1: Chapters

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Page ID: 159932

Walter R. Fehr and Walter P. Suza
Iowa State University via Iowa State University Digital Press

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1: Maximizing Genetic Gain I
This page emphasizes the design of effective breeding programs for cultivar development, highlighting heritability and genetic improvement strategies. It references "Principles of Cultivar Development" for calculating genetic gain and introduces a learning activity focused on oleic acid content selection. Additionally, the page contains numerical data organized by categories, though lacking context or narrative clarity.
2: Maximizing Genetic Gain II
This page emphasizes the importance of genotype x environment interactions in selecting quantitative traits, noting that traits like days to maturity are more reliable across environments than yields. Farmers rely on past data for cultivar selection, especially for low interaction traits. Challenges for breeders are highlighted due to significant genotype x environment interactions.
3: Maximizing Genetic Gain III
This page outlines a lesson on recurrent selection in plant breeding, highlighting its role in maximizing genetic gain. It stresses the need for quick selection cycles and details the genetic gain equation. Different recurrent selection methods are compared, with a focus on their seasonal effectiveness.
4: Clonal Cultivars
This page discusses the development of clonal cultivars through creating segregating populations, selecting superior hybrids, and ensuring disease-free seedstock. It underscores the significance of apomicts and disease prevention in crops like potato and sweet potato, using methods such as meristem culture.
5: Pure-Line Cultivars
This page outlines the development of pure-line cultivars through key steps such as creating a segregating population, developing pure lines, and conducting testing for traits like yield. It also highlights the importance of seed purification and methods used to ensure genetic uniformity. Additionally, it lists several plant cultivars registered in 2011, including notable varieties of barley, wheat, peanut, bean, and lentil, along with contributors' names involved in their registration.
6: Heterosis
This page discusses the importance of hybrid cultivars for maximizing yields, emphasizing heterosis and the need for methods like emasculation to prevent self-pollination. It covers developing inbred lines for crops such as asparagus and cucumbers, highlighting flower types and seed generation techniques. Two hybrid seed production systems are detailed: the CMS system and the SPT system, with examples from canola and maize.
7: Hybrid Cultivars
This page details the development of inbred lines for hybrid cultivars in maize and sorghum, emphasizing the role of heterotic groups, male sterility, and early generation testing for desirable traits. Breeders focus on performance evaluation across diverse sites, reducing test lines while increasing testers. In maize, methods include detasseling and controlled pollination, while canola employs male sterility with pollinator arrangements.
8: Synthetic Cultivars
This page covers the development of synthetic cultivars in forage and turfgrass, emphasizing heterozygosity, perennial characteristics, and a four-step selection process. It also discusses synthetic cultivar development in alfalfa and maize, focusing on pollination methods and trait evaluation for commercial seed production.
9: Multilines and Seed Blends
This page discusses the creation of seed blends for commercial use, focusing on matching cultivars to specific applications, such as combining Kentucky bluegrass with ryegrass for lawns. It highlights the "refuge-in-a-bag" innovation in maize, integrating non-transgenic and transgenic hybrids to manage insect resistance. The chapter also features an Applied Learning Activity to analyze seed blend rationales through real-world examples.
10: Release and Distribution of Cultivars
This page discusses the release process of new plant cultivars, noting differences between public institutions and private companies. Public entities, such as Iowa State University, manage germplasm as intellectual property under their research foundation, utilizing patents and plant variety certificates for legal protection.

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