High Temperatures during Flowering Reduce Fruit Set in Rabbiteye Blueberry

Yang, Qin; Er, Liu; Fu, Yan; Yuan, Fuqiang; Zhang, Tingting; Peng, Shushi

doi:10.21273/jashs04650-19

Cited by 21 publications

(25 citation statements)

References 35 publications

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“…Notably, the genes mediating plant fertilization in warmer temperature were also present in the tandem duplicated genes (Table S17 and 18). It is common in farms that high temperature reduces fertilization of blueberry cultivars 91 . The tandem genes related to fertilization may help V. darrowii propagating in subtropical regions.…”

Section: Discussionmentioning

confidence: 99%

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Dissecting the subtropical adaptation traits and cuticle synthesis pathways via the genome of the subtropical blueberryVaccinium darrowii

Cui

et al. 2021

Preprint

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Vaccinium darrowii is a subtropical wild blueberry species, which was used to breed economically important southern highbush cultivars. The adaptation traits of V. darrowii to subtropical climate would provide valuable information for breeding blueberry and perhaps other plants, especially against the background of global warming. Here, we assembled the V. darrowii genome into 12 pseudochoromosomes using Oxford Nanopore long reads complemented with Hi-C scaffolding technologies, and predicted 41 815 genes using RNAseq evidence. Syntenic analysis across three Vaccinium species revealed a highly conserved genome structure, with the highest collinearity between V. darrowii and V. corymbosum. This conserved genome structure may explain the high fertilization during crossbreeding between V. darrowii and other blueberry cultivars. Gene expansion and tandem duplication analysis indicated possible roles of defense and flowering associated genes in adaptation of V. darrowii to the subtropics. The possible SOC1 genes in V. darrowii were identified with phylogeny and expression analysis. Blueberries are covered in a thick cuticle layer and contain anthocyanins, which confer their powdery blue color. Using RNA-sequencing, the cuticle biosynthesis pathways of Vaccinium species were delineated here in V. darrowii. This result could serve as a reference for breeding berries with customer-desired colors. The V. darrowii reference genome, together with the unique traits of this species, including diploid genome, short vegetative phase, and high compatibility in hybridization with other blueberries, make V. darrowii a potential research model for blueberry species.

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Section: Discussionmentioning

confidence: 99%

“…ERdj3B is essential for pollen development at high temperatures, and the corresponding Arabidopsis mutant produced few seeds at slightly elevated temperature, from 22 to 29 °C 89 . Fertilization in Vaccinium species is sensitive to high temperature 90,91 .…”

Section: Genome Evolution In V Darrowiimentioning

confidence: 99%

Dissecting the subtropical adaptation traits and cuticle synthesis pathways via the genome of the subtropical blueberryVaccinium darrowii

Cui

et al. 2021

Preprint

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“…Therefore, pollen tubes in apple-growing regions with warmer spring temperatures might require less time to reach the ovules. However, higher temperatures have been reported to shorten the longevity of ovules in blueberry [ 29 ], sweet cherry [ 30 ], and plum [ 31 ]. Apple cultivars have different optimum temperatures for maximum pollen tube growth rates.…”

Section: Discussionmentioning

confidence: 99%

Effective Pollination Period and Parentage Effect on Pollen Tube Growth in Apple

Roeder

Serra

Musacchi

2021

Plants

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Flower receptivity is a limiting factor for the fertilization of several tree fruit. The effective pollination period (EPP) can be used to determine flower longevity and identify limiting factors by assessing stigmatic receptivity, pollen tube growth rate, and ovule longevity. EPPs were determined for three apple cultivars under natural field conditions in Washington State in 2019 and 2020. In addition, a greenhouse study, performed under semi-controlled conditions, evaluated the influence of six maternal parents on the pollen tube growth performance of six pollen sources. The duration of the stigmatic receptivity ranged from 6.3 to 8.1 days, depending on the cultivar and year—pollen tubes required between 5.5 and 7.0 days from the stigma to reach the ovules. Ovule longevity of non-pollinated flowers varied between 8.2 and 11.3 days. Combinations of these factors resulted in EPPs ranging from 3.0 days for ‘Rubinstar’ to 5.6 days for ‘Olsentwo Gala’ in the present experimental conditions. The greenhouse study revealed that parentage affected pollen tube growth performance. Importantly, a significant interaction between maternal and paternal factors indicated that the performance of different pollen sources depended on the maternal parent and that general recommendations on pollination need to account for the maternal parent.

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“…This is because other factors are also important for the overcoming plant dormancy, such as water stress, thermal stress, pest attack, among others, which can act alone or together. Excessive rainfall, for example, can interfere with the pollination of flowers and fruit set, while thermal stress can compromise both pollen and ovule viability [34].…”

Section: Table 2 Chill Accumulation To Vegetative Bud Break Calculated By the Model Ofmentioning

confidence: 99%

Estimation of Chilling Accumulation for Blackberry (Rubus sp.) Using Mathematical Models

Carpenedo

Raseira

Franzon

2021

JEAI

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As the climate change takes place, the cultivation of temperate climate crops in subtropical areas has become a challenge. The success of fruit crops, such as blackberry, in certain areas depends basically on its chilling requirement and the chilling accumulation in those areas. Usually the models used to predict those accumulations presents widely variable results being necessary to test the models in the location where the species is cultivated. The objective of this work was to estimate the chilling requirement for bud break of blackberry cultivars Caingangue, BRS Cainguá, Guarani, Tupy, BRS Xavante, BRS Xingu, Brazos, Cherokee and Choctaw, using the models of Utah, Positive Utah, Low Chill, Taiwan, Chilling Hours ≤7.2°C, Chilling Hours ≤11°C, and Dynamic and both temperature and phenological data from 2010 to 2019. The results showed a high variability in cold accumulation for all studied cultivars in all tested models. None of the models performed perfectly to estimate chilling requirement however, the Taiwan and the Utah Positive models can be used to provide a rough estimate of this requirement. On the other hand, Utah and Low Chill models are clearly not suitable for estimating blackberry chilling requirement. The estimated chilling requirement showed that all the studied cultivars are well adapted to the climatic conditions of the southern Rio Grande do Sul, which is emphasized by their good productivity in most of the years.

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High Temperatures during Flowering Reduce Fruit Set in Rabbiteye Blueberry

Cited by 21 publications

References 35 publications

Dissecting the subtropical adaptation traits and cuticle synthesis pathways via the genome of the subtropical blueberryVaccinium darrowii

Dissecting the subtropical adaptation traits and cuticle synthesis pathways via the genome of the subtropical blueberryVaccinium darrowii

Effective Pollination Period and Parentage Effect on Pollen Tube Growth in Apple

Estimation of Chilling Accumulation for Blackberry (Rubus sp.) Using Mathematical Models

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