Pedigree of Florida Medallion™ ‘FL 16.30-128’ strawberry. The female parent is indicated on the upper side of each bifurcation.
Plants and fruit of Florida Medallion™ ‘FL 16.30-128’ strawberry in Feb 2020 at a farm near Wimauma, FL, USA.
Marketable yield of ‘Florida Brilliance’ and Florida Medallion™ ‘FL 16.30-128’ strawberries in a replicated on-farm trial (two replications with 250 plants per replication) near Wimauma, FL, USA, during 2020 season. Planting date: 25 Sep 2019. One flat equals eight 454 g plastic containers.
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Currently the main strawberry (Fragaria × ananassa) grown in Florida is ‘Florida Brilliance’ (Whitaker et al. 2019; US Patent PP30,564). Commercialized in 2018, it accounted for ∼50% of the acreage in west-central Florida in 2024. This cultivar has high early yield and uniformly shaped, medium-sized, and glossy fruit. Its open plant architecture and long stems facilitate efficient harvesting. In recent years, Sweet SensationTM ‘Florida127’ (Whitaker et al. 2015; hereafter referred to as ‘Florida127’; US Patent PP25,574) has been the second leading cultivar, notable for its large fruit size and sweet flavor. However, despite being considered a premium flavored cultivar, ‘Florida127’ acreage has decreased in recent years, partly because of its lower yields in December compared with ‘Florida Brilliance’. Therefore, there remains a need for varieties with both high early yields similar to ‘Florida Brilliance’ and premium flavor similar to ‘Florida127’. The introduction of Florida Medallion™ ‘FL 16.30-128’ (hereafter referred to as ‘FL 16.30-128’; US Patent PP33,451) in 2020 has provided such an option. As a result, this cultivar increased to about 15% of the acreage in central Florida by 2024. Trials of ‘FL 16.30-128’ were conducted on the research plots of the University of Florida Gulf Coast Research and Education Center in Wimauma, FL, USA; at the Florida Strawberry Growers Association headquarters in Dover, FL, USA; and on commercial farms in west-central Florida.
Florida Medallion™ ‘FL 16.30-128’ (hereafter referred to as ‘FL 16.30-128’; US Patent PP33,451) strawberry originated from a 2016 cross between unreleased selection FL 13.27-142 (female parent) and unreleased selection FL 12.90-53 (male parent) (Fig. 1). FL 13.27-142 was chosen as a parent for its flavor, firmness and conical shape, and FL 12.90-53 was chosen primarily for its early yield. Seeds from this cross were germinated and seedlings evaluated during the 2016–17 season.
Citation: HortScience 60, 7; 10.21273/HORTSCI18585-25
During the 2018–19 and following seasons, yield and fruit quality data were collected from replicated trials conducted at the Gulf Coast Research and Education Center (GCREC). Field plots were prepared and maintained according to current commercial practices for annual strawberry plasticulture in Florida. Beds were spaced 1.2 m on center and were 90 m long, 70 cm wide, 15 cm high at the edges, and 18 cm high in the center and were covered with a single layer of black, high-density polyethylene mulch. Preplant fumigation consisted of a 65:35 mixture of 1,3-dichloropropene and chloropicrin (Telone C35, Dow AgroSciences, Midland, MI, USA). Each bed contained two rows of plants spaced 38 cm apart within rows and 28 cm apart between rows within beds. All trials were conducted using bare-root plants. Five replicate plots (10 plants per plot) of each genotype were planted in a randomized complete block design at the GCREC. The trials were planted between 9 and 11 Oct in each year; the commercial planting period ranges from ∼25 Sep to 20 Oct. Overhead irrigation from impact sprinklers was applied for plant establishment on a 15-min-on 15-min-off cycle during daylight hours for up to 10 d after transplanting, after which water and fertilizer were applied exclusively through a single drip tape based on recommendations presented in Agehara and Hochmuth (2023).
All ripe fruits (at least three-quarters red) were harvested, graded, counted, and weighed twice a week from December through March. Fruits that were diseased, misshapen, small (<10 g), or rain damaged were considered unmarketable, and the remaining fruits were weighed to determine the marketable yield in grams on a per plant basis. Once per month, fresh fruits were transported on the day of harvest via an air-conditioned vehicle to the US Department of Agriculture Agricultural Research Service, US Horticultural Research Laboratory in Fort Pierce, FL, USA and stored at 4 °C overnight. The next day, flavor evaluations by a trained sensory panel and measurement of soluble solids content (SSC), pH, titratable acidity (TA; % citric acid equivalents), and firmness were conducted on fruit from the same field plots as previously described (Plotto et al. 2013).
Separate field trials were conducted during the 2019–20, 2020–21, 2021–22, 2022–23, and 2023–24 seasons to determine resistance to fruit, foliar, and crown pathogens. Inoculation and rating methods for Neopestalotiopsis spp., anthracnose fruit rot (caused by Colletotrichum acutatum species complex), charcoal rot (caused by Macrophomina phaseolina), Phytophthora crown rot (caused by Phytophthora cactorum), and Colletotrichum crown rot (caused by Colletotrichum gloeosporioides species complex) were described in Baggio et al. (2023), Seijo et al. (2011), Mertely et al. (2014a, 2014b), and Mackenzie et al. (2006). Natural disease incidence based on the percentage of fruit with observed symptoms was determined for powdery mildew (caused by Podosphaera aphanis) and Botrytis fruit rot (caused by Botrytis cinerea).
In all statistical analyses, blocks were considered fixed effects, and mean separations were only performed if genotype effects were significant. Residuals were examined for normality and homogeneity, and percentage data were modeled with GLIMMIX using logit link functions and binomial distributions.
‘FL 16.30-128’ is a short-day strawberry adapted to annual plasticulture growing systems for winter and early spring production. The plant is compact with upright architecture, allowing air movement and visualization of the fruit (Fig. 2). ‘FL 16.30-128’ produces moderately firm and juicy fruit that are broad conic in shape with a medium green (colorimeter L* = 48.1, a* = −17.0, b* = 24.4) calyx that is reflexed. The redness of the fruit is medium externally (a* = 38.6), with moderate internal redness (a* = 22.6) slightly more red than ‘Florida Brilliance’. Fruit size is medium-large, with fruit size similar to ‘Florida Brilliance’ (Table 1).
Citation: HortScience 60, 7; 10.21273/HORTSCI18585-25
Trained sensory panels were conducted on ten harvest dates over three seasons (Table 2). No trained sensory panel data were obtained during the 2020–21 and 2021–22 seasons due to COVID-19 restrictions. Firmness and “green” flavor were lower in ‘FL 16.30-128’ than in ‘Florida Brilliance’ in some weeks. Sweetness and strawberry flavor intensity ratings were usually not different from ‘Florida127’ but were sometimes significantly higher. This is consistent with high soluble solids content (SSC) similar to ‘Florida127’ (Table 3). However, ‘FL 16.30-128’ had higher titratable acidity (TA) than ‘Florida127’ on multiple harvest dates, providing a pleasantly balanced but intense flavor. DNA marker tests show that ‘FL 16.30-128’ carries two copies of FaFAD1 and thus produces higher quantities of the volatile γ-decalactone that contributes to fruity aroma in strawberry (Chambers et al. 2014; Jang et al. 2024; Oh et al. 2021; Porter et al. 2023). This gene is present in many of the UF cultivars including ‘Florida127’ and ‘Florida Brilliance’ but previously only in the heterozygous state (single copy).
In replicated trials, November through January yields of ‘FL 16.30-128’ were similar to ‘Florida Brilliance’ but were typically lower in February and March (Table 1). Lower late-season yields are related to the smaller plant of ‘FL 16.30-128’ compared with the other commercial standards. An on-farm trial with a planting date of 25 Sep 2019 was established to test the suitability of Florida Medallion for early planting. In this trial February and March yields were very similar to ‘Florida Brilliance’, likely because of higher fertilization rates and resultant larger plant size in the commercial trial (Fig. 3). This suggests that with appropriate management practices, ‘FL 16.30-128’ can achieve both high early yields and high total yields in addition to its premium flavor. ‘FL 16.30-128’ also maintained an exceptionally consistent conical shape throughout the entire season in all trials.
Citation: HortScience 60, 7; 10.21273/HORTSCI18585-25
The disease resistance profile of ‘FL 16.30-128’ was comparable to that of ‘Florida Brilliance’ for Neopestalotipsis, foliar powdery mildew, Phytophthora crown rot, and Colletotrichum crown rot (Table 4). Although it is not an improvement, similarity to the commercial standard was considered acceptable. It had lower incidence of Botrytis fruit rot than both commercial standards, possibly due to its compact but upright plant architecture that enhances air movement around the blooms. The incidence of anthracnose fruit rot and mortality due to charcoal rot for ‘FL 16.30-128’ were higher than both commercial standards. This coincides with DNA marker test results that show the absence of the resistant allele at the FaRCa1 locus (Jang et al. 2024; Salinas et al. 2019) for anthracnose fruit rot resistance and at the FaRMp1 locus (Jang et al. 2024; Nelson et al. 2021) for charcoal rot resistance. Thus, special attention to the management of these two diseases in Florida is necessary for ‘FL 16.20-128’ (MacKenzie and Peres 2007; Peres et al. 2018).
‘FL 16.30-128’ was approved for release by the Florida Agricultural Experiment Station in 2020. US Patent PP33,451 was granted in 2021. Plant breeder’s rights applications have been filed in foreign territories. Information on nurseries licensed to propagate this cultivar can be obtained from Florida Foundation Seed Producers, Inc., P.O. Box 110200, Gainesville, FL 32611, USA (http://ffsp.net).
Pedigree of Florida Medallion™ ‘FL 16.30-128’ strawberry. The female parent is indicated on the upper side of each bifurcation.
Plants and fruit of Florida Medallion™ ‘FL 16.30-128’ strawberry in Feb 2020 at a farm near Wimauma, FL, USA.
Marketable yield of ‘Florida Brilliance’ and Florida Medallion™ ‘FL 16.30-128’ strawberries in a replicated on-farm trial (two replications with 250 plants per replication) near Wimauma, FL, USA, during 2020 season. Planting date: 25 Sep 2019. One flat equals eight 454 g plastic containers.
Contributor Notes
V.M.W. is the corresponding author. E-mail: vwhitaker@ufl.edu.
Pedigree of Florida Medallion™ ‘FL 16.30-128’ strawberry. The female parent is indicated on the upper side of each bifurcation.
Plants and fruit of Florida Medallion™ ‘FL 16.30-128’ strawberry in Feb 2020 at a farm near Wimauma, FL, USA.
Marketable yield of ‘Florida Brilliance’ and Florida Medallion™ ‘FL 16.30-128’ strawberries in a replicated on-farm trial (two replications with 250 plants per replication) near Wimauma, FL, USA, during 2020 season. Planting date: 25 Sep 2019. One flat equals eight 454 g plastic containers.
