United Soybean Board

Personal Information

Name:Thomas Baum
Address:Iowa State University
351 Bessey Hall
Ames, IA50011
Phone:515-294-2398
Email:tbaum at iastate.edu

Biography

Projects as Lead Investigator

Projects

Project Title
Mechanisms of defense suppression by cyst nematode effectors
An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
Functional characterization of the SCN effectors
RNA-based approaches for protecting against yield loss due to Soybean Diseases
Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (Year 3 of 7214)

Projects - Individual Years

YearProject Title (each year)
2020Mechanisms of defense suppression by cyst nematode effectors
2018An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
2017Functional characterization of the SCN effectors
2017An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
2017An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
2016Functional characterization of the SCN effectors
2016An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
2015Functional characterization of the SCN effectors
2014RNA-based approaches for protecting against yield loss due to Soybean Diseases
2013RNA-based approaches for protecting against yield loss due to Soybean Diseases
2013Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (1320-532-5602)
2012RNA-based approaches for protecting against yield loss due to Soybean Diseases
2012Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (Year 3 of 0214)
2011RNA-based approaches for protecting against yield loss due to Soybean Diseases
2011Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (Year 2 of 0214)
2010Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (Year 1 of 0214)
2009Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes (Year 3 of 7214)

Projects as Co-Investigator

Projects

Project Title
An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
Development of novel breeding lines for resistance to plant pathogens
Utilization of VIGS to identify resistance to agents of stress in soybean
Targeting Root-Knot and Reniform Nematode Parasitism Genes to Develop Novel Resistance in Soybean (Year 1 of 2280)
Development of high-throughput DNA-based gene silencing technology for soybeans
Controlling yield-reducing pathogen stress in soybean; Short- and long-term benefits to stable production
Characterization of the soybean rust infection process in susceptible and resistance soybean interaction
Exploring new resistance resources for treating Soybean Diseases
Development of High-throughput DNA-based Gene Silencing Technology for Soybeans (Year 2 of 8251)

Projects - Individual Years

YearProject Title (each year)
2016An integrated approach to enhance durability of SCN resistance for long term strategic SCN management
2015Development of novel breeding lines for resistance to plant pathogens
2012Utilization of VIGS to identify resistance to agents of stress in soybean
2012Targeting Root-Knot and Reniform Nematode Parasitism Genes to Develop Novel Resistance in Soybean (Year 1 of 2280)
2010Development of high-throughput DNA-based gene silencing technology for soybeans
2009Development of High-throughput DNA-based Gene Silencing Technology for Soybeans (Year 2 of 8251)
2009Controlling yield-reducing pathogen stress in soybean; Short- and long-term benefits to stable production
2009Characterization of the soybean rust infection process in susceptible and resistance soybean interaction
2009Exploring new resistance resources for treating Soybean Diseases