Academic literature on the topic 'Flowers and flower culture. Ornamental plants'
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Journal articles on the topic "Flowers and flower culture. Ornamental plants"
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Trajković, Milena, Slađana Jevremović, Milan Dragićević, Ana D. Simonović, Angelina R. Subotić, Snežana Milošević, and Aleksandar Cingel. "Alteration of Flower Color in Viola cornuta cv. “Lutea Splendens” through Metabolic Engineering of Capsanthin/Capsorubin Synthesis." Horticulturae 7, no. 9 (September 17, 2021): 324. http://dx.doi.org/10.3390/horticulturae7090324.
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Flower color is an important characteristic that determines the commercial value of ornamental plants. The development of modern biotechnology methods such as genetic engineering enables the creation of new flower colors that cannot be achieved with classical methods of hybridization or mutational breeding. This is the first report on the successful Agrobacterium-mediated genetic transformation of Viola cornuta L. The hypocotyl explants of cv. “Lutea Splendens” variety with yellow flowers were transformed with A. tumefaciens carrying empty pWBVec10a vector (Llccs−) or pWBVec10a/CaMV 35S::Llccs::TNos vector (Llccs+) for capsanthin/capsorubin synthase gene (Llccs) from tiger lily (Lilium lancifolium). A comparative study of shoot multiplication, rooting ability during culture in vitro, as well as phenotypic characteristics of untransformed (control) and transgenic Llccs− and Llccs+ plants during ex vitro growth and flowering is presented. Successful integration of Llccs transgene allows the synthesis of red pigment capsanthin in petal cells that gives flowers different shades of an orange/reddish color. We demonstrate that the ectopic expression of Llccs gene in ornamental plants, such as V. cornuta “Lutea Splendens” could successfully be used to change flower color from yellow to different shades of orange.
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Tsyhanska, Olena. "CHARACTERISTICS OF DAHLIA CAV. VARIETIES RESEARCHED UNDER CONDITIONS OF THE EXPOSITION AREA OF VINNYTSIA NATIONAL AGRARIAN UNIVERSITY." Agriculture and Forestry, no. 3 (October 30, 2020): 139–46. http://dx.doi.org/10.37128/2707-5826-2020-3-12.
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The results of studies on the use of decorative ornamental plants of flower and ornamental plants Dahlia Cav. in Vinnytsia Region at their level of adaptation to growing conditions have been presented. The assessment of the collection of the genus Dahlia Cav. at the exposition site of the Vinnitsa National Agrarian University, it has been determined that the collection is dominated by varieties of individual garden groups such as cactus, nymphae and decorative. In order to expand and replenish the collection of the genus Dahlia Cav the exhibition area VNAU conducted a selection of varieties that are representative of a set of indicators such as plant height, shape and size of inflorescences among the dahlia assortment. Dahlias are easy to grow and bring life to your garden with their intense color, strength, and ability to keep flowering until the first frosts. Dahlias like well-balanced and composted soil, and full sun. With 42 different species and thousands of cultivars, dahlias offer plenty of variety. Variations in color, flower form, size, and foliage make it easy to find one you'll love. The rich variety of their flower colors shapes and sizes added to their extensive blooming season, have turned dahlias into popular addition to our landscapes. There are thousands of varieties of dahlias and they are all classified by the shape, size and color of their flowers. Flowers can be very small in diameter. They offer an impressive range of colors such as pink, purple, red, scarlet, orange, yellow, white and can be stripped or tipped with another color. They can be single-flowering (orchid-flowering, anemone and collarettes) or double flowering (cactus, semi-cactus, formal or informal decorative dahlias, ball and pompons). Dahlias have wide height range. There are many different ways to use dahlias in the garden. Shorter dahlias mix well with annuals or shorter perennials, while taller varieties will grow well with perennials and ornamental grasses toward the rear or center of borders. Their lower stems tend to be unattractive and the plants are heavy (especially the large flowered dinnerplate types); so without staking, they tend to flop. Plant the smallest varieties in containers. Dahlia flowers are brightly colored. They can also look surprisingly good with grasses, as the contrast is total-big bright flowers against finely textured grasses. Good cutting dahlias tend to be the larger varieties because of their longer stems. Key words: dahlias, collection, garden group, flowering, container culture.
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Shitova, N. I. "Symbolic Expression of the Heavenly Eden Image in the Traditional Culture of the Uimon Old-Believers." Problems of Archaeology, Ethnography, Anthropology of Siberia and Neighboring Territories 27 (2021): 861–68. http://dx.doi.org/10.17746/2658-6193.2021.27.0861-0868.
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The work was carried out in order to identify patterns for the preservation and updating of some images and symbols expressed in the embroidery ornament. The research is based on materials of the Uimon Old-Believers culture, which is represented in the Uimon Valley of the Altai Mountains. We carried out a comprehensive analysis of the author’s field ethnographic materials of different years, unpublished archival folklore records and museum samples. It has been established that using images of Eden-related birds and plants (grapes, roses, and other flowers), folk ideas about Heavenly Eden are expressed in spiritual verses. These ideas correspond to the symbolic meaning of some ornamental patterns in women’s needlework. A composition on a wall towel consisting of grape and flower vine and paradise birds was interpreted as a folk image of Heavenly Eden. The author performs a comparative analysis of images of Heavenly Eden in the culture of the Uimon Old-Believers and materials of the ornament of women’s needlework in Altai Mountains. Based on the materials of women’s needlework in Altai Mountains, the floristic ornament significantly prevailing among all others more often contains motifs with a vine and a rosevine, as well as a flower vine with the images of other flowers. When combining these varieties of ornament into a semantically unified ornamental group “plant vines”, the fact of a significant predominance of this group among other fixed ornamental groups of motifs is obvious. The ideas of the plants as attributes of Heavenly Eden, the semantic correlation of Heavenly Eden and the garden of the earth probably played a special role in the prevalence of images of grapes, roses, and other flowers as well as their stable presence in ornamentation in women’s needlework. Culture bearers could use the motif of the plant vine as an expression of spiritual aspirations, which are also manifested in perception and aesthetic value of the ornament.
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Rêgo, Lunara G. da S., Neyton de O. Miranda, Kaline D. Travassos, Nildo da S. Dias, Rutilene R. da Cunha, Maria E. da Cunha, Francisco C. G. Santana, Poliana M. da C. Bandeira, and Francisco X. de Oliveira Filho. "Production of Flowers of Ornamental Sunflower Irrigated With Wastewater From Fish Culture." Journal of Agricultural Science 11, no. 1 (December 15, 2018): 130. http://dx.doi.org/10.5539/jas.v11n1p130.
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The unregulated use and increased demand in face of the demographic and economic growth of society caused reduction in the availability of water resources in quantity and quality. In this context, this work was carried out to verify the possibility of producing ornamental sunflower (Helianthus annuus L.) fertirrigated with wastewater from fish culture and its mixtures with tap water. Two experiments were conducted in 2017 in a greenhouse at Federal Rural do University of the Semiarid, in Mossoró, RN, Brazil, according to a completely randomized design with 12 replicates. The treatments consisted of dilutions of the fish's wastewater in tap water (0, 25, 50, 75 and 100%). Determinations of plant biomass and flower characteristics were performed. The statistical analysis of the data consisted of analysis of variance by the F test and regression analysis. The biomass of ornamental sunflower showed significant effect of the fish’s effluent dilutions, but, in general, characteristics of flowers were not influenced. The higher values of the variables of the ornamental sunflower evaluated in the first experiment, which received fertilization, indicate that the effluent did not supply the nutritional needs of the plants. The irrigation of the ornamental sunflower can be carried out with effluent from fish farming when there is another source of nutrients for the crop to produce flowers with satisfactory characteristics.
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Mikosvki, Andreia Izabel, Nayara Tayane Silva, Claudinei Santos Souza, Marcelo Dias Machado, Wagner Campos Otoni, Ilio Fealho Carvalho, Diego Ismael Rocha, and Maurecilne Lemes Silva. "Tissue culture and biotechnological techniques applied to passion fruit with ornamental potential: an overview." Ornamental Horticulture 25, no. 2 (July 17, 2019): 189–99. http://dx.doi.org/10.14295/oh.v25i2.2036.
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The ornamental flower sector has growing over the past years worldwide with potential for further expansion. Among the ornamental plants, Passiflora species have been gaining ground in the market, mainly in European and North American countries. However, the market aiming the use of these species in ornamentation is still poorly explored. The inclusion of passion flower in the list of ornamental plants is related to the peculiar characteristics of the flower as it is complex structure, capacity of flowering all year long and also by the abundance and exuberance of the leaves, which in many species adds an ornamental value. Among the biotechnological tools for the production of ornamental plants, tissue culture has been outstanding in the cloning of elite genotypes, with high phytosanitary quality and large scale production. In addition, it offers possibilities of producing new varieties with characteristics peculiar to the market of ornamental plants. The diversity of wild Passiflora opens perspectives to the conservation, market and production of ornamental Passiflora cultivars.
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Rahmati, Razieh, Rasmieh Hamid, Zahra Ghorbanzadeh, Feba Jacob, Pezhman Azadi, Mehrshad Zeinalabedini, Laleh Karimi Farsad, et al. "Comparative Transcriptome Analysis Unveils the Molecular Mechanism Underlying Sepal Colour Changes under Acidic pH Substratum in Hydrangea macrophylla." International Journal of Molecular Sciences 23, no. 23 (December 6, 2022): 15428. http://dx.doi.org/10.3390/ijms232315428.
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The hydrangea (Hydrangea macrophylla (Thunb). Ser.), an ornamental plant, has good marketing potential and is known for its capacity to change the colour of its inflorescence depending on the pH of the cultivation media. The molecular mechanisms causing these changes are still uncertain. In the present study, transcriptome and targeted metabolic profiling were used to identify molecular changes in the RNAome of hydrangea plants cultured at two different pH levels. De novo assembly yielded 186,477 unigenes. Transcriptomic datasets provided a comprehensive and systemic overview of the dynamic networks of the gene expression underlying flower colour formation in hydrangeas. Weighted analyses of gene co-expression network identified candidate genes and hub genes from the modules linked closely to the hyper accumulation of Al3+ during different stages of flower development. F3′5′H, ANS, FLS, CHS, UA3GT, CHI, DFR, and F3H were enhanced significantly in the modules. In addition, MYB, bHLH, PAL6, PAL9, and WD40 were identified as hub genes. Thus, a hypothesis elucidating the colour change in the flowers of Al3+-treated plants was established. This study identified many potential key regulators of flower pigmentation, providing novel insights into the molecular networks in hydrangea flowers.
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DIAS, MÁRCIA MARIA DE SOUZA GONDIM, SILVANDA DE MELO SILVA, ALEX SANDRO BEZERRA DE SOUSA, RENATO LIMA DANTAS, VANESSA CAVALCANTE DE ALMEIDA, and LUCIANA CORDEIRO DO NASCIMENTO. "RESISTANCE ELICITORS ON PRODUCTION AND POST-PRODUCTION PERFORMANCE OF POTTED LISIANTHUS." Revista Caatinga 34, no. 1 (January 2021): 31–38. http://dx.doi.org/10.1590/1983-21252021v34n104rc.
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ABSTRACT Lisianthus is an important ornamental species, whose cultivation in pot still requires studies, mainly regarding the use of alternative management. Thus, the aim of this work was to evaluate the influence of resistance elicitors on the production and post-production quality of potted lisianthus. Plants grown in pots were treated with two elicitors: (E1) phosphorylated mannano-oligosaccharide and (E2) citric bioflavonoids and phytoalexins, in the doses (D) of 1 and 2pL.L-1 (E1D1 1pL.L-1, E1D2 2pL.L-1, E2D1 1pL.L-1, E2D2 2pL.L-1 and control), with 5 replications, in a completely randomized design. After opening the first flower buds, the plants remained in the greenhouse for 15 days, until they reached at least 3 open flowers, when were transferred to the room conditions (24 ± 2 oC and 72 ± 2%) for another 15 days. The application of elicitors did not influence the culture cycle or the size of the stem. There was an increase, however, in the number of viable buds and open flowers, in addition to an increase in flower’s useful life paralleled to the reduction of senescent flowers, in relation to the control. The dose of 2pL.L-1 of the E2 kept the percentage of viable open flowers in relation to the control for at least another 5 days, reducing the percentage of senescent flowers. Together, with the application of the E2 elicitor in potted lisianthus, the viability of the flowers can be prolonged, maintaining quality and delaying senescence, and, in this way, increasing the market period.
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B Machado-Neto, Nelson, Jessica F. Fileti, and Ceci C. Custódio. "Cattleya Aurora’s Little Ian: a novelty mini semper-flowering material and a genetic parameter for superior clone selection." Horticultura Brasileira 40, no. 1 (January 2022): 115–18. http://dx.doi.org/10.1590/s0102-0536-20220115.
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ABSTRACT Orchids are an important horticultural culture. Cattleya and its allies are among the most used ornamental group of this plant family. Cattleya hybrids normally are big pot plants with a determined flowering season (spring, summer, autumn or winter), so a small plant with vivid and multi-flowered spikes coloured and non-determined flowering season is desired. The hybrid Cattleya Aurora’s Little Ian is a new small pink-reddish hybrid flower, producing over four small to medium flowers per bunch. For the first time there is a description of a parameter, petal width, with heritability estimation and efficient to select superior clones derived from plants of the Section Cyrtolaelia in the Cattleya hybrid group. It could be easily grown either at shade house or at windowsill emitting shoots and flowering freely in each new shoot, independent of photo or thermoperiod, as long as it is kept in good growing conditions.
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Mursyanti, Exsyupransia, Aziz Purwantoro, Sukarti Moeljopawiro, and Endang Semiarti. "Micropropagation of Mini Orchid Hybrid Phalaenopsis “Sogo Vivien”." Journal of Tropical Biodiversity and Biotechnology 1, no. 1 (June 1, 2016): 45. http://dx.doi.org/10.22146/jtbb.12933.
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Phalaenopsis “Sogo Vivien” is an orchid hybrid with mini size plant body, and exhibits numerous beautiful pink flowers, that is ideal as ornamental pot plant. Some plants of this orchid exhibit variegated leaves that improve the beauty of the plant, not only because of the flower but also as attracted leaves. This orchid has high economical value, but mass propagation of this orchid has not established yet. An effective method to propagate both the normal and variegated plants is worth to be generated. The objective of this research was to produce a large number of P. “Sogo Vivien” plants, including the variegated plants. The method used seeds from self pollinating variegated plant, and flower stalk nodes. The seeds were sown on three various medium: VW, NP and MS, and flower stalk nodes were planted on VW + BA 10 mg l-1 + active carbon. The results showed that the best medium for in vitro culture of P. “Sogo Vivien” was NP medium, in which all seeds could grew into plantlets. Most plantlets emerged from the seeds were non variegated, only one plantlet out of 1344 seeds was variegated (0.007%). Although all emerged plantlets from flower stalk exhibited variegated leaves. Particularly, the plantlets arised from the second and third basal nodes of flower stalk showed the highest growth rate than that from the other nodes. Histological analysis showed that at 11-13 days after shoot segment plantation on NP medium, the shape of apical cells in the nodes was changed, then followed by the change of cell shape in the basal part of the nodes, produced bipolar pattern, then gradually developed into shoot. These results suggest that mass propagation could be achieved using seed culture, but to get the variegated phenotypes, the second and third nodes of flower stalk from variegated plant were the best explants to be used.
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Corrêa da Silva, Diogo Pedrosa, Elif Aylin Ozudogru, Michele Valquíria Dos Reis, and Maurizio Lambardi. "In vitro conservation of ornamental plants." Ornamental Horticulture 24, no. 1 (March 12, 2018): 28–33. http://dx.doi.org/10.14295/oh.v24i1.1163.
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The market of flowers and ornamental plants is dependent on the diversification of species and the availability of high quality propagation materials. Actually, in vitro culture techniques performance a prominent role in the multiplication and maintenance of commercially propagated ornamental plant species, and are promising for the production of thousands of high quality plants in relatively short term. In addition, when market demand for a particular species is low or zero in a specific period of the year, in vitro culture techniques allow the conservation of cultures under aseptic conditions, by Slow Growth Storage (SGS), from a few weeks to one year (or more), without affecting their viability and potential regrowth. This can be achieved by modifying the constitution of the culture medium and the maintenance conditions of in vitro cultures. Obviously, the success of the technique depends on greatly on the physiological characteristics of the species to be conserved, as well. Once a SGS protocol is optimized, the expenses labor, the possibility of contamination and the probability of somaclonal variation can be reduced markedly.
Dissertations / Theses on the topic "Flowers and flower culture. Ornamental plants"
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Nascimento, Jéssica Garcia. "Malhas coloridas de sombreamento e soluções nutritivas de fertirrigação na cultura da gérbera (Gerbera jamesonii) em ambiente protegido." Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/11/11152/tde-21062018-175123/.
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A floricultura é uma atividade altamente rentável e exerce um papel importante no agronegócio brasileiro, se destacando cada vez mais em relação ao seu faturamento anual. Dentre as flores mais cultivadas e comercializadas, as gérberas (Gerbera jamesonii) são conhecidas pela grande quantidade de cores de suas inflorescências. O objetivo do presente trabalho foi avaliar o desenvolvimento e a produtividade da cultura da gérbera em ambiente protegido associado a malhas vermelha, azul e preta de sombreamentos e fertirrigadas com cinco soluções nutritivas de fertirrigação, elaboradas a partir da diluição (25%, 50%, 75%) e concentração (125%) da solução proposta por Hoagland e Arnon (1950) (solução padrão, 100%), sobre as características que conferem a qualidade da planta para comercialização em vasos. A malha azul associada à fertirrigação com concentração de 25% dos nutrientes da solução padrão proporcionaram maior massa fresca e seca de capítulos florais, hastes e total das gérberas e, ainda, maior massa seca das folhas. Os tratamentos aplicados não ifluenciaram o número de capítulos e de folhas e a classificação segundo os padrões qualidade. O diâmetro do capítulo floral não foi afetado pelos tratamentos de fertirrigação e sombreamento; entretanto, o diâmetro e a altura das hastes das gérberas foram reduzidos com a apliacação da solução mais concentrada (125%). Oíndice de estresse hídrico (CWSI) da cultura foi mais próximo de 1, nas três malhas coloridas, nos horários próximos ao meio do dia e aos 58 DAT foi verificado maior estresse das plantas sombreadas pelas malhas vermelhas. O índice de clorofila total (índice Falker) aos 59 e 99 DAT foi menor na malha vermelha, o que pode indicar maior eficiência das plantas sob esta malha, uma vez que não houve redução da produtividade das gérberas neste ambiente. Os teores de antocianina foram muito semelhantes nas folhas das gérberas cultivadas sob as malhas coloridas, sendo observada uma maior média do pigmento nas gérberas cultivadas sob a malha azul.The flower culture is a highly profitable activity and plays a major role in agribusiness, increasingly standing out in terms of annual sales. One of the most cultivated and marketed flowers, gerbera (Gerbera jamesonii), is known for its abundance of colors of its inflorescences. This work aimed to evaluate development and productivity of gerbera culture in protected environment associated to shading meshes of red, blue and black under fertirrigation with five nutritional solutions elaborated from the dilution ( 25%, 50%, 75%) and concentration (125%) of the solution proposed by Hoagland and Arnon (1950) (standard solution, 100%) on the characteristics that confer quality to the plant for marketing in pots. The blue mesh associated with fertigation of 25% of nutrient concentration of the standard solution provided fresh and dry mass of inflorescence, stems and total of gerbera, as well as greater dry mass of leaves. The treatments applied did not influence the number of inflorescences and leaves, as well as the classification of quality standards. The diameter of inflorescences was not affected by fertigation and shading; however, stem diameter of gerbera was reduced with the application of concentrated solution (125%). The crop water stress index (CWSI) was closer to 1, in the three colored meshes, at times near the middle of the day, and at 58 DAT, greater stress was verified in plants shaded by red meshes. The index of total chlorophyll (Falker index) at 59 and 99 DAT was smaller in red fabric, which may indicate greater efficiency of plants under this mesh, since there was no reduction in the productivity of gerbera in this environment. The contents of anthocyanin were very similar in leaves of gerbera grown under colored meshes, being observed a grater average of the pigment in gerbera grown under the blue fabric.
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Declerck-Leblanc, Véronique. "Micropropagation du rhododendron à l'échelle industrielle : aspects qualitatifs et quantitatifs." Rouen, 1988. http://www.theses.fr/1988ROUES028.
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Aspects scientifiques de la production in vitro en relation avec l'activité "recherche-développement" d'un laboratoire industriel (LBV France). Mise au point d'une technique pour 30 variétés. Détermination d'un milieu de culture optimal pour chacune des phases de développement. Recherche de marqueurs précoces de la conformité et de l'identité variétale. Utilisation de l'électrophorèse, application à 14 systèmes enzymatiques. Proposition d'essai de modélisation appliqués à la planification et à la gestion de la production. Simulation de la généralisation de la cinétique de production sur 200 variétés réparties dans 15 genres différents.
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Goumas, Dimitrios. "Possibilites de detection d'erwinia chrysanthemi pv. Dianthicola (hellmers) dickey 1979-agent de la bacteriose du dahlia sp. Evaluation des methodes immunoenzymatiques pour le controle sanitaire du materiel de propagation." Paris 6, 1987. http://www.theses.fr/1987PA066405.
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La bacteriose a e. Chrysanthemi pv. Dianthicola (echr) facteur limitant de la production du dahlia est transmise par la multiplication vegetative. Afin de proposer une methode de diagnostic plus precise que la detection visuelle, les methodes immunoenzymatiques ont ete etudiees et adaptees pour la detection d'echr dans les tissus du dahlia. La methode das-elisa (double antibody sandwich) est evaluee par rapport aux methodes de diagnostic de reference (isolement et immunofluorescence). Son utilisation, pour l'analyse sanitaire du materiel de propagation vis-a-vis d'echr seul et associe eventuellemnt a la mosaique du dahlia (damy), est etudiee en vue d'une selection sanitaire. Les etudes effectuees pour optimiser les reactifs, pour determiner les parametres pouvant modifier la reaction antigene-anticorps
Books on the topic "Flowers and flower culture. Ornamental plants"
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The beautiful food garden: Creative landscaping with vegetables, herbs, fruits & flowers. Pownal, Vt: Storey Communications, 1987.
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David, Austin. The heritage of the rose. Woodbridge: Antique Collector's Club, 1991.
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Stuart, Thomas Graham, Williams-Ellis Susan, and Antique Collectors' Club, eds. The heritage of the rose. Woodbridge, Suffolk: Antique Collector's Club, 1988.
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David, Austin. The heritage of the rose. Woodbridge, Suffolk: Antique Collector's Club, 1990.
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Eric, La Croix, ed. African orchids in the wild and in cultivation. Portland, Or: Timber Press, 1997.
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Luebbermann, Mimi. Easy orchids: Simple secrets for glorious gardens, indoors and out. San Francisco, CA: Chronicle Books, 1996.
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Bünemann, Otto. Roses: The most beautiful roses for large and small gardens : design ideas for rose arbors, trellises, and beds , rose know-how, planting, culture, pruning, overwintering. Edited by Becker Jürgen. Hauppauge, N.Y: Barron's Educational Series, 1994.
Find full textBook chapters on the topic "Flowers and flower culture. Ornamental plants"
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Kreissig, Katharina. "Yellow Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 1–16. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_1.
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Kreissig, Katharina. "Orange Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 17–30. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_2.
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Kreissig, Katharina. "Red Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 31–56. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_3.
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Kreissig, Katharina. "Pink Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 57–72. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_4.
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Kreissig, Katharina. "Blue Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 73–78. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_5.
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Kreissig, Katharina. "White Flowers." In Identify Common Tropical and Subtropical Ornamental Plants by Flower Colour, 79–89. Berlin, Heidelberg: Springer Berlin Heidelberg, 2019. http://dx.doi.org/10.1007/978-3-662-58817-8_6.
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van Os, Erik, and Arca Kromwijk. "Advances in soilless culture of ornamentals." In Burleigh Dodds Series in Agricultural Science, 401–16. Burleigh Dodds Science Publishing, 2021. http://dx.doi.org/10.19103/as.2020.0076.19.
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In the production of cut flowers and pot plants there are slow developments towards closed growing systems with recirculation of the surplus nutrient solution. In some countries, such as in The Netherlands, legislation to reduce discharges is a steering factor, as well as the advantages of a disease free start, higher potential production and quality. Crops such as rose and gerbera with less than 10 plants per m2 are now grown in completely closed growing systems and are on their way towards zero liquid discharge. Crops such as freesia, amaryllis and chrysanthemum, are still experimenting with soilless culture systems. Phalaenopsis is the most important pot plant grown in The Netherlands and is on the way towards a closed growing system. This chapter discusses the progress made, key challenges and how they are being overcome.
Conference papers on the topic "Flowers and flower culture. Ornamental plants"
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A. Mustaniroh, Siti. "DISSEMINATION OF COLORING TECHNOLOGY WITH NATURAL DYES ON HANDCRAFTED BATIK." In International conference on Innovation and Technology. JOURNAL OF INNOVATION AND APPLIED TECHNOLOGY, 2021. http://dx.doi.org/10.21776/ub.jiat.2021.se.01.004.
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Handcrafted “Batik Sidomulyo” is an agro industrial development as an attempted agroindustrial support in Sidomulyo Flower Resort Village that adopted ornamental plants, flowers and local wisdom themed batik motifs for supporting tourism potentials. In 2020, SMEs “Batik Sidomulyo” have been facilitated with Mini Wastewater Treatment Plant (WWTP) so it could decrease difficulties in coloring and liquid waste disposal. These MSMEs have limited technology in the natural coloring production process and coloring. Use of natural coloring is beneficial in color innovation and creation of batik’s quality. The objective of this study is for determining the effectiveness of efficacy in the dissemination of natural coloring production technology and coloring process with natural substance on batik. The implementation method through technical counseling and dissemination about natural coloring production technology that utilises local wisdom such as “secang” and “tingi” wood (red color), jackfruit wood and “jelawe” (yellow color) and nila/indigo leaf (blue color). Using natural coloring proved to be effective in increasing the competitiveness of handcrafted market. Implementation of activities involves practitioners from SMEs handcrafted from Trenggalek that organised training as well as mentoring on natural coloring producing process and coloring process until batik finishing process for 5 days. The efficiency level of technology dissemination are the knowledge and skills improvement of handcrafted batik so could produce natural coloring independently as well as to improve the quality of the handcrafted that have the competitiveness as one of the travel souvenirs.
Reports on the topic "Flowers and flower culture. Ornamental plants"
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Heinz, Kevin, Itamar Glazer, Moshe Coll, Amanda Chau, and Andrew Chow. Use of multiple biological control agents for control of western flower thrips. United States Department of Agriculture, 2004. http://dx.doi.org/10.32747/2004.7613875.bard.
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The western flower thrips (WFT), Frankliniella occidentalis (Pergande), is a serious widespread pest of vegetable and ornamental crops worldwide. Chemical control for Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) on floriculture or vegetable crops can be difficult because this pest has developed resistance to many insecticides and also tends to hide within flowers, buds, and apical meristems. Predatory bugs, predatory mites, and entomopathogenic nematodes are commercially available in both the US and Israel for control of WFT. Predatory bugs, such as Orius species, can suppress high WFT densities but have limited ability to attack thrips within confined plant parts. Predatory mites can reach more confined habitats than predatory bugs, but kill primarily first-instar larvae of thrips. Entomopathogenic nematodes can directly kill or sterilize most thrips stages, but have limited mobility and are vulnerable to desiccation in certain parts of the crop canopy. However, simultaneous use of two or more agents may provide both effective and cost efficient control of WFT through complimentary predation and/or parasitism. The general goal of our project was to evaluate whether suppression of WFT could be enhanced by inundative or inoculative releases of Orius predators with either predatory mites or entomopathogenic nematodes. Whether pest suppression is best when single or multiple biological control agents are used, is an issue of importance to the practice of biological control. For our investigations in Texas, we used Orius insidiosus(Say), the predatory mite, Amblyseius degeneransBerlese, and the predatory mite, Amblyseius swirskii(Athias-Henriot). In Israel, the research focused on Orius laevigatus (Fieber) and the entomopathogenic nematode, Steinernema felpiae. Our specific objectives were to: (1) quantify the spatial distribution and population growth of WFT and WFT natural enemies on greenhouse roses (Texas) and peppers (Israel), (2) assess interspecific interactions among WFT natural enemies, (3) measure WFT population suppression resulting from single or multiple species releases. Revisions to our project after the first year were: (1) use of A. swirskiiin place of A. degeneransfor the majority of our predatory mite and Orius studies, (2) use of S. felpiaein place of Thripinema nicklewoodi for all of the nematode and Orius studies. We utilized laboratory experiments, greenhouse studies, field trials and mathematical modeling to achieve our objectives. In greenhouse trials, we found that concurrent releases of A.degeneranswith O. insidiosusdid not improve control of F. occidentalis on cut roses over releases of only O. insidiosus. Suppression of WFT by augmentative releases A. swirskiialone was superior to augmentative releases of O. insidiosusalone and similar to concurrent releases of both predator species on cut roses. In laboratory studies, we discovered that O. insidiosusis a generalist predator that ‘switches’ to the most abundant prey and will kill significant numbers of A. swirskiior A. degeneransif WFTbecome relatively less abundant. Our findings indicate that intraguild interactions between Orius and Amblyseius species could hinder suppression of thrips populations and combinations of these natural enemies may not enhance biological control on certain crops. Intraguild interactions between S. felpiaeand O. laevigatus were found to be more complex than those between O. insidiosusand predatory mites. In laboratory studies, we found that S. felpiaecould infect and kill either adult or immature O. laevigatus. Although adult O. laevigatus tended to avoid areas infested by S. felpiaein Petri dish arenas, they did not show preference between healthy WFT and WFT infected with S. felpiaein choice tests. In field cage trials, suppression of WFT on sweet-pepper was similar in treatments with only O. laevigatus or both O. laevigatus and S. felpiae. Distribution and numbers of O. laevigatus on pepper plants also did not differ between cages with or without S. felpiae. Low survivorship of S. felpiaeafter foliar applications to sweet-pepper may explain, in part, the absence of effects in the field trials. Finally, we were interested in how differential predation on different developmental stages of WFT (Orius feeding on WFT nymphs inhabiting foliage and flowers, nematodes that attack prepupae and pupae in the soil) affects community dynamics. To better understand these interactions, we constructed a model based on Lotka-Volterra predator-prey theory and our simulations showed that differential predation, where predators tend to concentrate on one WFT stage contribute to system stability and permanence while predators that tend to mix different WFT stages reduce system stability and permanence.
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Tuller, Markus, Asher Bar-Tal, Hadar Heller, and Michal Amichai. Optimization of advanced greenhouse substrates based on physicochemical characterization, numerical simulations, and tomato growth experiments. United States Department of Agriculture, January 2014. http://dx.doi.org/10.32747/2014.7600009.bard.
Full textAbstract:
Over the last decade there has been a dramatic shift in global agricultural practice. The increase in human population, especially in underdeveloped arid and semiarid regions of the world, poses unprecedented challenges to production of an adequate and economically feasible food supply to undernourished populations. Furthermore, the increased living standard in many industrial countries has created a strong demand for high-quality, out-of-season vegetables and fruits as well as for ornamentals such as cut and potted flowers and bedding plants. As a response to these imminent challenges and demands and because of a ban on methyl bromide fumigation of horticultural field soils, soilless greenhouse production systems are regaining increased worldwide attention. Though there is considerable recent empirical and theoretical research devoted to specific issues related to control and management of soilless culture production systems, a comprehensive approach that quantitatively considers all relevant physicochemical processes within the growth substrates is lacking. Moreover, it is common practice to treat soilless growth systems as static, ignoring dynamic changes of important physicochemical and hydraulic properties due to root and microbial growth that require adaptation of management practices throughout the growth period. To overcome these shortcomings, the objectives of this project were to apply thorough physicochemical characterization of commonly used greenhouse substrates in conjunction with state-of-the-art numerical modeling (HYDRUS-3D, PARSWMS) to not only optimize management practices (i.e., irrigation frequency and rates, fertigation, container size and geometry, etc.), but to also “engineer” optimal substrates by mixing organic (e.g., coconut coir) and inorganic (e.g., perlite, pumice, etc.) base substrates and modifying relevant parameters such as the particle (aggregate) size distribution. To evaluate the proposed approach under commercial production conditions, characterization and modeling efforts were accompanied by greenhouse experiments with tomatoes. The project not only yielded novel insights regarding favorable physicochemical properties of advanced greenhouse substrates, but also provided critically needed tools for control and management of containerized soilless production systems to provide a stress-free rhizosphere environment for optimal yields, while conserving valuable production resources. Numerical modeling results provided a more scientifically sound basis for the design of commercial greenhouse production trials and selection of adequate plant-specific substrates, thereby alleviating the risk of costly mistrials.
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Flaishman, Moshe, Herb Aldwinckle, Shulamit Manulis, and Mickael Malnoy. Efficient screening of antibacterial genes by juvenile phase free technology for developing resistance to fire blight in pear and apple trees. United States Department of Agriculture, December 2008. http://dx.doi.org/10.32747/2008.7613881.bard.
Full textAbstract:
Objectives: The original objectives of this project were to: Produce juvenile-free pear and apple plants and examine their sensitivity to E. amylovora; Design novel vectors, for antibacterial proteins and promoters expression, combined with the antisense TFL1 gene, and transformation of Spadona pear in Israel and Galaxy apple in USA. The original objectives were revised from the development of novel vectors with antibacterial proteins combined with the TFL-1 due to the inefficiency of alternative markes initially evaluated in pear, phoshomannose-isomerase and 2-deoxyglucose-6-phosphate phosphatase and the lack of development of double selection system. The objectives of project were revised to focus primarily on the development additional juvenile free systems by the use of another pear variety and manipulation of the FT gene under the control of several promoters. Based on the results creation of fire blight resistance pear variety was developed by the use of the juvenile free transgenic plant. Background: Young tree seedlings are unable to initiate reproductive organs and require a long period of shoot maturation, known as juvenile phase. In pear, juvenile period can last 5-7 years and it causes a major delay in breeding programs. We isolated the TFL1 gene from Spadona pear (PcTFL1-1) and produced transgenic ‘Spadona’ trees silencing the PcTFL1 gene using a RNAi approach. Transgenic tissue culture ‘Spadona’ pear flowered in vitro. As expected, the expression of the endogenous PcTFL1 was suppressed in the transgenic line that showed precocious flowering. Transgenic plants were successfully rooted in the greenhouse and most of the plants flowered after only 4-8 months, whereas the non-transformed control plants have flowered only after 5-6 years of development. Major achievements: Prior to flower induction, transgenic TFL1-RNAi ‘Spadona’ plants developed a few branches and leaves. Flower production in the small trees suppressed the development of the vegetative branches, thus resulting in compact flowering trees. Flowering was initiated in terminal buds, as described for the Arabidopsis tfl1 mutant. Propagation of the transgenic TFL1-RNAi ‘Spadona’ was performed by bud grafting on 'Betulifolia' rootstock and resulted in compact flowering trees. The transgenic flowering grafted plants were grown in the greenhouse under a long photoperiod for one year, and flowered continuously. Pollination of the transgenic flowers with ‘Costia‘ pear pollen generated fruits of regular shape with fertile F1 seeds. The F1 transgenic seedling grown in the greenhouse formed shoots and produced terminal flowers only five months after germination. In addition, grafted F1 transgenic buds flower and fruit continuously, generating hybrid fruits with regular shape, color and taste. Several pear varieties were pollinated with the transgenic TFL1-RNAi ‘Spadona’ pollen including `Herald Harw` that was reported to have resistance to fire blight diseases. The F-1 hybrid seedlings currently grow in our greenhouse. We conclude that the juvenile-free transgenic ‘Spadona’ pear enables the development of a fast breeding method in pear that will enable us to generate a resistance pear to fire blight. Implications: The research supported by this grant has demonstrated the use of transgenic juvenile free technology in pear. The use of the juvenile free technology for enhancement of conventional breeding in fruit tree will serve to enhance fast breeding systems in pear and another fruit trees.
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Cohen, Yuval, Christopher A. Cullis, and Uri Lavi. Molecular Analyses of Soma-clonal Variation in Date Palm and Banana for Early Identification and Control of Off-types Generation. United States Department of Agriculture, October 2010. http://dx.doi.org/10.32747/2010.7592124.bard.
Full textAbstract:
Date palm (Phoenix dactylifera L.) is the major fruit tree grown in arid areas in the Middle East and North Africa. In the last century, dates were introduced to new regions including the USA. Date palms are traditionally propagated through offshoots. Expansion of modern date palm groves led to the development of Tissue Culture propagation methods that generate a large number of homogenous plants, have no seasonal effect on plant source and provide tools to fight the expansion of date pests and diseases. The disadvantage of this procedure is the occurrence of off-type trees which differ from the original cultivar. In the present project we focused on two of the most common date palm off-types: (1) trees with reduced fruit setting, in which most of the flowers turn into three-carpel parthenocarpic fruits. In a severe form, multi-carpel flowers and fruitlets (with up to six or eight carpels instead of the normal three-carpel flowers) are also formed. (2) dwarf trees, having fewer and shorter leaves, very short trunk and are not bearing fruits at their expected age, compared to the normal trees. Similar off-types occur in other crop species propagated by tissue culture, like banana (mainly dwarf plants) or oil palm (with a common 'Mantled' phenotype with reduced fruit setting and occurrence of supernumerary carpels). Some off-types can only be detected several years after planting in the fields. Therefore, efficient methods for prevention of the generation of off-types, as well as methods for their detection and early removal, are required for date palms, as well as for other tissue culture propagated crops. This research is aimed at the understanding of the mechanisms by which off-types are generated, and developing markers for their early identification. Several molecular and genomic approaches were applied. Using Methylation Sensitive AFLP and bisulfite sequencing, we detected changes in DNA methylation patterns occurring in off-types. We isolated and compared the sequence and expression of candidate genes, genes related to vegetative growth and dwarfism and genes related to flower development. While no sequence variation were detected, changes in gene expression, associated with the severity of the "fruit set" phenotype were detected in two genes - PdDEF (Ortholog of rice SPW1, and AP3 B type MADS box gene), and PdDIF (a defensin gene, highly homologous to the oil palm gene EGAD). We applied transcriptomic analyses, using high throughput sequencing, to identify genes differentially expressed in the "palm heart" (the apical meristem and the region of embryonic leaves) of dwarf vs. normal trees. Among the differentially expressed genes we identified genes related to hormonal biosynthesis, perception and regulation, genes related to cell expansion, and genes related to DNA methylation. Using Representation Difference Analyses, we detected changes in the genomes of off-type trees, mainly chloroplast-derived sequences that were incorporated in the nuclear genome and sequences of transposable elements. Sequences previously identified as differing between normal and off-type trees of oil palms or banana, successfully identified variation among date palm off-types, suggesting that these represent highly labile regions of monocot genomes. The data indicate that the date palm genome, similarly to genomes of other monocot crops as oil palm and banana, is quite unstable when cells pass through a cycle of tissue culture and regeneration. Changes in DNA sequences, translocation of DNA fragments and alteration of methylation patterns occur. Consequently, patterns of gene expression are changed, resulting in abnormal phenotypes. The data can be useful for future development of tools for early identification of off-type as well as for better understanding the phenomenon of somaclonal variation during propagation in vitro.