Registration of ‘DALSA 1618’ St. Augustinegrass

Chandra, Ambika; Genovesi, A. D.; Meeks, Meghyn; Segars, Chrissie A.; Eads, Justin; Hejl, Reagan; Floyd, W. L.; Wherley, Benjamin; Straw, Chase M.; Bowling, Rebecca; Kenworthy, Kevin E.; Schwartz, Brian M.; Raymer, Paul L.; Milla‐Lewis, Susana R.; Wu, Yanqi

doi:10.1002/plr2.20302

J of Plant Registrations

2023

DOI: 10.1002/plr2.20302

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Registration of ‘DALSA 1618’ St. Augustinegrass

Ambika Chandra

A. D. Genovesi

Meghyn Meeks

et al.

Abstract: Abstract‘DALSA 1618’ (Reg. no. CV‐291, PI 702594) is a first‐generation intraspecific St. Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze] hybrid developed by Texas A&M AgriLife Research in Dallas, TX, from a cross between a drought‐resistant polyploid female parent, TAES 5384 (PI 300130, GRIN National Plant Germplasm System), and a semi‐dwarf shade‐tolerant diploid pollen donor, ‘Amerishade’. DALSA 1618 was formerly tested as ‘TAES 5896‐09’ and ‘TXSA‐156’. Superior performance and quality from 2010… Show more

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2024

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Cited by 2 publications

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Maximizing genetic gains across agronomic and consumer preference traits in St. Augustinegrass breeding

Milla‐Lewis,

Gouveia,

Kenworthy

et al. 2024

Crop Science

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Combining large multi‐environment trial (MET) datasets to decide which genotypes to move forward in the breeding process can be challenging, especially when dealing with negatively correlated traits. The use of a selection index has long been identified as an effective strategy in these situations. However, the method has found limited application in turfgrass breeding. The objective of this study was to use MET data for St. Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze] breeding lines evaluated across the southern United States to compare genetic gains achieved with the additive additive genetic index (AI) versus the turf performance index (TPI) incorporating agronomic as well as consumer preference traits. The use of either selection index produced more positive genetic gains across traits than direct selection even in the presence of negative correlations. However, the higher genetic gains obtained with AI versus TPI indicate that the use of an index that weighs traits according to their importance is a better approach for selection. Moreover, under a more stringent selection intensity, none of the best lines identified with AI would have been selected with TPI emphasizing the importance of choosing selection criteria that provide a more nuanced ranking of lines. Additionally, higher heritability values and gains from selection were obtained for turfgrass quality under stress (drought and shade) than under normal conditions indicating that selection under stress environments might be more efficient. Most of the evaluated St. Augustinegrass lines outperformed the checks, further supporting the value of cross‐institutional breeding collaborations.

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Maximizing genetic gains across agronomic and consumer preference traits in St. Augustinegrass breeding

Milla‐Lewis,

Gouveia,

Kenworthy

et al. 2024

Crop Science

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Enhancing drought resistance in warm‐season turfgrasses: Fourteen years of progress through a multistate collaborative project across the southern United States

Gouveia,

Kenworthy,

Chandra

et al. 2024

Crop Science

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In turfgrass breeding, drought resistance is a primary trait for improvement due to scarcity and reduced quality of water for irrigation. Therefore, in 2010, the turfgrass breeding programs at six public universities joined efforts to address these challenges by cross evaluating breeding lines for the most economically significant warm‐season turfgrass species in the southern United States through a United States Department of Agriculture‐National Institute for Food and Agriculture Specialty Crop Research Initiative funded project. Three breeding cycles were associated with three completed (2010–2014, 2014–2019, and 2019–2024) collaborative grant projects, but the efficiency of this partnership in terms of gains from selection has not been measured. Our objectives were to (1) estimate the expected and realized genetic gain for drought resistance and turfgrass quality for three breeding cycles, (2) compare cultivars developed with support of the projects versus standard cultivars in a historical data analysis, and (3) compare genetic gain for traits assessed visually versus using small unmanned aircraft systems imagery, both in drought and non‐drought environments. For these purposes, historical data were investigated with a retrospective analysis of project trials evaluated 2011–2024. Our findings for the realized genetic gain demonstrated progress in enhancing drought resistance in bermudagrass, St. Augustinegrass, seashore paspalum, and zoysiagrass. In addition, notable positive increments for this trait were documented for each cycle compared to the standard cultivars, particularly in bermudagrass, St. Augustinegrass, and zoysiagrass. While heritability was higher for visually assessed traits, genetic increments were more pronounced for imagery‐assessed traits.

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Registration of ‘DALSA 1618’ St. Augustinegrass

Cited by 2 publications

References 28 publications

Maximizing genetic gains across agronomic and consumer preference traits in St. Augustinegrass breeding

Maximizing genetic gains across agronomic and consumer preference traits in St. Augustinegrass breeding

Enhancing drought resistance in warm‐season turfgrasses: Fourteen years of progress through a multistate collaborative project across the southern United States

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