Transgressive Biochemical Response to Water Stress in Interspecific Eggplant Hybrids

González-Orenga, Sara; Plazas, Mariola; Ribera, Elvira; Pallotti, Claudia; Boscaiu, Mónica; Prohens, Jaime; Vicente, Óscar; Fita, Ana

doi:10.3390/plants12010194

Cited by 4 publications

(4 citation statements)

References 93 publications

(104 reference statements)

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“…In a study, eggplant, its close wild relatives S. insanum and S. incanum and their interspecific hybrids with S. melongena were subjected to drought for 18 days. Their results which were support our results, showed that the hybrid between S. melongena and S. incanum displayed a better response than the other hybrids and even its parents (González-Orenga et al, 2023). On the 25 th day of the treatment 4 of 12 each 50 F4 plants showing "slow growth" (Scale = 1) were selected as "tolerant to drought" by using 0-5 scale.…”

Section: Resultssupporting

confidence: 88%

Responses of interspecific hybrid eggplant f4 inbred lines to drought and heat stress

CEBECİ,

BOYACI,

KIRAN

et al. 2023

Soil Studies

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Eggplant is grown in and near the tropic and sub-tropic zones where climate change effects can be seen dramatically in agricultural production. As a vegetable, it is considered has tolerance to some abiotic stresses compared to others. However, significant reductions in yield and marketable fruit quality were observed under stress conditions that exceeded the tolerance level. Eggplant has wild relatives which are known as tolerant to stresses. As a part of the comprehensive project this research includes drought-tolerant line development from the F4 population obtained by interspecific crossing between Solanum incanum L., a wild relative of eggplant naturally distributed in the Sub-Saharan zone, and a pure line with superior characteristics developed in BATEM. Qualified 50 inbred lines were selected as drought tolerant among F3 progenies in previous studies. In this experiment, 12 plants from each 50 genotypes at F4 level were exposed to drought stress, which was created by 25% watering of full irrigation. On the 25th day of treatment, tolerant plants were distinguished by using 0-5 scale. From each genotype, 4 plants were selected as drought tolerant, and they were transferred to greenhouse to identify their heat tolerance. Among the drought-tolerant group 42 F4 lines were found as heat tolerant.

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Section: Resultssupporting

confidence: 88%

Responses of interspecific hybrid eggplant f4 inbred lines to drought and heat stress

CEBECİ,

BOYACI,

KIRAN

et al. 2023

Soil Studies

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“…Prediction of polygenic traits, such as those tested in this trial, is usually a major challenge in hybrid generation [ 56 ]. These results are similar to those found in other studies that have evaluated F 1 eggplant hybrids under water stress, where the responses were diverse and complex due to the genetic distance of the parents [ 16 , 57 ], the generation of hybrids with parents presenting moderate genetic distances could be a better strategy, as it has been seen that they achieve better results in eggplant [ 58 ]. At the growth level, the hybrids did not stand out in any trait under water stress, but it was observed that two hybrids had lower H 2 O 2 content, which could indicate a lower level of oxidative stress [ 59 ], and one hybrid had lower proline content, which could indicate a lower level of stress [ 60 ].…”

Section: Discussionsupporting

confidence: 89%

“…The use of hybrid varieties has led to significant advances in agriculture, with the potential to increase production and resilience to biotic and abiotic stresses [ 15 ]. In eggplant, promising responses under water stress conditions have been identified through hybridization, with interspecific hybrids of S. melongena × S. incanum and S. melongena × S. insanum showing superior growth under limited water supply compared to their parents [ 16 ]. In addition, Multiparent Advanced Generation Intercrossing (MAGIC) populations are increasingly recognised as a powerful tool for plant breeding, facilitating the identification of genomic regions and the selection of recombinant lines with desired traits [ 17 ].…”

Section: Introductionmentioning

confidence: 99%

Growth and antioxidant responses to water stress in eggplant MAGIC population parents, F1 hybrids and a subset of recombinant inbred lines

Flores-Saavedra,

Plazas,

Gramazio

et al. 2024

BMC Plant Biol

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Background The generation of new eggplant (Solanum melongena L.) cultivars with drought tolerance is a main challenge in the current context of climate change. In this study, the eight parents (seven of S. melongena and one of the wild relative S. incanum L.) of the first eggplant MAGIC (Multiparent Advanced Generation Intercrossing) population, together with four F1 hybrids amongst them, five S5 MAGIC recombinant inbred lines selected for their genetic diversity, and one commercial hybrid were evaluated in young plant stage under water stress conditions (30% field capacity; FC) and control conditions (100% FC). After a 21-day treatment period, growth and biomass traits, photosynthetic pigments, oxidative stress markers, antioxidant compounds, and proline content were evaluated. Results Significant effects (p < 0.05) were observed for genotype, water treatments and their interaction in most of the traits analyzed. The eight MAGIC population parental genotypes displayed a wide variation in their responses to water stress, with some of them exhibiting enhanced root development and reduced foliar biomass. The commercial hybrid had greater aerial growth compared to root growth. The four F1 hybrids among MAGIC parents differed in their performance, with some having significant positive or negative heterosis in several traits. The subset of five MAGIC lines displayed a wide diversity in their response to water stress. Conclusion The results show that a large diversity for tolerance to drought is available among the eggplant MAGIC materials, which can contribute to developing drought-tolerant eggplant cultivars.

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“…A comparison of straightforward growth metrics is often adequate for closely related genotypes, such as varieties or cultivars of one species or even species belonging to the same genus. Some examples include permanent wilting in cowpea [45], roots system size in barley [46], reduction of fresh shoots biomass accumulation in Juncus [47], foliar dehydration in Limonium [48], reduction of leaf area and leaf fresh weight in eggplants and its hybrids [49], and shoot and leaf dry weight in wild relatives of eggplant [50], amongst others. However, in addition to growth characteristics, physiological, biochemical, and more recently, omics approaches are also considered when screening a larger number of more distant genotypes for drought resistance [51][52][53][54][55][56][57] (amongst many others).…”

Section: Discussionmentioning

confidence: 99%

Use of Multivariate Analysis in Screening for Drought Tolerance in Ornamental Asteraceae Species

Mircea

Calone²,

Shakya

et al. 2023

Agronomy

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Asteraceae is one of the families with a large number of ornamental plants. Climate change imposes the need to select species that are more tolerant to changing environmental conditions, especially drought. In this study, we compared the performance under water stress of six species belonging to different tribes of Asteraceae with different geographical origins. Young plants obtained after seed germination were subjected to intermediate water stress (irrigation with half the water amount used in control treatments) and severe water stress (no irrigation at all) for one month. Growth variables and biochemical stress markers were determined to assess the effects on the plants of the stress treatments. Multivariate analysis tools were used to rank species according to their tolerance. Three species were relatively more susceptible to water stress, Callistephus chinensis, Xerochrysum bracteatum, and Calendula officinalis, whereas Leucanthemum vulgare, Glebionis carinata, and Ageratum houstonianum were more tolerant. Our study indicated that the last two species, which are registered as invasive in some geographic areas, possess a larger phenotypic plasticity. Principal component analysis (PCA) combined with canonical variation analysis (CVA) proved optimal statistical methods for analysing species of diverse origins and belonging to different genera of a large family, such as the Asteraceae.

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Transgressive Biochemical Response to Water Stress in Interspecific Eggplant Hybrids

Cited by 4 publications

References 93 publications

Responses of interspecific hybrid eggplant f4 inbred lines to drought and heat stress

Responses of interspecific hybrid eggplant f4 inbred lines to drought and heat stress

Growth and antioxidant responses to water stress in eggplant MAGIC population parents, F1 hybrids and a subset of recombinant inbred lines

Use of Multivariate Analysis in Screening for Drought Tolerance in Ornamental Asteraceae Species

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