, A., Zughaier, S. M., & D’Souza, M. J. (2025). Microneedle delivery of heterologous microparticulate COVID-19 vaccine induces cross-strain specific antibody levels in mice. Vaccines, 13(4), 380.

  • Singh, R., Gulani, M., Vijayanand, S., Arte, T., Adediran, E., Pasupuleti, D., Patel, P., Ferguson, A., Uddin, M., & Zughaier, S. M. (2025). An intranasal quadruple variant vaccine approach using SARS-CoV-2 and influenza A: Delta, Omicron, H1N1 and H3N2. International Journal of Pharmaceutics, 126043.

  • Adediran, E., Arte, T., Pasupuleti, D., Vijayanand, S., Singh, R., Patel, P., Gulani, M., Ferguson, A., Uddin, M., & Zughaier, S. M. (2025). Delivery of PLGA-loaded influenza vaccine microparticles using dissolving microneedles induces a robust immune response. Pharmaceutics, 17(4), 510.

  • Shah, S., Patel, P., Ferguson, A., Bagwe, P., Kale, A., Adediran, E., Singh, R., Arte, T., Pasupuleti, D., & Uddin, M. (2024). Buccal administration of a Zika virus vaccine utilizing 3D-printed oral dissolving films in a mouse model. Vaccines, 12(7), 720.

  • Shah, S., Patel, P., Bagwe, P., Kale, A., Ferguson, A., Adediran, E., Arte, T., Singh, R., Uddin, M. N., & D’Souza, M. J. (2024). Intranasal immunization for Zika in a pre-clinical model. Viruses, 16(6), 865.

Qiusong Liang | Engineering | Best Researcher Award

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Ms. Qiusong Liang | Engineering | Best Researcher Award

Northeast Forestry University | China

Ms. Qiusong Liang is a promising mechanical engineering researcher whose work focuses on advanced simulation, optimization, and design of electro-hydraulic and electromechanical systems. Her research emphasizes multi-objective optimization, structural dynamics, and fluid–structure interaction analysis to enhance the performance and reliability of servo and direct-drive valve mechanisms. She skillfully integrates computational tools such as ANSYS, SolidWorks, Maxwell, and AMESim for high-precision modeling and simulation, contributing significantly to innovations in flow control mechanisms, torque motor optimization, and cavitation noise reduction in hydraulic systems. Her recent studies explore the dynamic characteristics of torque motors and the coupling effects between electromagnetic and fluid systems, leading to improved high-response servo valve technologies for industrial and military applications. Ms. Liang’s research excellence and innovative approach have been recognized through publications in internationally indexed journals and notable contributions to engineering design projects. She maintains an active research profile with Scopus- and Google Scholar–indexed publications, accumulating documented citations and a growing h-index that reflect her rising academic influence in the field of mechanical system optimization and applied simulation engineering. Her commitment to applied research, precision design, and interdisciplinary collaboration has earned her recognition as a recipient of the Best Researcher Award, highlighting her as one of the emerging leaders in smart mechanical systems and sustainable automation technologies.

Publication Profile

Orcid

Featured Publications

  • Zhang, J., Liang, Q., Sun, J., Yan, B., Hu, Z., & Sun, W. (2025, October 29). Multi-objective optimization of torque motor structural parameters in direct-drive valves based on genetic algorithm. Actuators, 14(11), 527.

Sibusisiwe Nkomonde | Biotechnology | Best Researcher Award

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Ms. Sibusisiwe Nkomonde | Biotechnology | Best Researcher Award

Durban University of Technology | South Africa

Ms. Sibusisiwe Nkomonde is an emerging researcher specializing in microbiology and post-harvest biotechnology, with a focus on sustainable biocontrol strategies for agricultural and food systems. Her research integrates applied biological sciences and microbial ecology to explore the potential of natural yeasts and their metabolites as eco-friendly alternatives to synthetic fungicides. Through her innovative studies, she has identified several phyllospheric yeast strains with strong antagonistic effects against key post-harvest pathogens such as Botrytis cinerea and Fusarium fujikuroi, marking the first documented evidence of yeast antagonism against F. fujikuroi. Her findings contribute to the advancement of environmentally responsible post-harvest disease management and align with global goals for sustainable food production and waste reduction. Sibusisiwe collaborates internationally with institutions including the Durban University of Technology, Agricultural Research Council (ARC) Infruitec-Nietvoorbij, and Kaunas University of Technology in Lithuania, enhancing the interdisciplinary impact of her work. She is a member of the South African Society for Microbiology (SASM) and actively participates in research initiatives fostering innovation in microbial biocontrol. Her recent publication in Fermentation has attracted citations in Google Scholar and Scopus, reflecting growing academic recognition. Her citation metrics demonstrate an increasing research impact, with a developing h-index based on her growing number of referenced works and international collaborations. Sibusisiwe’s dedication to eco-innovation and biotechnological advancement positions her as a promising candidate for the Best Researcher Award, recognizing excellence in sustainable scientific discovery.

Publication Profile

Orcid

Featured Publications

Nkomonde, S. N., du Plessis, H. W., Bhagwat, P., Amobonye, A., Gomomo, Z., Mewa-Ngongang, M., Hoff, J. W., & Pillai, S. (2025). Biocontrol potential of selected phyllospheric yeasts against Botrytis cinerea and Fusarium fujikuroi. Fermentation, 11(10), 606.

Lilya Boucelha | Biology | Women Researcher Award

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Assist. Prof. Dr. Lilya Boucelha | Biology | Women Researcher Award

University Of Science And Technology Houari Boumediene | Algeria

Assist. Prof. Dr. Lilya Boucelha is a plant physiologist and academic researcher specializing in seed priming, abiotic stress tolerance, and plant physiological adaptation to water deficit conditions. Her scientific contributions focus on understanding the molecular, biochemical, and physiological mechanisms underlying seed vigor, aging, and germination responses in legume species, particularly Vigna unguiculata (cowpea) and Trigonella foenum-graecum (fenugreek). Through her innovative studies, Dr. Boucelha has advanced the field of seed physiology by exploring redox regulation, antioxidant defense systems, and the signaling role of molecules such as silicon, proline, and ascorbate in improving plant resilience under drought and oxidative stress. Her work integrates biochemical assays, molecular markers, and eco-physiological analyses to link laboratory findings with agronomic improvement strategies, contributing to sustainable crop productivity and food security. She has actively collaborated on national and international research projects, including programs focusing on the enhancement of drought tolerance and physiological responses through priming and silicon treatments. Dr. Boucelha’s scientific productivity is reflected in her growing research impact, with 16 peer-reviewed international publications, including several in high-impact journals such as Functional Plant Biology, Journal of Plant Growth Regulation, and Plants. According to Google Scholar, her work has been cited over 80 times, with an h-index of 5 and an i10-index of 3, while her Scopus profile records comparable citation metrics, underscoring the scientific visibility and influence of her studies in plant physiology and seed science. Recognized for her excellence as a woman researcher, she was honored with a Women Researcher Award, acknowledging her sustained contribution to advancing knowledge in plant stress physiology and her leadership in promoting women in science. Her publications consistently address the biochemical and physiological determinants of seed vigor, aiming to improve germination performance and stress tolerance—crucial for crop adaptation to climate change and arid environments.

Publication Profile

Orcid | Google Scholar

Featured Publications

Boucelha, L., Djebbar, R., & Abrous-Belbachir, O. (2021). Is protein carbonylation a biomarker of seed priming and ageing? Functional Plant Biology, 48(6), 611–623.

Boucelha, L., Djebbar, R., & Abrous-Belbachir, O. (2019). Vigna unguiculata seed priming is related to redox status of plumule, radicle and cotyledons. Functional Plant Biology, 46(6), 584–594.

Boucelha, L., Djebbar, R., & Benlahrech, S. (2025). The ambiguous role of silicon in the pregermination treatment of Vigna unguiculata seeds. Journal of Plant Growth Regulation.

Boucelha, L., Djebbar, R., Gueridi, S., & Merah, O. (2025). Modifications in carbon and nitrogen metabolites of Vigna unguiculata L. seed organs induced by different priming treatments. Plants, 14, 3218.

Beggah, S., Ellouzi, H., Boucelha, L., Zorrig, W., Djebbar, R., & Abrous-Belbachir, O. (2023). Ascorbate attenuates damages caused by paraquat-induced oxidative stress in fenugreek seedlings. Journal of Soil Science and Plant Nutrition, 23(1), 1185–1199.

 

 

 

Frank Ribeiro | Environmental Science | Innovative Teaching Practices Award

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Prof. Dr. Frank Ribeiro | Environmental Science | Innovative Teaching Practices Award

Federal University of Western Pará | Brazil

Prof. Dr. Frank Ribeiro is a prominent Brazilian zoologist specializing in Amazonian ichthyofauna, with extensive expertise in taxonomy, ecology, and biodiversity conservation. His research focuses on understanding fish diversity, distribution patterns, and the ecological dynamics of freshwater systems, particularly in the lower Amazon and Tapajós River basins. He has led and contributed to numerous projects investigating poorly studied riverine systems, including the Curuá, Maicuru, and Cupari basins, employing standardized sampling methodologies and integrating biotic and abiotic data to analyze ecological patterns and support conservation strategies. Ribeiro’s work combines field-based research with taxonomic and molecular studies, including the description of new species in genera such as Pimelodus and Chrysobrycon, and systematics studies on Ageneiosus. His efforts also extend to improving ichthyological collections and databases, enhancing the reliability and accessibility of fish data for scientific and conservation purposes. Over his career, he has mentored undergraduate, master’s, and doctoral students, fostering research capacity and knowledge dissemination in Amazonian ichthyology. Ribeiro’s publications are widely recognized in the scientific community, with over 761 citations on Google Scholar (h-index 14, i10-index 19) and 510 citations on Scopus (h-index 11), reflecting the impact of his work in biodiversity research and aquatic ecology. His research outputs include high-profile studies such as “Floodplain forests drive fruit-eating fish diversity at the Amazon Basin-scale” in Proceedings of the National Academy of Sciences and the taxonomic description of new Chrysobrycon species in Neotropical Ichthyology. His work has significantly contributed to understanding the structure and dynamics of Amazonian fish communities and informs conservation planning in critical freshwater ecosystems. Recognized for integrating innovative teaching practices with research, Ribeiro’s contributions bridge scientific investigation, practical conservation, and educational advancement, making him a fitting candidate for the Innovative Teaching Practices Award.

Publication Profile

Scopus | Orcid | Google Scholar

Featured Publications

P N Remya | Pharmaceutics | Best Researcher Award

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Dr. P N Remya | Pharmaceutics | Best Researcher Award

SRM College of Pharmacy | India

Dr. P. N. Remya, M.Pharm, Ph.D., is a highly accomplished researcher and academician specializing in pharmaceutics, with extensive expertise in the formulation, characterization, and evaluation of novel drug delivery systems. Her primary research interests encompass solid lipid nanoparticles, co-crystals, transdermal patches, and sustained-release formulations designed to enhance the bioavailability and therapeutic efficacy of poorly soluble drugs. She has significantly contributed to the development of innovative pharmaceutical formulations such as buccal tablets, bilayer tablets, in-situ gels, and nanoparticles for antihypertensive, anticancer, and ophthalmic drug delivery applications. Her ongoing research emphasizes nanotechnology-based drug delivery, targeting diseases like lung cancer and mucormycosis, and exploring herbal formulations for enhanced pharmacological properties. Dr. Remya’s work bridges pharmaceutical technology and translational research, reflecting a deep commitment to advancing modern therapeutics through scientific innovation. Her publications are widely recognized and cited, demonstrating her influence within the academic and pharmaceutical communities. According to Google Scholar, she has received over 160 citations, with an h-index of 7 and an i10-index of 5. Scopus metrics further reflect her scholarly impact through her contributions to peer-reviewed journals indexed in SCI, Scopus, and UGC Care lists. Her scholarly works are well-regarded for their methodological rigor and practical applicability, often focusing on enhancing drug solubility, stability, and patient compliance. Dr. Remya has actively presented her research at numerous national and international conferences, earning several awards and recognitions for her innovative studies. She continues to inspire pharmaceutical research through her dedication to developing cost-effective and efficient drug delivery systems that contribute to global healthcare advancements. Her research portfolio positions her as a deserving candidate for the Best Researcher Award, acknowledging her significant contributions to pharmaceutics and pharmaceutical technology.

Publication Profile

Featured Publications

Remya, P. N., & Damodharan, N. (2018). Formulation, development, and characterization of cilnidipine loaded solid lipid nanoparticles. Asian Journal of Pharmaceutical and Clinical Research, 11(9), 120–125.

Remya, P. N., Damodharan, N., & Kumar, C. V. S. (2010). Formulation and evaluation of bilayered tablets of ibuprofen and methocarbamol. International Journal of PharmTech Research, 2(2), 1250–1255.

Remya, P. N., Saraswathi, T. S., Sangeetha, S., Damodharan, N., & Kavitha, R. (2016). Formulation and evaluation of immediate release tablets of acyclovir. Journal of Pharmaceutical Sciences and Research, 8(11), 1258.

Remya, P. N., & Damodharan, N. (2020). Formulation, development and characterisation of nimodipine loaded solid lipid nanoparticles. International Journal of Applied Pharmaceutics, 12(5), 265–271.

Subramani, P. K., Remya, P. N., Narayanasamy, D., & Kumar, P. (2024). The role of pulmonary drug delivery in modern therapeutics: An overview. Cureus, 16(9), eXXXX.

Zhenzhen Ma | Archaeology | Best Researcher Award

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Dr. Zhenzhen Ma | Archaeology | Best Researcher Award

Shaanxi Academy of Archaeology | China

Dr. Zhenzhen Ma is an accomplished Associate Research Fellow at the Shaanxi Academy of Archaeology, China, specializing in the conservation of fragile cultural relics discovered at archaeological excavation sites. Her research primarily focuses on the preservation and restoration of painted pottery, murals, and ancient wooden artifacts, emphasizing the scientific analysis of residual organic materials and the evaluation of proteinaceous binders used in historical artworks. With a background in Cultural Relics Conservation from Northwest University, her work integrates advanced analytical techniques such as GC-MS, microscopy, and spectroscopy to understand material degradation mechanisms and to develop sustainable conservation strategies. Dr. Ma’s contributions extend to the development of innovative conservation tools, including patented systems like the plaster support structure for ancient wall painting reproduction. Her published studies in high-impact SCI-indexed journals such as Microchemical Journal, Journal of Cultural Heritage, Analytical Letters, and Coatings demonstrate her commitment to bridging chemistry, materials science, and heritage preservation. Dr. Ma’s research outcomes not only enhance the understanding of ancient artistic materials but also influence modern conservation methodologies through scientific evidence and cross-disciplinary insights. She has been actively involved in national-level projects, including those funded by the National Natural Science Foundation of China, reflecting her leadership in advancing archaeological conservation science. According to Scopus, Dr. Ma has achieved 60 citations from 52 documents, published 7 indexed articles, and holds an h-index of 5. Her citation profile highlights a growing recognition in both the academic and conservation communities, underscoring her impact in heritage science and materials analysis. Her innovative approach and dedication to preserving China’s cultural legacy make her a distinguished figure in her field and a deserving recipient of the Best Researcher Award.

Publication Profile

Scopus 

Featured Publications

Ma, Z., Yang, L., & Wang, L. (2022). The influence of natural aging exerting on the stability of some proteinaceous binding media commonly used in painted artworks. Coatings, 12, 1522.

Ma, Z., Wang, L., & Yang, L. (2020). The influence of the soil aging exerting on the stability of proteinaceous binders in Chinese polychromy artworks. Microchemical Journal, 157, 104955.

Ma, Z., Wang, L., & Yan, J. (2019). Chromatographic, microscopic, and spectroscopic characterization of a wooden architectural painting from the Summer Palace, Beijing, China. Analytical Letters, 52(10), 1670–1680.

Ma, Z., Yan, J., & Zhao, X. (2017). Multi-analytical study of the suspected binding medium residues of wall paintings excavated in Tang tomb, China. Journal of Cultural Heritage, 24, 171–174.

Ma, Z. (2024). Influence of archaeological soil burial on GC-MS identification of proteinaceous binders. Sciences of Conservation and Archaeology.

Jingshu Chen | Biology | Best Researcher Award

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Mr. Jingshu Chen | Biology | Best Researcher Award

Tarim University | China

Mr. Jingshu Chen is an emerging researcher specializing in the interdisciplinary integration of biology and molecular materials science, with a strong focus on the molecular mechanisms and biotransformation processes of lactic acid bacteria (LAB) in selenium-enriched environments. His current research emphasizes the systematic characterization of Xinjiang-endemic LAB strains, particularly their selenium enrichment potential, optimized cultivation parameters, and molecular adaptations to high-selenium soils. Through multi-omics approaches, he investigates selenium–sulfur substitution mechanisms, contributing significantly to the understanding of selenium metabolism and probiotic functionality in unique microbial ecosystems. His innovative studies bridge microbiology, bioengineering, and nutritional science, offering insights into the development of functional foods and biofortification strategies. Mr. Chen’s research is recognized in indexed journals such as Foods (MDPI), and his publication metrics reflect growing academic impact—Google Scholar reports a citation count of over 250, an h-index of 8, and a Scopus citation index of 132 with an h-index of 6, demonstrating his consistent scholarly contribution to biological sciences. His collaborations with multidisciplinary research teams have further advanced the field of probiotic biotechnology and environmental adaptation of microorganisms. Mr. Chen continues to explore the molecular-level interactions between selenium and microbial systems to enhance human health and sustainable nutrition. His exemplary research achievements and publication record make him a worthy candidate for the Best Researcher Award.

Publication Profile

Featured Publications

Chen, J., Jia, Y., Chensheng, H., Feng, L., Li, Y., Jian, T., Han, X., Niu, X., & Xu, Q. (2025). Study on the probiotic properties of Xinjiang-characteristic selenium-enriched lactic acid bacteria and the distribution of selenium element. Foods, 14(20), 3577.

Amr Ashmawi | Engineering | Best Researcher Award

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Mr. Amr Ashmawi | Engineering | Best Researcher Award

South Dakota State University | United States

Mr. Amr Ashmawi is a structural civil engineer and BIM specialist whose research integrates Building Information Modeling (BIM), Artificial Intelligence (AI), and automation technologies to advance construction engineering and management. His work focuses on enhancing construction site efficiency, digitalizing bridge inspection processes, and improving safety training through intelligent systems. With expertise in structural analysis, BIM development, and programming (C#, Python, Revit API, AutoCAD API), his research aims to transform traditional workflows into smart, data-driven solutions for sustainable and safe construction environments. He has contributed to advancing real-time data integration, predictive modeling for reinforced concrete (RC) structures, and automation in bridge assessment using machine learning. Amr’s scholarly impact is reflected in his early academic recognition, having 1 citation, 1 h-index, and 0 i10-index on Google Scholar, with research visibility growing rapidly. His publications are featured in Advances in Structural Engineering and Applied Sciences journals. He continues to explore the intersection of BIM and AI for next-generation construction technologies, positioning himself as an emerging researcher dedicated to automation, visualization, and intelligent infrastructure systems. His innovative contributions and growing influence in structural informatics and construction automation make him a deserving recipient of the Best Researcher Award.

Publication Profile

Featured Publications

Ashmawi, A., Nguyen, P., & Jawdhari, A. (2025). State-of-the-art review of machine learning applications for bridge inspections. Advances in Structural Engineering, 13694332251381220.

Nichols, L., Ashmawi, A., & Nguyen, P. (2025). Digitalizing bridge inspection processes using Building Information Modeling (BIM) and Business Intelligence (BI). Applied Sciences, 15(20), 10927.

Ashmawi, A., Nguyen, P., & Jawdhari, A. (2025). Enhancing construction safety training using artificial intelligence: Existing applications and future directions. Under publication.

Ashmawi, A., & Nguyen, P. (2025). Leveraging BIM for automated fire safety code compliance: A comprehensive review. Under review.

 

Mohammad Hossein Moradi | Genetics | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Hossein Moradi | Genetics | Best Researcher Award

University of Tehran and Arak | Iran

Assoc. Prof. Dr. Mohammad Hossein Moradi, Associate Professor at the University of Tehran and Arak University, Iran, is a distinguished researcher in genetics and animal breeding with notable contributions to livestock genomics, genomic selection, and genetic diversity studies. He earned his B.Sc. in Animal Science from the University of Agriculture Science and Natural Resources, Gorgan, and completed his M.Sc. and Ph.D. in Genetics and Animal Breeding at the University of Kurdistan and the University of Tehran, respectively. Recognized for his academic excellence, he has received multiple honors including the Best Thesis Award, Top Researcher in Agriculture and Natural Resources in Kurdistan Province, and Best Professor and Best Manager Awards at Arak University. Dr. Moradi has published more than 80 peer-reviewed articles in high-impact journals such as Scientific Reports, PLoS One, Heredity, and Journal of Animal Breeding and Genetics, accumulating over 1,523 citations with a Google Scholar h-index of 21  and i10-index of 34 . According to Scopus, he has 779 citations across 59 documents with an h-index of 14. His research focuses on genome-wide association studies (GWAS), gene-set enrichment analysis, and the identification of selection signatures in Iranian and global livestock breeds. As a consultant, he has contributed to genetic improvement and breeding program optimization in sheep, cattle, and poultry industries. Additionally, he serves as a Board Member of the Iranian Society of Animal Science (ISAS) and as the International Secretary of the 2nd International Animal Sciences Congress of Iran. Through his innovative and multidisciplinary work, Dr. Moradi has advanced scientific understanding of animal genetics and breeding efficiency, reinforcing his reputation as one of Iran’s leading figures in agricultural genetics and genomic research. He is honored with the Best Researcher Award for his outstanding contributions to the field of genetics and animal breeding.

Publication Profile

Scopus | Orcid | Google Scholar

Featured Publications

Moradi, M. H., Nejati-Javaremi, A., Moradi-Shahrbabak, M., Dodds, K. G., et al. (2012). Genomic scan of selective sweeps in thin and fat tail sheep breeds for identifying candidate regions associated with fat deposition. BMC Genetics, 13(1), 10.

Ciani, E., Mastrangelo, S., Da Silva, A., Marroni, F., Ferenčaković, M., et al. (2020). On the origin of European sheep as revealed by the diversity of the Balkan breeds and by optimizing population-genetic analysis tools. Genetics Selection Evolution, 52(1), 25.

Mehrban, H., Lee, D. H., Moradi, M. H., IlCho, C., Naserkheil, M., et al. (2017). Predictive performance of genomic selection methods for carcass traits in Hanwoo beef cattle: impacts of the genetic architecture. Genetics Selection Evolution, 49(1), 77.

Mehrban, H., Lee, D. H., Naserkheil, M., Moradi, M. H., Ibáñez-Escriche, N., et al. (2019). Comparison of conventional BLUP and single-step genomic BLUP evaluations for yearling weight and carcass traits in Hanwoo beef cattle using single trait and multi-trait models. PLoS ONE, 14(10), e0223352.

Nilchi, A., Saberi, R., Moradi, M., Azizpour, H., Zarghami, R. (2012). Evaluation of AMP–PAN composite for adsorption of Cs⁺ ions from aqueous solution using batch and fixed bed operations. Journal of Radioanalytical and Nuclear Chemistry, 292(2), 609–617.