Your search keyword '"Eustoma grandiflorum"' showing total 195 results

1. Base temperature estimates for lisianthus cultivars grown in different planting seasons

Author

Daniela Höhn, Roberta Marins Nogueira Peil, Priscila Monalisa Marchi, Paulo Roberto Grolli, Roberto Trentin, and Willian Silveira Shaun

Subjects

Eustoma grandiflorum, degree-day, development ratio, phenology, thermal sum, Agriculture (General), S1-972

Abstract

Abstract The objective of this work was to determine the base temperature of six lisianthus cultivars, grown at seven planting seasons in the municipality of Capão do Leão, in the state of Rio Grande do Sul, Brazil. The following cultivars were evaluated: DBL Echo Blue, Robella 2 Pink, Excalibur White, Excalibur 2 Blue Picotee, DBL Echo Champagne, and Arena III Red. Base temperature was determined from the air temperature data collected daily, in each planting season, fusing the lowest variability and development ratio methods. The base temperature for lisianthus cultivars is between 14.0 and 15.0ºC, by the lowest variability method, and between 13.9 and 15.0ºC by the development ratio method. The highest thermal accumulation was obseerved in the second planting season (from 11/23/2017 to 02/22/2018) for all cultivars, and lower air temperatures during the growing season resulted in longer production cycles. In the seven planting seasons, the highest base temperature is 15.0ºC, obtained for cultivar Arena III Red, and the is 14°C, for all lisianthus cultivars.

Published

2023

2. Lisianthus (Eustoma grandiflorum (Raf.) Shinn.)’ta In Vitro Çoğaltım Yönteminin Optimizasyonuna Yönelik Olarak Besin Ortamı Etkileşiminin İncelenmesi.

Author

GÖKÇE, Gizem and AKTAŞ, Hakan

Abstract

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Published

2023

3. Chromosome-scale genome assembly of Eustoma grandiflorum, the first complete genome sequence in the genus Eustoma.

Author

Kenta Shirasawa, Ryohei Arimoto, Hideki Hirakawa, Motoyuki Ishimori, Andrea Ghelfi, Masami Miyasaka, Makoto Endo, Saneyuki Kawabata, and Isobe, Sachiko N.

Subjects

*WHOLE genome sequencing, *GENETIC variation, *HERBACEOUS plants, *ANNUALS (Plants), *POLYPLOIDY, *NATIVE plants, *GENOMES, *SHOTGUN sequencing

Abstract

Eustoma grandiflorum (Raf.) Shinn. is an annual herbaceous plant native to the southern United States, Mexico, and the Greater Antilles. It has a large flower with a variety of colors and is an important flower crop. In this study, we established a chromosome-scale de novo assembly of E. grandiflorum genome sequences by integrating four genomic and genetic approaches: (1) Pacific Biosciences (PacBio) Sequel deep sequencing, (2) error correction of the assembly by Illumina short reads, (3) scaffolding by chromatin conformation capture sequencing (Hi-C), and (4) genetic linkage maps derived from an F2 mapping population. Thirty-six pseudomolecules and 64 unplaced scaffolds were created, with a total length of 1,324.8 Mb. A total of 36,619 genes were predicted on the genome as high-confidence genes. A comparison of genome structure between E. grandiflorum and C. canephora or O. pumila suggested whole-genome duplication after the divergence between the families Gentianaceae and Rubiaceae. Phylogenetic analysis with single-copy genes suggested that the divergence time between Gentianaceae and Rubiaceae was 74.94 MYA. Genetic diversity analysis was performed for nine commercial E. grandiflorum varieties bred in Japan, from which 254,205 variants were identified. This first report on the construction of a reference genome sequence in the genus Eustoma is expected to contribute to genetic and genomic studies in this genus and in the family Gentianaceae. [ABSTRACT FROM AUTHOR]

Published

2023

4. Applications of Xerophytophysiology and Signal Transduction in Plant Production—Flower Qualities in Eustoma grandiflorum Were Improved by Sub-Irrigation.

Author

Xu, Hui-Lian, Bai, Jianfang, Kawabata, Saneyuki, and Chang, Tingting

Abstract

Relatively mild xerophytic or hardening treatments can induce healthy development of plants. In the present study, as one of xerophytophysiological applications, sub-irrigation was applied to a flower plant of Eustoma grandiflorum to confirm whether the sub-irrigation improved flowering quality in addition to plant growth and physiology. As shown by the results, long-term sub-irrigation induced osmotic adjustment, with osmolyte concentration increasing 32.8 osmol m−3 (p ≤ 0.01), improved leaf photosynthetic activities, with more than 10% (p ≤ 0.05) increase in photosynthetic capacity, and promoted plant growth, with a shoot biomass increase by 27.5% (p ≤ 0.01) and a root increase by 50.5% (p ≤ 0.01). These improvements were attributed to turgor maintenance and cell water re-compartmentation into the symplasm, which were both the consequence of osmotic adjustment. The lower osmotic potential and lower relative leaf water potential at incipient plasmolysis suggested that plants in sub-irrigation plots might be more resistant to environmental stresses. Sub-irrigation also improved flower quality shown by increased anthocyanin concentration (16% up, p ≤ 0.01). Flower quality improvement might be attributed to up-regulation of the PAL gene, which could catalyze the synthesis of anthocyanins. PAL gene up-regulation might be associated with a concentration increase in salicylic acid (SA), which was suggested as a plant hormone for signaling. Sub-irrigation also affected the flower opening and closing oscillations with less changed opening size or oscillation amplitude. We adopted mathematical models and thoroughly analyzed dynamic changes in photosynthesis, plant growth, and flower opening oscillations. In conclusion, sub-irrigation was a feasible practice and could be used in E. grandiflorum culture to improve plant growth and flower opening quality. [ABSTRACT FROM AUTHOR]

Published

2023

5. Specific responses in soil metabolite alteration and fungal community decline to the long-term monocropping of lisianthus.

Author

Zhang, Peihua, Sun, Yuanfan, Zhou, Jie, Li, Jinze, Yu, Rongpei, Ruan, Jiwei, Yang, Chunmei, Jin, Chunlian, Li, Fan, and Wang, Jihua

Subjects

*SOIL salinity, *PLANT-microbe relationships, *SOIL dynamics, *SOIL degradation, *SOIL enzymology

Abstract

• Continuous cropping of lisianthus led to soil salinity and soil function loss. • Fungal community experienced significantly decline in biomass and diversity. • No apparent accumulation of pathogens with continuous cropping. • Loss of prebiotics and accumulation of autotoxicants with continuous cropping. • Soil metabolites alteration is the main driver in the development of soil sickness. Continuous cropping obstacle (CCO) is becoming a serious threat to the quality production of lisianthus (Eustoma grandiflorum). However, investigations of the causal mechanism of CCO in lisianthus are still lacking. To this end, soil biotic dynamics and metabolites alterations were illuminated using metagenomic sequencing and metabolomic profiling along a chronosequence that has cultivated lisianthus from 2 weeks to 6 years. Soil EC and nutrient contents increased significantly as the cultivation duration prolonged. Fungal community has undergone significant decline in their diversity and biomass. Nevertheless, no apparent accumulation of pathogenicity-related microbes was observed along the investigated chronosequence. The alterations of soil metabolites along the chronosequence reflect the decline of microbial activity, the accumulation of phytotoxic compounds and the loss of metabolite involved in beneficial plant-microbe interactions. As a result, lisianthus plants in the longer continuous cropping soil experienced stressful condition as evidenced by the increasing trend of stress responsive metabolites and the overall soil function deterioration as indicated by soil enzymes. Hierarchical partitioning analysis showed that the investigated factors can explain a total of 92.25 % of the variations in the soil function degradation. Of which, soil metabolite alteration was the most important factor in explaining the CCO development, covering 24.55 % of the explainable variations. Spearman's correlation results further implied that soil metabolite alteration is the main driver in the development of CCO in lisianthus, especially by mediating the plant-microbes interactions. Our findings revealed a general pattern of soil biotic and abiotic response to the continuous monocropping of lisianthus and suggest that the overcome of the CCO in lisianthus requires further studies focusing on the crucial metabolites and their interactions with microbes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Postharvest conservation of lisianthus inflorescences with bioregulators.

Author

Calaboni, Cristiane, Alfredo Kluge, Ricardo, Preczenhak, Ana Paula, and Mattiuz, Claudia Fabrino Machado

Subjects

CUT flowers, ABSCISIC acid, GIBBERELLIC acid, DEIONIZATION of water, ANTHOCYANINS, INFLORESCENCES

Abstract

Cut flowers are known for their beauty and variety of colors and shapes. However, they quickly lose their commercial value after harvest due to the intensity of physiological processes that result in senescence. This work aimed to evaluate the effects of bioregulators on the postharvest longevity of lisianthus flowers (Eustoma grandiflorum cv. Flare Deep Rose) by applying a pulsing solution for 24 hours. The treatments consisted of 70 µM of 6-benzylaminopurine (BAP); 5 µM of gibberellic acid (GA3); 10 µM of abscisic acid (ABA); and deionized water as control. Turgidity, floral development, total and reducing sugar contents, respiration rate, colorimetry, anthocyanin contents, phenolic compound contents, and phenylalanine ammonia-lyase (PAL) enzyme activity were evaluated. BAP resulted in higher PAL enzyme activity and greater accumulation of anthocyanins when compared to the other treatments. The treatment GA3 resulted in the highest increase in respiration rate during storage, causing a larger number of inflorescences with wilting and senescence symptoms, reducing postharvest quality. The treatment ABA resulted in greater turgidity and floral opening, delayed senescence, and maintained respiration rate due to the greater total sugar contents on the fourth and 12th days. The application of ABA contributes to the maintenance of inflorescence quality for lisianthus at postharvest, but it reduces anthocyanin contents, providing petals with lighter colors. [ABSTRACT FROM AUTHOR]

Published

2023

7. Amonio y sulfato en el crecimiento, actividad fisiológica y estado nutrimental de las plantas de Lisianthus cv. ABC 1-2 rosado oscuro.

Author

Hernández Pérez, Armando, Valdez Aguilar, Luis Alonso, García Santiago, Juana Cruz, Méndez López, Alonso, González Fuentes, José Antonio, Torres Olivar, Vicente, Alvarado Camarillo, Daniela, Aureoles Rodríguez, Fabiola, and Álvarez Vázquez, Perpetuo

Subjects

*BIOMASS production, *BIOMASS, *PLANT development, *PERLITE, *PLANT drying, *SULFUR

Abstract

Nitrogen (N) and Sulfur (S) are nutrients that have a strong uptake interaction. Therefore, the addition of these nutrients in the right ratio has a positive influence in plant development. This work is aiming to assess the effects of the interaction between NH4+ and SO42- at different concentrations, on the growth, physiology, and macronutrient concentration in Lisianthus (Eustoma grandiflorum (Raf.) Shinn.) cv. Dark Pink ABC 1-2. The trial treatments included three concentrations of NH4+ (0, 2.5 and 5 meq L-1) and two concentrations of SO42- (7 y 10 meq L-1). The different concentrations of SO42- y NH4+ were based on Steiner’s nutrient solution modifications. We used 10-liter black polyethylene containers and perlite substrate with particles size of 0.2-0.5mm in diameter. The results showed that the stem diameter and dry biomass production of roots, stems, flowers, and total biomass were higher with 5 meq L-1 of NH4+ and 7 meq L-1 of SO42-. On the other hand, total leaf dry weight and plant height were higher with 2.5 meq L-1 of NH4+ and 7 meq L-1 of SO42-. The plants showed the same behavior in terms of photosynthesis, transpiration, and stomatal conductance. We obtained the highest concentration of N and P by applying 2.5 meq L-1 of NH4+ with 10 meq L-1 of SO42. Furthermore, Mg, and S concentrations were higher when we supplied 2.5 meq L-1 of NH4+ with the two concentrations of SO42; while K and Ca were higher when we increased the concentration of NH4+ with 7 meq L-1 of SO42-. We obtained the best growth rate, biomass production and nutrient concentration (K and Ca) in Lisianthus plants with 5 meq L-1 of NH4+/ 7 meq L-1 of SO42-; while physiological activity improved with 2.5 meq L-1 of NH4+ / 7 meq L-1 of SO42- ratio. [ABSTRACT FROM AUTHOR]

Published

2022

8. Amonio y sulfato en el crecimiento, actividad fisiológica y estado nutrimental de las plantas de lisianthus cv. ABC 1-2 rosado oscuro

Author

Armando Hernández Pérez, Luis Alonso Valdez Aguilar, Juana Cruz García Santiago, Alonso Méndez López, José Antonio González Fuentes, Vicente Torres Olivar, Daniela Alvarado Camarillo, Fabiola Aureoles Rodríguez, and Perpetuo Álvarez Vázquez

Subjects

Eustoma grandiflorum, toxicidad, nitrógeno, azufre, enzimas antioxidantes, biomasa, Science, Science (General), Q1-390, Social Sciences, Social sciences (General), H1-99

Abstract

El nitrógeno (N) y azufre (S) son nutrimentos que tienen una fuerte interacción en sus vías de asimilación. Por lo tanto, la adición de estos en una adecuada proporción influye positivamente en el desarrollo de las plantas. El objetivo de este trabajo fue evaluar el efecto de la interacción de diferentes concentraciones de NH4+ y SO42- en variables de crecimiento, fisiológicas y de concentración de macronutrimentos en las plantas de lisianthus (Eustoma grandiflorum (Raf.) Shinn.) cv. ABC 1-2 Rosado Oscuro. Los tratamientos evaluados consistieron en tres concentraciones de NH4+ (0, 2.5 y 5 meq L-1) y dos concentraciones de SO42- (7 y 10 meq L-1). Las diferentes concentraciones de SO42- y NH4+ se diseñaron a partir de modificaciones de la solución nutritiva de Steiner. Se utilizaron contenedores de polietileno negro de 10 L y sustrato perlita con partículas de 0.2-0.5 mm de diámetro. Los resultados mostraron que el diámetro de tallo y la producción de biomasa seca en raíz, tallo, flor y total fueron mayores al suministrar 5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Por otro lado, el peso seco de hoja y altura de planta fue mayor al emplear 2.5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Este mismo comportamiento se observó en los parámetros de fotosíntesis, transpiración y conductancia estomática. La mayor concentración de N y P se obtuvo al emplear 2.5 meq L-1 de NH4+ con 10 meq L-1 de SO42-; asimismo, la concentración de Mg y S fue mayor con 2.5 meq L-1 de NH4+ en ambas concentraciones de SO42; mientras que K y Ca fue mayor al incrementar la concentración de NH4+ con 7 meq L-1 de SO42-. El mejor crecimiento, producción de biomasa y concentración de nutrimentos (K y Ca) de las plantas de lisianthus se obtiene con la proporción 5 meq L-1 de NH4+/ 7 meq L-1 de SO42-; mientras que, la actividad fisiológica es favorecida por la proporción 2.5 meq L-1 de NH4+ / 7 meq L-1 de SO42-.

Published

2022

9. Vegetative propagation of Lisianthus genotypes through stem cuttings: a viable alternative to seed propagation

Author

Bhatia, Reeta and Sindhu, S.S.

Published

2019

10. Conservation and Diversity in Gibberellin-Mediated Transcriptional Responses Among Host Plants Forming Distinct Arbuscular Mycorrhizal Morphotypes.

Author

Tominaga, Takaya, Miura, Chihiro, Sumigawa, Yuuka, Hirose, Yukine, Yamaguchi, Katsushi, Shigenobu, Shuji, Mine, Akira, and Kaminaka, Hironori

Subjects

HOST plants, LOTUS japonicus, CARROTS, FUNGAL colonies, GENETIC regulation, LEGUMES, ROOT-tubercles

Abstract

Morphotypes of arbuscular mycorrhizal (AM) symbiosis, Arum , Paris , and Intermediate types, are mainly determined by host plant lineages. It was reported that the phytohormone gibberellin (GA) inhibits the establishment of Arum -type AM symbiosis in legume plants. In contrast, we previously reported that GA promotes the establishment of Paris -type AM symbiosis in Eustoma grandiflorum , while suppressing Arum -type AM symbiosis in a legume model plant, Lotus japonicus. This raises a hitherto unexplored possibility that GA-mediated transcriptional reprogramming during AM symbiosis is different among plant lineages as the AM morphotypes are distinct. Here, our comparative transcriptomics revealed that several symbiosis-related genes were commonly upregulated upon AM fungal colonization in L. japonicus (Arum -type), Daucus carota (Intermediate-type), and E. grandiflorum (Paris -type). Despite of the similarities, the fungal colonization levels and the expression of symbiosis-related genes were suppressed in L. japonicus and D. carota but were promoted in E. grandiflorum in the presence of GA. Moreover, exogenous GA inhibited the expression of genes involved in biosynthetic process of the pre-symbiotic signal component, strigolactone, which resulted in the reduction of its endogenous accumulation in L. japonicus and E. grandiflorum. Additionally, differential regulation of genes involved in sugar metabolism suggested that disaccharides metabolized in AM roots would be different between L. japonicus and D. carota / E. grandiflorum. Therefore, this study uncovered the conserved transcriptional responses during mycorrhization regardless of the distinct AM morphotype. Meanwhile, we also found diverse responses to GA among phylogenetically distant AM host plants. [ABSTRACT FROM AUTHOR]

Published

2021

11. The genome of Eustoma grandiflorum reveals the whole‐genome triplication event contributing to ornamental traits in cultivated lisianthus.

Author

Liang, Yuwei, Li, Fan, Gao, Qiang, Jin, Chunlian, Dong, Liqing, Wang, Qi, Xu, Min, Sun, Fuhui, Bi, Bo, Zhao, Peng, Li, Shenchong, Ruan, Jiwei, Zhou, Xiaofan, Zhang, Liangsheng, and Wang, Jihua

Subjects

*GENOMES, *POLYPLOIDY, *DECORATION & ornament, *ORNAMENTAL plants

Abstract

Keywords: Eustoma grandiflorum; genome assembly; whole-genome triplication event; flower coloration; floral development model EN Eustoma grandiflorum genome assembly whole-genome triplication event flower coloration floral development model 1856 1858 3 09/23/22 20221001 NES 221001 Introduction I Eustoma grandiflorum i (lisianthus) is a Gentianaceae-family ornamental plant. In lisianthus, a total of 120 MADS-box genes were identified, including 27 floral organ identity genes (three A-class genes, nine B-class genes, four C-class genes, one D-class genes and 10 E-class genes; Figures 1d, S26-S28). The genome of Eustoma grandiflorum reveals the whole-genome triplication event contributing to ornamental traits in cultivated lisianthus. [Extracted from the article]

Published

2022

12. Pigments in flower stems of lisianthus under different photoselective shade nets

Author

Julia Martella Almeida, Cristiane Calaboni, and Paulo Hercilio Viegas Rodrigues

Subjects

Eustoma grandiflorum, anthocyanin, floriculture, protected cultivation, Plant culture, SB1-1110

Abstract

The lisianthus culture is demanded to produce cut flowers and pot vases, grown in a greenhouse using advanced techniques. The present study aimed to evaluate the pigments of different lisianthus cultivars in different photoselective shade nets. The cultivars Flare Deep Rose (pink), Echo Blue BL (purple) and Allemande White BI (white) were cultivated under light-diffusing polyethylene film cover and blue and red color photoselective nets with a shading capacity of 30%, in addition to the control treatment, without the use of the net. The results showed higher values of chlorophyll b and total in the red photoselective net, independent of the cultivar. Leaf colorimetry showed the most intense shade of green was from the cultivar Echo Blue BL. On the other hand, the control showed more intensity, with no significant difference in the leaf green intensity on the blue and red shade nets. In the petals, the cultivar Echo Blue BL showed a more intense blue shade in the red net, however low grade of anthocyanin than in the blue one. In the anthocyanin pigment, this cultivar had lower levels in the treatment of the red net. The results indicate that the use of photoselective shade nets in the culture of lisianthus changes the content of the pigments studied, in varying intensity, depending on the cultivar.

Published

2021

13. In vitro laser radiation induces mutation and growth in Eustoma grandiflorum plant

Author

Abou-Dahab M. Abou-Dahab, Tarek A. Mohammed, Amaal A. Heikal, Lobna S. Taha, Ahmed M. M. Gabr, Sami A. Metwally, and Awatef I. R. Ali

Subjects

Laser rays, Eustoma grandiflorum, Tissue culture and anatomy, Science

Abstract

Abstract Background Eustoma grandiflorum is a new floral crop for the international flowers market, moderately cold-tolerant annual or biennial plant. A large number of seedlings can be produced by seed propagation but the quality is not uniform due to variations in the flowering time, plant height, and the number of flowers. Propagation of Eustoma grandiflorum plant by tissue culture technique is relatively low. Inducing mutations is one of the powerful tools for breeding biotechnology. Laser mutagenesis is an easy and new tool. The goal of the present work was to investigate the influence of laser irradiation on in vitro growth, anatomy, flowering, chemicals composition, and gene mutagenesis. Results The most of morphological, floral parameters, total chlorophyll, carotenoids, and anthocyanin pigment contents in the flower recorded increment by most treatments of laser types. The highest survival percentage of acclimatized plants (95%) and highest values of number of branches and branches length (cm) were obtained from treated plantlets by 20 min of green laser, while most of highest floral parameters, anthocyanin pigment contents in flower, and anatomical structural parameters recorded increasing using 20 min of blue laser and 20, 25 min of green and red laser, respectively. Contrary, the lowest values of photosynthetic pigments and carotenoids were obtained from 20 min of green laser. Conclusions The current research concluded that laser irradiation has remarkable effect on plant morphology, flowering, chemical constituents, and gene mutagenesis.

Published

2019

14. Amonio y sulfato en el crecimiento, actividad fisiológica y estado nutrimental de las plantas de lisianthus cv. ABC 1-2 rosado oscuro

Author

Juana Cruz García Santiago, Armando Hernández Pérez, Fabiola Aureoles Rodríguez, José Antonio González Fuentes, Vicente Torres Olivar, Alonso Méndez López, and Perpetuo Álvarez Vázquez

Subjects

Eustoma grandiflorum, toxicidad, nitrógeno, azufre, enzimas antioxidantes, biomasa, Science, Science (General), Q1-390, Social Sciences, Social sciences (General), H1-99

Abstract

El nitrógeno (N) y azufre (S) son nutrimentos que tienen una fuerte interacción en sus vías de asimilación. Por lo tanto, la adición de estos en una adecuada proporción influye positivamente en el desarrollo de las plantas. El objetivo de este trabajo fue evaluar el efecto de la interacción de diferentes concentraciones de NH4+ y SO42- en variables de crecimiento, fisiológicas y de concentración de macronutrimentos en las plantas de lisianthus (Eustoma grandiflorum (Raf.) Shinn.) cv. ABC 1-2 Rosado Oscuro. Los tratamientos evaluados consistieron en tres concentraciones de NH4+ (0, 2.5 y 5 meq L-1) y dos concentraciones de SO42- (7 y 10 meq L-1). Las diferentes concentraciones de SO42- y NH4+ se diseñaron a partir de modificaciones de la solución nutritiva de Steiner. Se utilizaron contenedores de polietileno negro de 10 L y sustrato perlita con partículas de 0.2-0.5 mm de diámetro. Los resultados mostraron que el diámetro de tallo y la producción de biomasa seca en raíz, tallo, flor y total fueron mayores al suministrar 5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Por otro lado, el peso seco de hoja y altura de planta fue mayor al emplear 2.5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Este mismo comportamiento se observó en los parámetros de fotosíntesis, transpiración y conductancia estomática. La mayor concentración de N y P se obtuvo al emplear 2.5 meq L-1 de NH4+ con 10 meq L-1 de SO42-; asimismo, la concentración de Mg y S fue mayor con 2.5 meq L-1 de NH4+ en ambas concentraciones de SO42; mientras que K y Ca fue mayor al incrementar la concentración de NH4+ con 7 meq L-1 de SO42-. El mejor crecimiento, producción de biomasa y concentración de nutrimentos (K y Ca) de las plantas de lisianthus se obtiene con la proporción 5 meq L-1 de NH4+/ 7 meq L-1 de SO42-; mientras que, la actividad fisiológica es favorecida por la proporción 2.5 meq L-1 de NH4+ / 7 meq L-1 de SO42-.

Published

2021

15. ARTÍCULO RETRACTADO Amonio y sulfato en el crecimiento, actividad fisiológica y estado nutrimental de las plantas de lisianthus cv. ABC 1-2 rosado oscuro

Author

Juana Cruz García Santiago, Armando Hernández Pérez, Fabiola Aureoles Rodríguez, José Antonio González Fuentes, Vicente Torres Olivar, Alonso Méndez López, and Perpetuo Álvarez Vázquez

Subjects

Eustoma grandiflorum, Science, Science (General), Q1-390, Social Sciences, Social sciences (General), H1-99

Abstract

El nitrógeno (N) y azufre (S) son nutrimentos que tienen una fuerte interacción en sus vías de asimilación. Por lo tanto, la adición de estos en una adecuada proporción influye positivamente en el desarrollo de las plantas. El objetivo de este trabajo fue evaluar el efecto de la interacción de diferentes concentraciones de NH4+ y SO42- en variables de crecimiento, fisiológicas y de concentración de macronutrimentos en las plantas de lisianthus (Eustoma grandiflorum (Raf.) Shinn.) cv. ABC 1-2 Rosado Oscuro. Los tratamientos evaluados consistieron en tres concentraciones de NH4+ (0, 2.5 y 5 meq L-1) y dos concentraciones de SO42- (7 y 10 meq L-1). Las diferentes concentraciones de SO42- y NH4+ se diseñaron a partir de modificaciones de la solución nutritiva de Steiner. Se utilizaron contenedores de polietileno negro de 10 L y sustrato perlita con partículas de 0.2-0.5 mm de diámetro. Los resultados mostraron que el diámetro de tallo y la producción de biomasa seca en raíz, tallo, flor y total fueron mayores al suministrar 5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Por otro lado, el peso seco de hoja y altura de planta fue mayor al emplear 2.5 meq L-1 de NH4+ con 7 meq L-1 de SO42-. Este mismo comportamiento se observó en los parámetros de fotosíntesis, transpiración y conductancia estomática. La mayor concentración de N y P se obtuvo al emplear 2.5 meq L-1 de NH4+ con 10 meq L-1 de SO42-; asimismo, la concentración de Mg y S fue mayor con 2.5 meq L-1 de NH4+ en ambas concentraciones de SO42; mientras que K y Ca fue mayor al incrementar la concentración de NH4+ con 7 meq L-1 de SO42-. El mejor crecimiento, producción de biomasa y concentración de nutrimentos (K y Ca) de las plantas de lisianthus se obtiene con la proporción 5 meq L-1 de NH4+/ 7 meq L-1 de SO42-; mientras que, la actividad fisiológica es favorecida por la proporción 2.5 meq L-1 de NH4+ / 7 meq L-1 de SO42-.

Published

2021

16. EgMIXTA1, a MYB-Type Transcription Factor, Promotes Cuticular Wax Formation in Eustoma grandiflorum Leaves

Author

Lishan Wang, Wanjie Xue, Xueqi Li, Jingyao Li, Jiayan Wu, Linan Xie, Saneyuki Kawabata, Yuhua Li, and Yang Zhang

Subjects

cuticular wax, lipid biosynthesis, Eustoma grandiflorum, MIXTA genes, transgenic plants, water loss, Plant culture, SB1-1110

Abstract

In the aerial plant organs, cuticular wax forms a hydrophobic layer that can protect cells from dehydration, repel pathogen attacks, and prevent organ fusion during development. The MIXTA gene encodes an MYB-like transcription factor, which is associated with epicuticular wax biosynthesis to increase the wax load on the surface of leaves. In this study, the AmMIXTA-homologous gene EgMIXTA1 was functionally characterized in the Eustoma grandiflorum. EgMIXTA1 was ubiquitously, but highly, expressed in leaves and buds. We identified the Eustoma MIXTA homolog and developed the plants for overexpression. EgMIXTA1-overexpressing plants had more wax crystal deposition on the leaf surface compared to wild-type and considerably more overall cuticular wax. In the leaves of the overexpression line, the cuticular transpiration occurred more slowly than in those of non-transgenic plants. Analysis of gene expression indicated that several genes, such as EgCER3, EgCER6, EgCER10, EgKCS1, EgKCR1, and EgCYP77A6, which are known to be involved in wax biosynthesis, were induced by EgMIXTA1-overexpression lines. Expression of another gene, WAX INDUCER1/SHINE1, encoding a transcription factor that stimulates the production of cutin, was also significantly higher in the overexpressors than in wild-type. However, the expression of a lipid-related gene, EgABCG12, did not change relative to the wild-type. These results suggest that EgMIXTA1 is involved in the biosynthesis of cuticular waxes.

Published

2020

17. Evaluation of Reference Genes for Quantitative PCR in Eustoma grandiflorum under Different Experimental Conditions

Author

Wanjie Xue, Lishan Wang, Xueqi Li, Mingwei Tang, Jingyao Li, Bing Ding, Saneyuki Kawabata, Yuhua Li, and Yang Zhang

Subjects

drought-stress, Eustoma grandiflorum, floral development, salt-stress, reference genes, RT-qPCR, Plant culture, SB1-1110

Abstract

Eustoma grandiflorum, commonly known as prairie gentian or Texas bluebells, is among the most popular agriculturally propagated species of cut flowers. Due to its widespread appeal, there is increasing interest in understanding the molecular genetic factors underlying floral development and resistance to abiotic stresses. We analyzed 18 potential reference genes in different organs, at different floral developmental stages and under drought- and salt-stress treatments, for use in RT-qPCR analysis. A total of four analytical tool packages, including geNorm, NormFinder, BestKeeper, and RefFinder were employed to determine the most appropriate reference genes under each treatment condition. The results demonstrate that different reference genes should be used for normalization under different experimental treatments. EgPP and EgPP2A2 were the most stable internal control genes across different organ types, EgPP and Eg18S were the most stable under salt-stress, EgPP and EgACT1 were the most stable across different floral development stages, and EgEF1A and EgTUA were the most stable reference genes under drought-stress. Additional gene expression analyses of EgMIXTA1, EgTOE1, and EgP5CS1 further confirmed the applicability of these reference genes. The results represent a significant contribution to future studies of reference gene selection for the normalization of gene expression in Eustoma grandiflorum.

Published

2022

18. Influence of seed vernalization on production, growth and development of lisianthus

Author

Maria Yumbla-Orbes, José Geraldo Barbosa, Wagner Campos Otoni, Marcel Santos Montezano, José Antônio Saraiva Grossi, Paulo Roberto Cecon, Eduardo Euclydes de Lima e Borges, and Joice Crescencio Heidemann

Subjects

Eustoma grandiflorum, Vernalização de sementes e flores., Agriculture (General), S1-972

Abstract

Flowering induction and control is a limiting factor when commercially producing cut flowers of lisianthus and seed exposure to low temperatures, a physiological event called vernalization, induces the differentiation of vegetative buds to reproductive buds, contributing to a flowering that is uniform and has quality. The objective of this study was to evaluate the influence of seed vernalization in three cultivars of lisianthus (Excalibur, Echo and Mariachi) for 12, 24, 36 and 48 days at temperatures of 5, 10 and 15°C, in the production and quality of buds, making this technology feasible to large-scale production. During cultivation it was observed that the lower the temperature and higher the vernalization period, the lower the cycle and the greater the number of plants induced to flowering for all three cultivars, and those are important features in the context of flower production in a commercial scale. The seeds subjected to vernalization originated plants that produce flower stems within the standards required by the market, showing that vernalization was efficient to induce flowering without affecting the quality of the buds. To produce lisianthus as a cut flower of quality, it is recommended seed vernalization of Mariachi and Echo cultivars for 24 days at 5°C and Excalibur for 36 days at 5°C.

Published

2018

19. Balance and concentration of nitrogen and potassium affect growth and nutrient status in soilless cultivated lisianthus

Author

Daniela Alvarado-Camarillo, Ana María Castillo-González, Luis A. Valdez-Aguilar, and Juana C. García-Santiago

Subjects

eustoma grandiflorum, hydroponics, ion relations, nutrient ratios, nutrient solutions, Plant culture, SB1-1110

Abstract

Purpose: Nitrogen (N) / potassium (K) nutrient balance has been studied for some ornamental plants, however, available information is limited. Here we investigate the optimum N and K balance and concentration for lisianthus production in soilless medium. Materials and methods: The effect of three N / K balances: 1.43, 2.14 and 4.29, prepared by varying the concentration of N and K, were evaluated in lisianthus grown in soilless medium (volcanic rock). Results: Plants fertigated with a N / K balance of 2.14 exhibited enhanced height and stem dry weight when compared to plants fertigated with a balance of 4.29, and a higher flower buds count and total dry weight than those fertigated with a balance of 1.43 or 4.29. Plants fertigated with a balance of 2.14 exhibited increased dry weight when N was reduced from 15 to 9 meq L−1 and K from 7 to 4.2 meq L−1, suggesting that lisianthus does not require high levels of these nutrients. Although shoot N concentration was not correlated with N concentration in the nutrient solution or balance, increasing N in the shoot was associated with higher P and Mg in the plant tissues. In general, P, Ca, and Mg in plant tissues were unaffected by the external N / K balance, however, the internal P and Mg concentrations were positively correlated with shoot dry weight. Shoot K concentration significantly increased when the N / K balance decreased, which is related to the higher concentrations of external K when the balance decreased. Conclusions: The optimum N / K balance for lisianthus was 2.14. However, there was a concentration effect, as fertigation with solutions containing a N / K balance of 2.14 and an N and K concentration of 9 and 4.2 meq L−1 respectively, resulted in plants with the greatest dry weight.

Published

2018

20. EgMIXTA1, a MYB-Type Transcription Factor, Promotes Cuticular Wax Formation in Eustoma grandiflorum Leaves.

Author

Wang, Lishan, Xue, Wanjie, Li, Xueqi, Li, Jingyao, Wu, Jiayan, Xie, Linan, Kawabata, Saneyuki, Li, Yuhua, and Zhang, Yang

Subjects

TRANSCRIPTION factors, WAXES, GENE expression, BIOSYNTHESIS

Abstract

In the aerial plant organs, cuticular wax forms a hydrophobic layer that can protect cells from dehydration, repel pathogen attacks, and prevent organ fusion during development. The MIXTA gene encodes an MYB-like transcription factor, which is associated with epicuticular wax biosynthesis to increase the wax load on the surface of leaves. In this study, the AmMIXTA -homologous gene EgMIXTA1 was functionally characterized in the Eustoma grandiflorum. EgMIXTA1 was ubiquitously, but highly, expressed in leaves and buds. We identified the Eustoma MIXTA homolog and developed the plants for overexpression. EgMIXTA1-overexpressing plants had more wax crystal deposition on the leaf surface compared to wild-type and considerably more overall cuticular wax. In the leaves of the overexpression line, the cuticular transpiration occurred more slowly than in those of non-transgenic plants. Analysis of gene expression indicated that several genes, such as EgCER3 , EgCER6 , EgCER10 , EgKCS1 , EgKCR1 , and EgCYP77A6 , which are known to be involved in wax biosynthesis, were induced by EgMIXTA1-overexpression lines. Expression of another gene, WAX INDUCER1/SHINE1 , encoding a transcription factor that stimulates the production of cutin, was also significantly higher in the overexpressors than in wild-type. However, the expression of a lipid-related gene, EgABCG12 , did not change relative to the wild-type. These results suggest that EgMIXTA1 is involved in the biosynthesis of cuticular waxes. [ABSTRACT FROM AUTHOR]

Published

2020

21. 黄胸蓟马对不同花卉挥发物的行为反应初探.

Author

曹　宇, 孟永禄, 杨　红, 李　军, 张国洲, 王亚维, and 李　灿

Subjects

HOST plants, MASS spectrometry, LILIES, CHRYSANTHEMUMS, RHODODENDRONS, FLOWERING of plants, FLOWERS

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

22. Genetic mechanisms of petal morphogenesis in Eustoma grandiflorum.

Author

Liang, Yuwei, Zhao, Peng, Liu, Bin, Sun, Dan, Ruan, Jiwei, Jin, Chunlian, Fang, Huiyi, Wang, Qi, Sun, Fuhui, Bi, Bo, Zhang, Liangsheng, and Li, Fan

Subjects

*REGULATOR genes, *ORNAMENTAL plants, *GENETIC models, *POLYMERASE chain reaction, *CELL division

Abstract

• The two E. grandiflorum (lisianthus) cultivars exhibiting distinct petal patterns were used to conduct a comparative morphological, anatomical, and transcriptional analysis. • Our study is the first to probe into the genetic mechanisms of petal morphogenesis and construct the petal morphogenesis model in lisianthus. • We identified two potential regulatory genes of petal morphogenesis, including YABBY3 and LFY. • Our findings will contribute to the molecular breeding of lisianthus in the future. Eustoma grandiflorum , also known as lisianthus, is a popular ornamental plant belonging to the Gentianaceae family. Due to its diverse petal shapes, it is an excellent model for studying the genetic mechanisms of petal morphogenesis. In this study, we conducted a comparative morphological, anatomical, and transcriptional analysis of two cultivated varieties of lisianthus, 'Wavy White' with wavy petals and 'Rosita White' with flat petals. Cytological observations showed that the cells of both the epidermis (Ep) and parenchymatous tissue (Pt) at the bud stage, as well as the cell numbers of Ep at the mature stage existed difference between petals in 'Rosita White' and 'Wavy White'. We found that genes involved in cell division, cell expansion, and microtubule-based processes, including genes in the CYCLIN D3 (CYCD3) family, EXPANSIN (EXP) family, and Tubulin / FtsZ family, were highly over-represented during the bud stage in 'Wavy White'. At the bud stage, several specific genes, including EXP1, YABBY3 (YAB3), GROWTH-REGULATING FACTOR 1 (GRF1), LEAFY (LFY), LOB DOMAIN-CONTAINING PROTEIN 40 (LBD40), and PROTODERMAL FACTOR 2 (PDF2) were found to be highly expressed in the petals of 'Wavy White'. Quantitative real-time polymerase chain reaction (qRT-PCR) analysis further confirmed significantly higher expression levels of LFY, PDF2, GRF1 , and YAB3 in 'Wavy White' than those in 'Rosita White' at the bud stage. And we found that YAB3 was more highly expressed in petals in lisianthus cultivars with wavy petals than those in 'Rosita White'; LFY was more highly expressed in petals in lisianthus cultivars with wavy petals except 'Wavy Purple' than those in 'Rosita White'. Overall, our findings shed light on the genetic mechanisms of petal morphogenesis in lisianthus. [ABSTRACT FROM AUTHOR]

Published

2024

23. Relevance of tipburn incidence to the competence for Ca acquirement and Ca distributivity in lisianthus [Eustoma grandiflorum (Raf.) Shinn.] cultivars.

Author

Kuronuma, Takanori, Watanabe, Yua, Ando, Masaya, and Watanabe, Hitoshi

Subjects

*LISIANTHUS, *CULTIVARS, *PLANT growth, *PLANT nutrients, *MORPHOLOGY

Abstract

Highlights • Occurrence of tipburn in 14 lisianthus cultivars were investigated. • Tipburn was caused mainly by low ability to distribute Ca to tips in upper leaves. • Growth analysis with Ca contents enabled to quantify Ca acquirement competence. Abstract Tipburn is a severe problem that can occur during the propagation of several lisianthus [ Eustoma grandiflorum (Raf.) Shinn.] cultivars. However, its incidence has not yet been established. Moreover, few studies have addressed the association between calcium (Ca) acquirement competence and the occurrence tipburn. The present study compared tipburn incidence and severity, plant growth rate, Ca acquirement competence (RGR Ca), and Ca distributivity in 14 lisianthus cultivars. The influence of these traits on the occurrence of tipburn has also been discussed. To quantify Ca acquirement competence for each cultivar, plant growth and Ca content were analyzed together. It was determined that there were significant differences among lisianthus cultivars in terms of tipburn severity and incidence. However, these differences were not significantly correlated with either plant growth rate or Ca acquirement competence. In contrast, the parameters related to Ca distributivity to the upper leaf tips were significantly correlated with tipburn severity and incidence. Therefore, it became clear that the occurrence of tipburn in lisianthus cultivars is caused mainly by the inability of the plant to translocate adequate amounts of Ca to the tips of the upper leaves. Ca acquirement competence (RGR Ca) were not significantly associated with tipburn severity and incidence in lisianthus cultivars. Nevertheless, growth analysis based on plant Ca content quantified Ca acquirement competence (RGR Ca) and established the relevance of physiological (SAR Ca) and morphological traits (RMR and l Ca −1) and RGR Ca. This analytical method is a new approach towards understanding the nutrient economy of a plant at risk of deficiency. [ABSTRACT FROM AUTHOR]

Published

2019

24. Applications of Xerophytophysiology and Signal Transduction in Plant Production—Flower Qualities in Eustoma grandiflorum Were Improved by Sub-Irrigation

Author

Hui-Lian Xu, Jianfang Bai, Saneyuki Kawabata, and Tingting Chang

Subjects

circadian clock, Eustoma grandiflorum, flower opening, mathematical model, oscillation, osmotic adjustment, PAL (phenylalanine ammonia-lyase), salicylic acid, turgor potential, xerophytophysiology, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Relatively mild xerophytic or hardening treatments can induce healthy development of plants. In the present study, as one of xerophytophysiological applications, sub-irrigation was applied to a flower plant of Eustoma grandiflorum to confirm whether the sub-irrigation improved flowering quality in addition to plant growth and physiology. As shown by the results, long-term sub-irrigation induced osmotic adjustment, with osmolyte concentration increasing 32.8 osmol m−3 (p ≤ 0.01), improved leaf photosynthetic activities, with more than 10% (p ≤ 0.05) increase in photosynthetic capacity, and promoted plant growth, with a shoot biomass increase by 27.5% (p ≤ 0.01) and a root increase by 50.5% (p ≤ 0.01). These improvements were attributed to turgor maintenance and cell water re-compartmentation into the symplasm, which were both the consequence of osmotic adjustment. The lower osmotic potential and lower relative leaf water potential at incipient plasmolysis suggested that plants in sub-irrigation plots might be more resistant to environmental stresses. Sub-irrigation also improved flower quality shown by increased anthocyanin concentration (16% up, p ≤ 0.01). Flower quality improvement might be attributed to up-regulation of the PAL gene, which could catalyze the synthesis of anthocyanins. PAL gene up-regulation might be associated with a concentration increase in salicylic acid (SA), which was suggested as a plant hormone for signaling. Sub-irrigation also affected the flower opening and closing oscillations with less changed opening size or oscillation amplitude. We adopted mathematical models and thoroughly analyzed dynamic changes in photosynthesis, plant growth, and flower opening oscillations. In conclusion, sub-irrigation was a feasible practice and could be used in E. grandiflorum culture to improve plant growth and flower opening quality.

Published

2023

25. Excessive Calcium Accumulation in the Roots Is a Key Factor in Tipburn Incidence under High Ca Supply in Lisianthus (Eustoma grandiflorum) Cultivars

Author

Takanori Kuronuma, Masanori Saotome, Masaya Ando, and Hitoshi Watanabe

Subjects

Eustoma grandiflorum, Ca acquisition, Ca distribution, K concentration, antagonism, Agriculture

Abstract

In lisianthus cultivars, the occurrence of tipburn is known to adversely affect quality and yield. However, information concerning the responses of tipburn incidence to different levels of Ca is limited. In addition, only a few studies have investigated the effect of potassium (K) concentration on Ca acquisition and distribution in lisianthus. To address this knowledge gap, we investigated tipburn incidence in three lisianthus cultivars (Umi honoka (UH), Reina white (RW), and Voyage peach (VP)) and the Ca and K concentrations in them under different concentrations of Ca supply (40, 80, and 120 ppm). These cultivars exhibited different responses to different concentrations of Ca supply. Tipburn was not observed in UH. In RW, tipburn incidence and severity significantly decreased with an increase in nutritional Ca concentration, because the Ca concentration in the tips of the top leaves significantly increased with Ca concentration. By contrast, in VP, tipburn incidence under all treatments was 100%, and there was no significant difference in the Ca concentration in the tips of the top leaves among the treatments, but the total Ca concentration significantly increased. VP was the only cultivar that significantly acquired and accumulated more Ca in the roots with an increase in nutritional Ca concentration. Overall, excessive Ca accumulation in the roots under high-Ca conditions inhibits the distribution of Ca to the tips of the top leaves and eventually manifests as tipburn in the cultivar. In addition, our results suggested that the content ratio of K in the nutrient solutions did not prevent Ca acquisition and distribution in lisianthus cultivars and that the K concentration has a negligible effect on the occurrence of tipburn.

Published

2020

26. Tipburn Incidence and Ca Acquisition and Distribution in Lisianthus (Eustoma grandiflorum (Raf.) Shinn.) Cultivars under Different Ca Concentrations in Nutrient Solution

Author

Takanori Kuronuma, Masaya Ando, and Hitoshi Watanabe

Subjects

ca deficiency, eustoma grandiflorum, growth analysis, path analysis, Agriculture

Abstract

Tipburn (calcium (Ca) deficiency disorder) is a major problem in the production of lisianthus cultivars. However, few studies have investigated the influence of different Ca concentrations in nutrient solution on tipburn incidence and Ca acquisition and distribution. Thus, it remains unclear why some cultivars exhibit tipburn under high Ca concentrations. To address this, we used three lisianthus cultivars ‘Azuma-no-Kaori’ (AK), ‘Celeb Wine’ (CW), and ‘Voyage Yellow’ (VY) and compared tipburn incidence and Ca acquisition and distribution under different Ca concentrations in a nutrient solution (low (40 ppm), moderate (80 ppm), and high (120 ppm) Ca). Tipburn severity and incidence in AK and VY significantly decreased with increasing nutritional Ca concentrations; the Ca concentrations in each organ and Ca acquisition competence (RGRCa) increased at higher nutritional Ca concentrations. In contrast, tipburn incidence in CW was 100% for all treatments. In CW, Ca acquisition competence and Ca concentrations in most organs increased with increasing nutritional Ca concentrations, but the Ca concentrations in the tips of the upper leaves did not differ significantly between treatments. Thus, our results suggest that the cause of tipburn under sufficient Ca conditions is an inability of the plant to distribute Ca to the tips of its upper leaves.

Published

2020

27. Influência da vernalização de semente na produção, crescimento e desenvolvimento de plantas de lisianthus

Author

Maria Yumbla-Orbes, José Geraldo Barbosa, Wagner Campos Otoni, Marcel Santos Montezano, José Antônio Saraiva Grossi, Paulo Roberto Cecon, Eduardo Euclydes de Lima e Borges, and Joice Crescencio Heidemann

Subjects

Eustoma grandiflorum, Vernalização de sementes e flores., Agriculture (General), S1-972

Abstract

A indução e controle do florescimento é fator limitante na produção comercial de flores de corte em lisianthus e ocorre pela exposição das sementes a baixas temperaturas, evento fisiológico denominado vernalização, o qual induz a diferenciação das gemas vegetativas em reprodutivas, contribuindo para uma floração uniforme e de qualidade. Assim, o objetivo deste estudo foi avaliar a influência da vernalização de sementes de três variedades de lisianthus (Excalibur, Echo e Mariachi), por 12, 24, 36 e 48 dias, a temperaturas 5, 10 e 15 ° C, na produção e qualidade das hastes florais e disponibilizar esta tecnologia ao sistema produtivo. Ao longo do cultivo observou-se que quanto menor a temperatura e maior o período de vernalização, menor foi o ciclo e maior foi o número de plantas induzidas ao florescimento, para as três cultivares, características importantes no contexto da produção de flores em escala comercial. As sementes submetidas à vernalização originaram plantas que produziram hastes florais dentro dos padrões exigidos pelo mercado, mostrando que a vernalização foi eficiente no sentido de indução das plantas ao florescimento sem afetar a qualidade das hastes florais. Para o cultivo de plantas de lisianthus como flor de corte de qualidade recomenda-se vernalizar as sementes das cultivares Mariachi e Echo por 24 dias a 5 °C e da Excalibur por 36 dias a 5 °C.

Published

2018

28. Carbohydrate reserves on postharvest of lisianthus cut flowers

Author

Raquel Cavasini, Denise Laschi, Armando Reis Tavares, and Giuseppina Pace Pereira Lima

Subjects

Eustoma grandiflorum, ethylene inibhitors, sugar, salicilic acid., Plant culture, SB1-1110

Abstract

Floriculture industry demands for products with high quality and durability; however, there is a lack of studies related to the postharvest physiology of cut flowers. We aimed to study phenolic contents of lisianthus (Eustoma grandiflorum) stems treated with ethylene inhibitors (1-Methylcyclopropene - 1-MCP and Salicylic Acid - SA) and different storage temperatures (room at 24 ± 2 °C and pre-exposure to the cold chamber at 9 ± 2 °C for 24 hours) during the post-harvest. Total soluble carbohydrate contents decreased during the experimentation, characterizing the consumption of the reserves during lisianthus post-harvest. The 1-MCP treatment slowed the decrease of total soluble carbohydrate contents. SA treatment had the lowest total soluble carbohydrate contents in both storage temperatures

Published

2018

29. Complete plastome sequence of Eustoma grandiflorum (Gentianaceae), a popular cut flower

Author

Jingyan Yan, Qian Cao, Zesi Wu, Shaofeng Chen, Jiuli Wang, Dangwei Zhou, and Jiuxiang Xie

Subjects

eustoma grandiflorum, plastome, lisianthus, gentianaceae, Genetics, QH426-470

Abstract

Eustoma grandiflorum (Raf.) Shinners is a popular cut flower due to its beautiful morphological characteristics and extended vase life. Here, the complete plastome sequence of E. grandiflorum was reported based on the Illumina HiSeq Platform. The plastome sequence is 154,230 bp in length with a typical quadripartite structure, containing a pair of inverted repeated (IR) regions (25,755 bp) that are separated by a large single copy (LSC) region of 84,297 bp, and a small single copy (SSC) region of 18,423 bp. A total of 130 functional genes were annotated, including 84 protein-coding genes, 38 tRNA genes, and 8 rRNA genes. The complete plastome sequence of E. grandiflorum will provide a valuable resource for its garden utilization and the phylogenetic studies of Gentianaceae.

Published

2019

30. New production technology for Eustoma grandiflorum developed and demonstrated in the project ‘A Scheme to Revitalize Agriculture and Fisheries in Disaster Areas through Deploying Highly Advanced Technology’

Subjects

Eustoma grandiflorum, year-round production system, トルコギキョウ, 周年生産, NFT hydroponic cultivation, 先端プロ

Abstract

In the Hamadori area of Fukushima Prefecture, which was affected by the earthquake, tsunami, and nuclear disaster, we carried out an advanced technology demonstration project for cut flowers. Being isolated from the external environment, the products are less subject to consumers’ misgivings. We have developed new efficient and labor-saving technologies that enable year-round production of Eustoma (Lisianthus). NFT (nutrient film technique) hydroponic cultivation and its disease control techniques enable rapid and uniform seedling production using a closed seedling-raising device. The use of a photosynthesis model specific to the Eustoma that achieves greenhouse management at the skilled producer level. There is a sophisticated central environmental control system, a ducted pad and fan system that can separately control temperature and humidity, and a coloring accelerator that enables harvesting of cut flowers in the bud state. Combining these techniques has made it possible to cultivate three crops a year with unconstrained sowing times, which is an improvement over the single-yearly crop that was previously grown. We designed and demonstrated a year-round cultivation system that spreads out shipping times by cultivation in multiple greenhouses that haveinstalled this technology. This system is anticipated to be adopted by new players. Specialized technologies are also anticipated to be applied to conventional soil cultivation., 地震と津波，原発災害の影響を受けた福島県浜通り地域において，風評の対象になりにくい切り花の先端技術実証プロジェクトを実施し，トルコギキョウの周年生産を可能とする新たな生産技術を開発した．閉鎖型育苗装置による短期間で均質な苗生産，軽労化と効率生産を可能とするNFT 水耕栽培とその病害対策，省力化と熟練生産者レベルのハウス管理を実現するトルコギキョウの光合成モデルを核とした複合環境制御システム，冷却と加湿の分離が可能なダクト式パッドアンドファン，蕾収穫を可能とする着色ムラ防止剤などである．これらの技術を組み合わせることで，同地域の慣行が年1 作であったものを，作付け開始時期を問わない年3 作の栽培を可能にした．この技術を導入した複数のハウスでの栽培による出荷時期を分散させた周年栽培体系を設計し，実証した．新たな担い手による当技術体系の普及と，個別技術の慣行土耕栽培への適用が期待される．, 6章: 営農再開に向けた施設園芸の復興支援 /総説Chapter6: Support and research trials for reconstruction of horticultural production areas toward the resumption of farming /Review

Published

2021

31. Successful floral‐dipping transformation of post‐anthesis lisianthus (Eustoma grandiflorum) flowers.

Author

Fang, Fang, Oliva, Moran, Ehi‐Eromosele, Sonia, Zaccai, Michele, Arazi, Tzahi, and Oren‐Shamir, Michal

Subjects

*LISIANTHUS, *AUXIN, *AGROBACTERIUM, *PLANT development, *GENE expression

Abstract

Summary: The adaptation of the Agrobacterium‐mediated floral‐dipping technique is limited, to date, to a small number of plants. In this paper, we present the efficient transformation of one of the leading plants in the cut flower industry, lisianthus (Eustoma grandiflorum). This method is approximately 18 months shorter than the known tissue culture‐based transformation. The Excalibur Pink cultivar and two additional breeding lines, X‐1042 and X‐2541, were transformed using three different marker genes (benzyl alcohol acetyltransferase (BEAT) originating from Clarkia breweri, the feedback‐insensitive bacterial gene AroG*, and the empty pART27 vector expressing a kanamycin‐resistance cassette (nptII)). Genomic transformation was successful in all tested cases with transformation efficiency ranked from 0.2 to 2.9%, which is well in the range of results from Arabidopsis studies. Unlike Arabidopsis, in which floral‐dipping transformation was efficient only at a pre‐anthesis stage before ovary sealing, lisianthus flowers were transformed when dipping occurred 4 days pre‐anthesis or 3−5 days post‐anthesis with 1.5 and 3.7% efficiencies, respectively. Post‐anthesis transformation occurred when the flower ovaries were sealed. Flower dipping of Excalibur Pink flowers with fluorescent Agrobacterium containing a GFP marker gene demonstrated Agrobacterium entrance into the sealed flower ovary through the open stigma and style tube. In this study, we demonstrated floral‐dipping transformation of a commercial plant, lisianthus Excalibur Pink, occurring after sealing of the ovaries, probably via the stigma and wide open style tunnel. Significance Statement: Here we present successful Agrobacterium‐mediated genetic transformation of lisianthus via flower‐dipping. A unique finding of this study, is that successful transformation was achieved post‐anthesis, when lisianthus flower ovules are completely sealed, in contrast to the findings in Arabidopsis, suggesting possible entrance of the Agrobacterium through the flower style tube. [ABSTRACT FROM AUTHOR]

Published

2018

32. Distinct impacts of reductive soil disinfestation and chemical soil disinfestation on soil fungal communities and memberships.

Author

Zhao, Jun, Zhou, Xing, Jiang, Anqi, Fan, Juanzi, Lan, Tao, Zhang, Jinbo, and Cai, Zucong

Subjects

*SOIL fungi, *FUNGAL communities, *BIOTIC communities, *FUSARIUM oxysporum, *MORTIERELLA

Abstract

Soil disinfestation is an important agricultural practice to conquer soil-borne diseases and thereby ensure crop productivity. Reductive soil disinfestation (RSD) had been developed as an environmentally friendly alternative to chemical soil disinfestation (CSD). However, the differences between CSD and RSD on soil-borne pathogen suppression and fungal community structure remain poorly understood. In this work, five treatments, i.e., untreated soil (CK), CSD with 0.5 t ha−1 dazomet (DZ), RSD with 10 t ha−1 ethanol (ET), 15 t ha−1 sugarcane bagasse (SB), and 15 t ha−1 bean dregs (BD), were performed to investigate their influences on disinfestation efficiency, fungal abundance, diversity, and community structure via quantitative PCR and high-throughput sequencing. RSD-related treatments, especially the BD treatment, effectively alleviated soil acidification and salinization. The fungal abundance and microbial activity considerably increased in the BD treatment and significantly declined in the DZ treatment as compared to the CK treatment. Moreover, both CSD and RSD-related treatments significantly inhibited the population of Fusarium oxysporum and the relative abundance of genus Fusarium. Fungal community structure was notably altered by CSD and RSD practices. Furthermore, both CSD and RSD harbored a distinct unique microbiome, with the DZ treatment dominated by the genus Mortierella and BD treatment predominated by the genera Zopfiella, Chaetomium, and Penicillium. Taken together, these results indicate that the BD treatment could considerably alleviate the soil deterioration, improve soil microbial activity, and reassemble a non-pathogen unique microbiome that have more disease-suppressive agents and thus might be a promising disinfestation practice to control soil-borne disease in monoculture system. [ABSTRACT FROM AUTHOR]

Published

2018

33. BAJAS CONCENTRACIONES DE LANTANO EN LA SOLUCIÓN NUTRITIVA INCREMENTAN LA VIDA DE LA FLOR EN MACETA DE DOS VARIEDADES DE LISIANTHUS.

Author

Torres-Flores, N. I., Gómez-Merino, F. C., Trejo-Téllez, L. I., Alcántar-González, G., Trejo-Téllez, B. I., Sánchez-García, P., and Bello-Camacho, F.

Abstract

Copyright of Agro Productividad is the property of Colegio de Postgraduados and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

34. BIOLOGÍA, IMPORTANCIA ECONÓMICA Y PRINCIPALES LÍNEAS DE INVESTIGACIÓN EN LISIANTHUS: UNA ESPECIE ORNAMENTAL NATIVA DE MÉXICO.

Author

Fernández-Pavía, Y. L. and Trejo-Téllez, L. I.

Abstract

Copyright of Agro Productividad is the property of Colegio de Postgraduados and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

35. CRECIMIENTO Y PROGRAMA DE FERTILIZACIÓN PARA LISIANTHUS EN BASE A LA ACUMULACIÓN NUTRIMENTAL.

Author

Alvarado-Camarillo, D., Valdez-Aguilar, L. A., and Cadena-Zapata, M.

Abstract

Copyright of Agro Productividad is the property of Colegio de Postgraduados and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

36. ABASTECIMIENTO DE NITRÓGENO EN LISIANTHUS (Eustoma grandiflorum [Raf.] Shinn) CV. ABC2 LAVANDA.

Author

Flores-Pérez, S., Valdez-Aguilar, L. A., Castillo-González, A. M., and Avitia-García, E.

Abstract

Copyright of Agro Productividad is the property of Colegio de Postgraduados and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

37. Root and stem rot on lisianthus (Eustoma grandiflorum) in China caused by Fusarium solani.

Author

Xiao, Rong-Feng, Wang, Jie-Ping, Ruan, Chuan-Qing, Pan, Zhi-Zheng, Zhu, Yu-Jing, and Liu, Bo

Subjects

*LISIANTHUS, *ORNAMENTAL plants, *PLANT diseases, *FUSARIUM solani, *RIBOSOMAL RNA

Abstract

Lisianthus (Eustoma grandiflorum) is an important ornamental plant ranking in the top 10 cut flowers worldwide. During 2016-2017, root and stem rot was a major problem that limited the production of lisianthus in Fujian Province, China. Disease symptoms include yellowing of the leaves and root and stem rot leading to wilting. The aim of this study was to isolate and identify the causal pathogen. Based on symptoms on host plants, morphological characteristics, sequence analysis of the internal transcribed spacer rRNA region (ITS) and the gene encoding translation elongation factor-1α (TEF), and pathogenicity tests, the pathogen was identified as Fusarium solani (Mart.) Sacc. Isolates recovered from inoculated, diseased lisianthus plants had a similar morphology to the fungal isolates used to inoculate the plants, which completed Koch’s postulates. To our knowledge, this is the first report of F. solani causing root and stem rot on lisianthus in China. [ABSTRACT FROM AUTHOR]

Published

2018

38. Flavonol 3-O-glucosyltransferase

Author

Schomburg, Dietmar, editor and Schomburg, Ida, editor

Published

2006

39. Survey of Growth and Cut Flower Quality of Eustoma grandiflorum for Selection of Kagoshima University the F₁ Original Variety ‘Oh-iyo’

Subjects

Eustoma grandiflorum, 新品種育成, トルコギキョウ, 冬季無加温栽培, non-heating culture in winter, breeding new varieties

Abstract

鹿児島大学農学部附属農場学内農事部において， 実習教育の質の向上や鹿児島県の花き農家および花き産業への貢献を目的に， 鹿児島大学オリジナルのトルコギキョウ品種の作出を目標と定めた． 2020年までにOLY の10系統を大学オリジナル品種の候補とした． 2020年には，それらOLY の8 系統の早晩性や花色・花形形質を改良した系を含む新規のシリーズJIE（ 21系統） および交配実習系統（ 9 系統） が作出された． そこで本調査では，大学オリジナル品種につながる有望系統の選抜を行うため， 11月および12月定植作型において， これらの初期生育および生育特性ならびに切り花品質について調査を行った．初期生育および生育特性においては， 高温ロゼット性とチップバーンの発生に着目した． その結果， 調査した全38系統のうち， ロゼット化を示した系統はなかった．チップバーンの発生は， 系統間に発生の程度に差がみられた．切り花品質調査においては， 花色・花形形質の固定系統の選抜， 切り花長の確保， 早晩性について着目した．その結果， 花色・花形形質が固定されていると思われる系統は24系統であり， それらはすべて基準の切り花長90 cm 以上の要件を満たしていた． 前報に引き続き， オリジナル品種育成には， 収穫期の早い系統を選抜の基準の一つとした． 加えて， 生育のバラツキや， 栽培技術のみでは回避できないと推測される重度の生理障害の発生が見られた系統を選抜の除外対象とした． 上記の選抜要件を考慮し， 本調査において， 八重咲のJIE 2 ， JIE 4 ，JIE 5 ， JIE10， JIE16， JIE17， JIE18， JIE20A， JIE23，1805B， 1806B の11系統をオリジナル品種の候補として選抜することとした． トルコギキョウの鹿児島大学オリジナル品種の育成にあたり， その品種群の名称を‘ 奥玉洋’（ 読み：「オーイヨウ」） と命名した（ 登録商標第6490744号）．Since 2018, we have been conducting a survey to select promising F₁ variety from those cultivated by Ornamental Horticulture and Floriculture Laboratory with the goal of producing Kagoshima Universityʼs original brand Eustoma variety. In this survey, we investigated the initial growth and growth characteristics as well as cut flower quality of 30 strains newly created in 2020. As a result, there were 24 strains in which flower color and flower shape traits were considered to be stabilized, and all of them satisfied the requirement of a standard cut flower length of over 90 cm. Furthermore, the strains with variations in growth and occurrence of severe physiological disorders were excluded from the selection, and 11 strains were selected as candidates for the original F1 variety. The Kagoshima University original variety of those Eustoma grandif lorum cut flowers is named as ʻOh-iyoʼ, and trademark registration is now awaiting. In this report, we posted a list of flower color traits, flower diameter and early-lateness criteria, and cultivation characteristics for all 21 strains of ʻOh-iyoʼ selected by 2021, along with their respective photographs.

Published

2022

40. Integrated metabolome and transcriptome analysis of anthocyanin accumulation during the color formation of bicolor flowers in Eustoma grandiflorum.

Author

Fan, Yong, Sun, Liang, Song, Shengli, Sun, Yue, Fan, Xinyue, Li, Yuefei, Li, Ruichun, and Sun, Hongmei

Subjects

*ANTHOCYANINS, *METABOLITES, *FLAVONOIDS, *TRANSCRIPTOMES, *FLOWERS, *MYB gene

Abstract

• 7 anthocyanins related to the bicolor flower formation of E. grandiflorum were identified. • The key structural genes and TFs related to flavonoid biosynthesis were screened. • EgCHS1 showed significantly higher expression in the upper tepals than in the tepal bases. The bicolor flowers of Eustoma grandiflorum have a special phenotype and high ornamental value. However, the coloration mechanism of these flowers has not been reported. We used metabolomics and transcriptomics to analyze the accumulation of secondary metabolites and the expression of differential genes in bicolor petals at different developmental stages, to elucidate the molecular mechanism underlying anthocyanin accumulation in these bicolor flowers of E. grandiflorum. The metabolomics analysis revealed that five kinds of anthocyanins in the upper pigmented petals at different developmental stages, and three kinds of anthocyanins were identified in the comparison between the pink upper tepals and the white bases at stage 3, with pelargonidin 3-glucoside 5-(6-coumaroyl) glucoside showing the most significant difference. The differentially expressed genes (DEGs) related to flavonoid biosynthesis in bicolor flowers were further analyzed by transcriptomics, and 25 structural genes and 5 MYB transcription factors (TFs) were screened, among which EgCHS1 showed significantly higher expression (approximately 21.5 times) in the upper tepals than in the tepal bases. Transcriptomic and metabolomic association analysis showed that the EgFLS2 and EgFLS3 genes were related to the largest quantity differentially accumulated metabolites (DAMs), and ferulate was associated with the largest quantity of DEGs. This study provides a basis for anthocyanin accumulation and coloration mechanism during the development of E. grandiflorum bicolor flowers. The results will be conducive for promoting artificial regulation of flower color and breeding new cultivars of E. grandiflorum. [ABSTRACT FROM AUTHOR]

Published

2023

41. THE EFFECT OF GIBBERELLIC ACID (GA3) ON POST-GERMINATION MORPHOMETRIC PARAMETERS OF LISIANTHUS [Eustoma grandiflorum (Raf.) Shinn.] 'MARIACHI PURE WHITE (F1)' CULTIVAR.

Author

ÖZKAN, Hümeyra and ÖZEN, Fazıl

Subjects

GIBBERELLIC acid, LISIANTHUS, PLANT micropropagation, CULTIVARS, PLANT breeding

Abstract

Copyright of Mugla Journal of Science & Technology is the property of Mugla Journal of Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

42. Pigmentos em hastes florais de lisianthus sob diferentes telas foto seletivas

Author

Paulo Hercilio Viegas Rodrigues, Julia Martella de Almeida, and Cristiane Calaboni

Subjects

Chlorophyll b, Eustoma grandiflorum, floricultura, protected cultivation, antocianina, Plant Science, Cut flowers, Horticulture, Biology, floriculture, Red Color, anthocyanin, SB1-1110, chemistry.chemical_compound, Pigment, Cultivar, cultivo protegido, fungi, food and beverages, Plant culture, eustoma grandiflorum, anthocyanin, floriculture, protected cultivation, chemistry, Anthocyanin, visual_art, visual_art.visual_art_medium, Petal, Shading

Abstract

The lisianthus culture is demanded to produce cut flowers and pot vases, grown in a greenhouse using advanced techniques. The present study aimed to evaluate the pigments of different lisianthus cultivars in different photoselective shade nets. The cultivars Flare Deep Rose (pink), Echo Blue BL (purple) and Allemande White BI (white) were cultivated under light-diffusing polyethylene film cover and blue and red color photoselective nets with a shading capacity of 30%, in addition to the control treatment, without the use of the net. The results showed higher values of chlorophyll b and total in the red photoselective net, independent of the cultivar. Leaf colorimetry showed the most intense shade of green was from the cultivar Echo Blue BL. On the other hand, the control showed more intensity, with no significant difference in the leaf green intensity on the blue and red shade nets. In the petals, the cultivar Echo Blue BL showed a more intense blue shade in the red net, however low grade of anthocyanin than in the blue one. In the anthocyanin pigment, this cultivar had lower levels in the treatment of the red net. The results indicate that the use of photoselective shade nets in the culture of lisianthus changes the content of the pigments studied, in varying intensity, depending on the cultivar. Resumo O cultivo do lisianthus destaca-se na cadeia produtiva da floricultura como uma espécie destinada à produção de flores de corte e em vaso, cultivada em casa de vegetação empregando técnicas avançadas de produção. O objetivo do presente trabalho foi avaliar os pigmentos vegetais de diferentes cultivares de lisianthus sob diferentes telas foto seletivas. As cultivares Flare Deep Rose (rosa), Echo Blue BL (roxa) e Allemande White BI (branca) foram cultivadas com cobertura de filme de polietileno difusor de luz e telas foto seletivas das colorações, azul e vermelha, com capacidade de sombreamento de 30%, além do tratamento controle, sem o uso de tela. Os resultados obtidos demonstraram maiores valores de clorofila b e total em tela foto seletiva vermelha, independentemente do cultivar. Na colorimetria das folhas, a tonalidade de verde mais intensa foi do cultivar Echo Blue BL. Por outro lado, o controle apresentou tonalidade mais intensa, não ocorrendo diferença significativa na intensidade do verde das folhas nas telas azul e vermelha. No telado vermelho, as pétalas da variedade Echo Blue BL apresentaram tonalidade de azul mais intensa, porém menores teores de antocianina. Os resultados indicam que o uso de telas foto seletivas na cultura de lisianthus altera o teor dos pigmentos estudados, em intensidade variável, dependendo do cultivar.

Published

2021

43. Concentração e conteúdo de nutrientes em lisianto, cultivado em hidroponia, em sistema NFT = Concentration and nutrient content in lisianthus grown in a hydroponic NFT system

Author

Fernanda Alice Antonello Londero Backes, José Geraldo Barbosa, Hermínia Emília Prieto Martinez, Rogério Luiz Backes, and Fernando Luiz Finger

Subjects

Eustoma grandiflorum, hidroponia, estado nutricional, hydroponics, nutritional supply, Agriculture (General), S1-972

Abstract

O diagnóstico nutricional é fundamental para determinar as exigências das plantas quanto aos nutrientes, de forma a se proceder a um manejo adequado, de acordo com a espécie. Assim, para determinar as concentrações e conteúdos nutricionais adequados à produção e qualidade de plantas de lisianto em cultivo hidropônico, instalou-se um experimento onde as plantas foram cultivadas em sistema NFT, em diferentes soluções nutritivas. O experimento foi conduzido, segundo delineamento experimental em blocos casualizados, em esquema fatorial 4x3, totalizando 12 tratamentos, com três repetições. Ostratamentos foram compostos de quatro cultivares (Echo Champagne, Mariachi Pure White, Balboa Yellow e Ávila Blue Rim) e três soluções nutritivas (Teste, Steiner modificada e Barbosa). Foram avaliadas as concentrações e os conteúdos dos nutrientes nas folhas e conteúdos na parte aérea das plantas. As plantas cultivadas nas soluções Barbosa eTeste apresentaram resultados satisfatórios quanto às concentrações e aos conteúdos de nutrientes, enquanto a solução Steiner modificada produziu plantas com limitações nutricionais.The nutritional diagnosis is fundamental for determining plantnutrients, in order to correctly manage the nutritional requirements for each species. Thus, in order to determine the ideal nutrient amount and concentration for obtaining the best yield and quality of lisianthus grown hydroponically, an experiment was conducted inwhich the plants were grown under the NFT system in different nutrient solutions. The experiment was conducted according to a random block design arrangement in a 4x3 factorial scheme, totaling 12 treatments with three repetitions. The treatments werecomprised of four cultivars (Echo Champagne, Mariachi Pure White, Balboa Yellow and Ávila Blue Rim) and three nutrient solutions (Test, modified Steiner and Barbosa). In the leaves, nutrient concentration and content were evaluated; in the aerial parts of the plants,only the content was evaluated. The plants grown in Barbosa solution and in the Test solution had satisfactory results regarding nutrient concentration and amounts, while the modified Steiner solution produced plants with limited nutritional qualities.

Published

2008

44. Conservation and Diversity in Gibberellin-Mediated Transcriptional Responses Among Host Plants Forming Distinct Arbuscular Mycorrhizal Morphotypes

Author

Takaya Tominaga, Chihiro Miura, Yuuka Sumigawa, Yukine Hirose, Katsushi Yamaguchi, Shuji Shigenobu, Akira Mine, and Hironori Kaminaka

Subjects

Eustoma grandiflorum, arbuscular mycorrhizal symbiosis, comparative transcriptomics, Lotus japonicus, fungi, arbuscular mycorrhizal morphotypes, Plant culture, Plant Science, Rhizophagus irregularis, gibberellin, SB1-1110, Original Research, Daucus carota

Abstract

Morphotypes of arbuscular mycorrhizal (AM) symbiosis, Arum, Paris, and Intermediate types, are mainly determined by host plant lineages. It was reported that the phytohormone gibberellin (GA) inhibits the establishment of Arum-type AM symbiosis in legume plants. In contrast, we previously reported that GA promotes the establishment of Paris-type AM symbiosis in Eustoma grandiflorum, while suppressing Arum-type AM symbiosis in a legume model plant, Lotus japonicus. This raises a hitherto unexplored possibility that GA-mediated transcriptional reprogramming during AM symbiosis is different among plant lineages as the AM morphotypes are distinct. Here, our comparative transcriptomics revealed that several symbiosis-related genes were commonly upregulated upon AM fungal colonization in L. japonicus (Arum-type), Daucus carota (Intermediate-type), and E. grandiflorum (Paris-type). Despite of the similarities, the fungal colonization levels and the expression of symbiosis-related genes were suppressed in L. japonicus and D. carota but were promoted in E. grandiflorum in the presence of GA. Moreover, exogenous GA inhibited the expression of genes involved in biosynthetic process of the pre-symbiotic signal component, strigolactone, which resulted in the reduction of its endogenous accumulation in L. japonicus and E. grandiflorum. Additionally, differential regulation of genes involved in sugar metabolism suggested that disaccharides metabolized in AM roots would be different between L. japonicus and D. carota/E. grandiflorum. Therefore, this study uncovered the conserved transcriptional responses during mycorrhization regardless of the distinct AM morphotype. Meanwhile, we also found diverse responses to GA among phylogenetically distant AM host plants.

Published

2021

45. Cultivo hidropônico de lisianto para flor de corte em sistema de fluxo laminar de nutrientes Hydroponic growth of lisianthus as cut flower under nutrient film technique

Author

Fernanda Alice Antonello Londero Backes, José Geraldo Barbosa, Paulo Roberto Cecon, José Antonio Saraiva Grossi, Rogério Luiz Backes, and Fernando Luiz Finger

Subjects

Eustoma grandiflorum, floricultura, solução nutritiva, hidroponia, floriculture, nutrient solution, hydroponic, Agriculture (General), S1-972

Abstract

O objetivo deste trabalho foi avaliar as características produtivas e comerciais do cultivo de quatro cultivares de lisianto (Eustoma grandiflorum) em três soluções nutritivas em sistema de fluxo laminar de nutrientes (NFT). Utilizou-se o delineamento em blocos casualizados, em esquema fatorial 4x3, com três repetições. Os tratamentos foram compostos de quatro cultivares (Echo Champagne, Mariachi Pure White, Balboa Yellow e Ávila Blue Rim) e três soluções nutritivas (Teste, Steiner modificada e Barbosa). O sistema NFT é uma alternativa viável para o cultivo de lisianto nas soluções Barbosa e Teste. A cultivar Echo Champagne foi superior quanto ao ciclo, período em produção, altura da haste floral, número de folhas, diâmetro de botão e produção de massa fresca e seca, enquanto a cultivar Mariachi Pure White se destacou quanto ao período em produção. A cultivar Ávila Blue Rim apresentou maior período de produção, número de flores e produção de massa de matéria fresca e seca, enquanto a cultivar Balboa Yellow apresentou maior período em produção e diâmetro de botão.The objective of this work was to evaluate yield and commercial traits of lisianthus (Eustoma grandiflorum) flowers growth in nutrient film technique (NFT). The experimental design was in randomized blocks, in factorial scheme (4x3), with three replicates. The treatments were four cultivars (Echo Champagne, Mariachi Pure White, Balboa Yellow and Ávila Blue Rim) and three nutrient solutions (Test, modified Steiner and Barbosa). The NFT system is a feasible alternative for the growth of lisianthus in Barbosa and Test solutions. The cultivar Echo Champagne was superior for cycle, length of production, height of flower stem, number of leaves, diameter of the bud flower and fresh and dry weight production, while the cultivar Mariachi Pure White was superior for length of production. The cultivar Ávila Blue Rim showed good length of production, number of flowers and fresh and dry matter production, while the cultivar Balboa Yellow had long length of production and bud flower diameter.

Published

2007

46. Transformation in Eustoma grandiflorum (Lisianthus)

Author

Deroles, S. C., Ledger, S. E., Miller, R. M., Davies, K. M., Given, N. K., and Bajaj, Y. P. S., editor

Published

1993

47. Gentiana Species: In Vitro Culture, Regeneration, and Production of Secoiridoid Glucosides

Author

Skrzypczak, L., Wesolowska, M., Skrzypczak, E., and Bajaj, Y. P. S., editor

Published

1993

48. In vitro Plant Propagation and Crop Improvement in Lisianthus (Lisianthus russelianus Hook.).

Author

POP, Rodica, CANTOR, Maria, BUTA, Erzsebet, and CSETE, Iudita

Subjects

PLANT propagation, CROP management, LISIANTHUS

Abstract

Romania assists at the present time to an increase of production crops for ornamental plants and as a consequence an increased demand of planting material. Thus, improvements of the current multiplication methods are sought after. Lisianthus russelianus Hook. (Eustoma grandiflorum Grise.) is a relatively new floral crop to the international market, known for beautiful flowers of various colors and for having a long vase life. This study focused on the development of an efficient protocol for rapid regeneration of this species following known basic and applied aspects of lisianthus biotechnology but exploring new potentials. In the course of experiments conducted, for in vitro multiplication there were used nodal segments (1.5 cm) with axillary buds from three F1 hybrids 'Echo Lavender', 'Flamenco White', 'Mirage Pastel Pink' that were inoculated on MS basal medium supplemented with 0.50 mg 1-1 TDZ, 1.0 mg 1-1 BAP and 0.50 mg 1-1 AIA. The results show that the medium with BAP was most effective for obtaining the highest shoots number compared to medium containing TDZ. For rooting induction, two different concentrations of auxin IBA 0.5 mg 1-1 and 1.5 mg 1-1 were used simultaneously on MS basal medium. The highest roots number occurred when using 1.5 mg 1-1 IBA. Both the number of shoots and rooting regeneration were dependent on the cultivar. The highest shoots number was achieved for 'Mirage Pastel Pink' hybrid (6.91) on the medium containing 1.0 mg 1-1 BAP and 0.50 mg 1-1 IAA. [ABSTRACT FROM AUTHOR]

Published

2016

49. Effects of ammonium and calcium on lisianthus growth.

Author

Hernández-Pérez, Armando, Valdez-Aguilar, Luis, Villegas-Torres, Oscar, Alía-Tejacal, Irán, Trejo-Téllez, Libia, and Sainz-Aispuro, Manuel

Abstract

The objective of the present study was to determine the influence of ammonium (NH ) (0% and 50% of total nitrogen, N) in combination with calcium (Ca) on the growth of lisianthus ( Eustoma grandiflorum) in perlite cultures. Ammonium significantly improved leaf area, stem diameter, flower buds, and chlorophyll content (SPAD index) while increasing levels of Ca resulted in decreased leaf area, and chlorophyll contents. Application of NH increased dry weight (DW) of stems, leaves and flowers with a reduction in root DW. In contrast, increased Ca caused a decrease in DW of all plant parts, except flowers. Decreased photosynthesis in NH -fed plants was associated with a decrease in magnesium (Mg) and potassium (K) uptake, and an increase in phosphorus (P) and sulfur (S) uptake. The potentially deleterious effect of this nutrient imbalance was counteracted by allocating more K and Mg to the shoot and flowers. The ability of lisianthus to shift the allocation of nutrients to sensitive plant parts may explain the tolerance of this species to high NH . Ammonium was associated with decreased peroxidase and catalase activities, suggesting that plants were under oxidative stress. Plants typically respond to high NH nutrition by decreasing the uptake of Ca; however, in our study, increasing Ca and NH resulted in increased Ca uptake, reaching toxic concentrations in shoot tissues. [ABSTRACT FROM AUTHOR]

Published

2016

50. Response of Eustoma Leaf Phenotype and Photosynthetic Performance to LED Light Quality

Author

Md Zohurul Kadir Roni, Md Saiful Islam, and Kazuhiko Shimasaki

Subjects

adaxial and abaxial epidermal layer, Eustoma grandiflorum, leaf gas exchange, leaf thickness, palisade cell, photosynthetic performance, stomatal characters, Plant culture, SB1-1110

Abstract

In a controlled environment, light from light-emitting diodes (LEDs) has been associated with affecting the leaf characteristics of Eustoma. LEDs help plant growth and development, yet little is known about photosynthetic performance and related anatomical features in the early growth stage of Eustoma leaves. In this study, we examined the effects of blue (B), red (R), and white (W) LEDs on the photosynthetic performance of Eustoma leaves, as well as leaf morphology and anatomy including epidermal layer thickness, palisade cells, and stomatal characteristics. Leaves grown under B LEDs were thicker and had a higher chlorophyll content than those grown under the R and W LEDs. Leaves under B LEDs had greater net photosynthetic rates (A), stomatal conductance (gs), and transpiration rates (E), especially at a higher photon flux density (PPFD), that resulted in a decrease in the intercellular CO2 concentration (Ci), than leaves under the W and R LEDs. B LEDs resulted in greater abaxial epidermal layer thickness and palisade cell length and width than the R and W LED treatments. The palisade cells also developed a more cylindrical shape in response to the B LEDs. B LED leaves also showed greater guard cell length, breadth, and area, and stomatal density, than W or R LEDs, which may contribute to increased A, gs and E at higher PPFDs.

Published

2017