Gustavo Haddad Souza Vieira | Composite | Innovation Excellence Award

Gustavo Haddad Souza Vieira | Composite | Innovation Excellence Award

Prof. Dr Gustavo Haddad Souza Vieira , Innovation Excellence Award , Brazil.

Dr.ย Gustavo Haddad Souza Vieiraย is a Brazilian agricultural engineer and professor at the Federal Institute of Education, Science, and Technology of Espรญrito Santo (IFES). With a Ph.D. in Agricultural Engineering, his work focuses on irrigation systems, water resource management, and enhancing agricultural productivity through innovative technologies. As a CNPq Productivity Fellow, he has published over 60 articles and led the Irrifes research group, contributing significantly to sustainable irrigation practices in agriculture.ย ๐ŸŒฑ๐Ÿ’ง๐Ÿ“š.

Publication Profile

Orcid
Scopus

Education and Experience:

  • Ph.D. in Agricultural Engineeringย (Federal University of Viรงosa, 2012)ย ๐ŸŒพ๐ŸŽ“
  • M.Sc. in Agricultural Engineeringย (Federal University of Viรงosa, 2002)ย ๐Ÿง‘โ€๐Ÿ”ฌ
  • B.Sc. in Agronomyย (Federal University of Viรงosa, 1999)ย ๐ŸŒฟ
  • Postdoctoral Fellowย (University of Florida, 2019-2020)ย ๐ŸŒ๐Ÿ”ฌ
Professional Experience:
  • Professor at IFESย (2008โ€“Present)ย ๐ŸŒพ
  • Coordinator of Irrigation Courseย (IFNMG, 2006โ€“2007)ย ๐Ÿง‘โ€๐Ÿซ
  • Leader of Irrifes Research Groupย at IFESย ๐ŸŒฑ.

Suitability Summary

Dr.ย Gustavo Haddad Souza Vieira is a leading researcher in Agricultural Engineering, whose exceptional innovations have significantly advanced irrigation systems, water management, and sustainable agricultural practices. His groundbreaking work has led to new technologies that enhance water use efficiency, increase crop productivity, and support sustainable farming, positioning him as a strong candidate for theย Innovation Excellence Award.

Professional Development:

Dr.ย Gustavo has continually advanced his expertise through postdoctoral studies at the University of Florida, focusing on water resource management and irrigation technologies. He actively participates in workshops and international conferences, sharing his knowledge on the efficient use of water in agriculture. His work bridges the gap between agrotechnology and sustainable farming, enhancing productivity while minimizing water usage. Through collaborative research with national and international experts, he has significantly contributed to the development of improved irrigation systems.ย ๐Ÿšœ๐Ÿ’ก๐ŸŒย  .

Research Focus:

Dr.ย Gustavoโ€™s research focuses on sustainable irrigation practices and the efficient use of water in agriculture. His work involves optimizing center pivot and drip irrigation systems, improving water quality management, and addressing challenges in water-clogging irrigation systems. By combining agrometeorology with technology, he aims to increase agricultural productivity while promoting water conservation. His contributions have positively impacted small-scale and family farming, ensuring more efficient and sustainable agricultural practices.ย ๐ŸŒพ๐Ÿ’ง๐Ÿ“Š.

Awards and Honors:

  • CNPq Productivity Fellowย (PQ2)ย ๐ŸŒŸ
  • Best Researcher in Irrigation Technologiesย (IFES)ย ๐Ÿ†
  • Published over 60 articlesย in leading journalsย ๐Ÿ“š
  • Researcher of the Yearย in Agricultural Engineering (2018)ย ๐Ÿ….

Publication Top Notes

  • Vieira, G.H.S., et al. (2012).ย Rational use of irrigation in sugarcane culture with center-pivot irrigation in Northern Minas Gerais.ย [Cited by 45]ย ๐ŸŒพ
  • Vieira, G.H.S., et al. (2002).ย Recovery of drip irrigation systems clogged due to ferruginous water.ย [Cited by 38]ย ๐Ÿ’ฆ
  • Vieira, G.H.S., et al. (2015).ย Evaluation of water magnetization impact on irrigation efficiency.ย [Cited by 26]ย ๐ŸŒŸ
  • Vieira, G.H.S., et al. (2018).ย Irrigation technology adoption in Espรญrito Santo.ย [Cited by 58]ย ๐Ÿ“ˆ
  • Vieira, G.H.S., et al. (2014).ย Evaluation of irrigation systems efficiency in different soil textures in Espรญrito Santo.ย [Cited by 55]ย ๐ŸŒ
  • Vieira, G.H.S., et al. (2017).ย Use of soil moisture sensors in the management of irrigation in tropical regions.ย [Cited by 49]ย ๐ŸŒก๏ธ
  • Vieira, G.H.S., et al. (2020).ย Impact of automated irrigation systems on crop yield and water use efficiency.ย [Cited by 40]ย ๐Ÿค–
  • Vieira, G.H.S., et al. (2011).ย Modeling water distribution uniformity in pressurized irrigation systems.ย [Cited by 33]ย ๐Ÿ’ง
  • Vieira, G.H.S., et al. (2016).ย Agroecology and integrated pest management in sustainable agriculture practices.ย [Cited by 50]ย ๐ŸŒฑ
  • Vieira, G.H.S., et al. (2019).ย Technological advances in drip irrigation systems for water-saving agriculture.ย [Cited by 60]ย ๐Ÿ’ฆ
  • Vieira, G.H.S., et al. (2013).ย Analysis of drip irrigation performance in fruit trees.ย [Cited by 35]ย ๐ŸŠ
  • Vieira, G.H.S., et al. (2021).ย Sustainability in agricultural irrigation: Case studies from Brazilโ€™s agriculture sectors.ย [Cited by 48]ย ๐ŸŒ
  • Vieira, G.H.S., et al. (2015).ย Design considerations for improving irrigation systems’ operational efficiency.ย [Cited by 42]ย โš™๏ธ
  • Vieira, G.H.S., et al. (2018).ย The role of precision agriculture in reducing water consumption in large-scale farming.ย [Cited by 37]ย ๐ŸŒพ
  • Vieira, G.H.S., et al. (2017).ย The future of irrigation technologies in response to climate change challenges.ย [Cited by 53]ย ๐ŸŒž.