Comparison of genotypic and phenotypic selection of breeding parents in a carrot (<i>Daucus carota</i>) germplasm collection

Corak, K.E.; Genger, R.K.; Simon, Philipp W.; Dawson, Julie

doi:10.1002/csc2.20951

Cited by 2 publications

(1 citation statement)

References 49 publications

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“…All or parts of this global USDA germplasm collection have previously been evaluated in studies on canopy vigor (Loarca et al, 2024), core collection curation (Corak et al, 2019), demographic history of carrot domestication and breeding (Coe et al, 2023), genetic structure, phyologeny, and carotenoid presence (Ellison et al, 2018), taproot shape (Brainard et al, 2021), plant growth traits (Acosta-Motos et al, 2021), antioxidant capacity (Peŕez et al, 2023), resistance to the necrophytic fungal pathogen Alternaria dauci (Tas, 2016), and several studies on seed germination under abiotic stress (Bolton et al, 2019;Bolton and Simon, 2019;Simon, 2019;Simon et al, 2021). In addition, the collection has been used for ecogeographic variation analysis (Mezghani et al, 2019), genomic core collection curation (Corak et al, 2019), and evaluation of genomic prediction strategies (Corak et al, 2023), as well as in studies of carrot CWR on subspecies identification (Spooner et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of shoot-growth variation in diverse carrot (Daucus carota L.) germplasm for genetic improvement of stand establishment

Loarca,

Liou,

Dawson

et al. 2024

Front. Plant Sci.

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Carrot (Daucus carota L.) is a high value, nutritious, and colorful crop, but delivering carrots from seed to table can be a struggle for carrot growers. Weed competitive ability is a critical trait for crop success that carrot and its apiaceous relatives often lack owing to their characteristic slow shoot growth and erratic seedling emergence, even among genetically uniform lines. This study is the first field-based, multi-year experiment to evaluate shoot-growth trait variation over a 100-day growing season in a carrot diversity panel (N=695) that includes genetically diverse carrot accessions from the United States Department of Agriculture National Plant Germplasm System. We report phenotypic variability for shoot-growth characteristics, the first broad-sense heritability estimates for seedling emergence (0.68 < H2 < 0.80) and early-season canopy coverage ( 0.61 < H2 < 0.65), and consistent broad-sense heritability for late-season canopy height (0.76 < H2 < 0.82), indicating quantitative inheritance and potential for improvement through plant breeding. Strong correlation between emergence and canopy coverage (0.62 < r < 0.72) suggests that improvement of seedling emergence has great potential to increase yield and weed competitive ability. Accessions with high emergence and vigorous canopy growth are of immediate use to breeders targeting stand establishment, weed-tolerance, or weed-suppressant carrots, which is of particular advantage to the organic carrot production sector, reducing the costs and labor associated with herbicide application and weeding. We developed a standardized vocabulary and protocol to describe shoot-growth and facilitate collaboration and communication across carrot research groups. Our study facilitates identification and utilization of carrot genetic resources, conservation of agrobiodiversity, and development of breeding stocks for weed-competitive ability, with the long-term goal of delivering improved carrot cultivars to breeders, growers, and consumers. Accession selection can be further optimized for efficient breeding by combining shoot growth data with phenological data in this study’s companion paper to identify ideotypes based on global market needs.

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Section: Introductionmentioning

confidence: 99%

Evaluation of shoot-growth variation in diverse carrot (Daucus carota L.) germplasm for genetic improvement of stand establishment

Loarca,

Liou,

Dawson

et al. 2024

Front. Plant Sci.

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Challenges and Opportunities in the Sustainable Improvement of Carrot Production

Paparella,

Kongala,

Serio

et al. 2024

Plants

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From an agricultural perspective, carrots are a significant tap root vegetable crop in the Apiaceae family because of their nutritional value, health advantages, and economic importance. The edible part of a carrot, known as the storage root, contains various beneficial compounds, such as carotenoids, anthocyanins, dietary fiber, vitamins, and other nutrients. It has a crucial role in human nutrition as a significant vegetable and raw material in the nutraceutical, food, and pharmaceutical industries. The cultivation of carrot fields is susceptible to a wide range of biotic and abiotic hazards, which can significantly damage the plants’ health and decrease yield and quality. Scientific research mostly focuses on important biotic stressors, including pests, such as nematodes and carrot flies, as well as diseases, such as cavity spots, crown or cottony rot, black rot, and leaf blight, caused by bacteria, fungi, and oomycetes. The emerging challenges in the field include gaining a comprehensive understanding of the interaction between hosts and pathogens in the carrot–pathogen system, identifying the elements that contribute to disease development, expanding knowledge of systemic treatments, exploring host resistance mechanisms, developing integrated control programs, and enhancing resistance through breeding approaches. In fact, the primary carrot-growing regions in tropical and subtropical climates are experiencing abiotic pressures, such as drought, salinity, and heat stress, which limit carrot production. This review provides an extensive, up-to-date overview of the literature on biotic and abiotic factors for enhanced and sustainable carrot production, considering the use of different technologies for the shelf-life extension of carrots. Therefore, it addresses the current issues in the carrot production chain, opening new perspectives for the exploration of carrots both as a food commodity and as a source of natural compounds.

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Comparison of genotypic and phenotypic selection of breeding parents in a carrot (Daucus carota) germplasm collection

Cited by 2 publications

References 49 publications

Evaluation of shoot-growth variation in diverse carrot (Daucus carota L.) germplasm for genetic improvement of stand establishment

Evaluation of shoot-growth variation in diverse carrot (Daucus carota L.) germplasm for genetic improvement of stand establishment

Challenges and Opportunities in the Sustainable Improvement of Carrot Production

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