Ornamental plants
Maryam Abaspour; H. Bayat; Mohmmad Hossein Aminifard; Farid Moradinezhad
Abstract
Introduction
Sage (Salvia spp.), which belongs to the mint family (Lamiaceae), is considered one of the largest and most important genera in terms of aromatic and medicinal properties. This diverse genus includes approximately 900 species, each with unique characteristics, and is mainly native to the ...
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Introduction
Sage (Salvia spp.), which belongs to the mint family (Lamiaceae), is considered one of the largest and most important genera in terms of aromatic and medicinal properties. This diverse genus includes approximately 900 species, each with unique characteristics, and is mainly native to the northern Mediterranean and North African regions. It is used as a traditional medicine in the treatment of many diseases and as a seasoning and flavoring in the food industry. Sage is a remarkable plant that is widely known for its numerous medicinal properties, including antispasmodic, antiseptic and sedative effects, which makes it very valuable in traditional and modern medicine. In addition to its therapeutic benefits, this aromatic plant usually reaches a height of 60 cm. The plant is suitable for cultivation in green spaces and parks due to its ornamental properties and resistance to environmental stresses. Numerous features, including the diversity of the native Iranian sage genus, aesthetic aspects, and high adaptability to environmental stresses such as drought, increase the potential of these plants for use in urban green spaces, and their widespread use can help create sustainable green spaces. Considering the beauty of the leaves and flowers of these plants, the presence of abundant fragrance during the flowering stage, the lack of need for special conditions for cultivation, and their resistance to adverse conditions, it seems that these plants are very suitable for cultivation in green spaces for ornamental purposes. Most previous research on sage has focused on the medicinal value and the increase in its medicinal compounds and secondary metabolites, and the ornamental potential of the plant for use in green spaces has not been considered. Considering the diversity of this genus in Iran and its beauty, its use in urban green spaces as a native plant compatible with the country's climatic conditions can be investigated. Therefore, the present study aimed to investigate the vegetative and ornamental traits of different native and imported sage species, as well as the potential of this plant for ornamental uses in the climatic conditions of Birjand.
Material and methods
This study was conducted on 14 genotypes of medicinal sage (Salvia spp.) in the research farm and greenhouse of the Faculty of Agriculture, University of Birjand during 2022-2024 in a randomized complete block design with three replications. During the plant growth period, vegetative traits including plant height, plant width and number of leaves were examined every 15 days. At the full flowering stage, peduncle length, number of peduncle, number of florets in main and axillary inflorescences, number of axillary inflorescence peduncles, inflorescence diameter, peduncle diameter, diameter and length of floret, length of main and axillary inflorescence, interfloral distance of florets, number of days to flowering, and flower durability on the plant were measured.
Results and discussion
The results of variance analysis showed that there was a significant difference between different sage species for all studied traits at the 1% probability level. The highest plant height (32.93 cm), leaf width (63.80 cm), and number of leaves (337) were obtained from the species Salvia nemorosa SA036, Salvia sclarea var turkestanica SA060 and Salvia officinalis, respectively. In addition, the lowest plant height (3.20 cm) was obtained from Salvia chorassanica, leaf width (6.05 cm) and number of leaves (6) from the species Salvia virgata. In terms of reproductive traits, the highest peduncle length (49.15 cm), main inflorescence length (34.10 cm) and number of axillary inflorescence (12) were observed in the Salvia sclarea SA058 species. The lowest flower durability on the plant (25 days) was observed in the Salvia chorassanica species, and the other species had the highest flower persistence and no significant difference was observed between them. The highest (23) and lowest (2) number of peduncle were observed in the Salvia reuterina and Salvia firgida species, respectively. The highest inflorescence diameter (51.81 mm) and peduncle diameter (4.45 mm) were obtained from Salvia reuterina and Salvia sclarea var turkestanica SA060, respectively. The results of this study showed that there was high genetic diversity in terms of morphological traits among different sage species, which have the potential to be used as ornamental plants in urban green spaces.
Conclusion
The results of this study showed that native and imported sage species have significant diversity in terms of vegetative and ornamental traits, indicating the high genetic potential of this genus. Some imported sage species, especially in terms of ornamental characteristics, perform better than native species. These species show significant potential for cultivation in urban green spaces, making them very valuable for landscaping purposes. By intelligently selecting and including these species in urban planning, a significant contribution can be made in increasing and maintaining the aesthetic appeal of urban environments. Given the diversity of sage species in the country, it is essential to examine this diversity and use it in breeding programs for ornamental purposes and cultivation in urban green spaces.
Ebrahim Abedi Gheshlaghi; Vali Rabiei; Malek Ghasemi; Javad Fattahi Moghadam; Farhang Razavi
Abstract
Introduction: It is important to understand the structural events associated with flower morphogenesis in horticultural plants, because it has many aspects of practical horticultural significance. Information about different stages of flower initiation and development is important for better management ...
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Introduction: It is important to understand the structural events associated with flower morphogenesis in horticultural plants, because it has many aspects of practical horticultural significance. Information about different stages of flower initiation and development is important for better management of the vineyardsand fruit set. Knowledge of floral ontogeny in kiwifruit is also important for the establishment of breeding programs and for the understanding of the evolutionary processes involved in the development of the floral organs. The main objective of this study was documentation of the differentiation stages of flower buds for better understanding of morphological and external changes in (Actinidiadeliciosa[A. Chev.] C.F. Liang &A.R. Ferguson var.deliciosa) cvs.Hayward (female) and Tomuri (male).
Materials and Methods: The experiment was carried out over two years in a mature 'Hayward' and ‘Tomuri’ kiwifruit vineyard at the Citrus and Subtropical Research Center of Iran (Ramsar city). Pistillate and staminate flowers development was followed from the stage of undifferentiated primordia, present in the axils of leaf primordia in dormant buds since mid-March to early June 2015 and 2016. Equally buds in diameter and size from sixth to twentieth buds on one-year old cane of Hayward and Tomuri selected at 5 to 7 days intervals. They were sampled and fixed in a solution of formalin, ethanol 70%, glacial acetic acid (2:5:1 FAA) then stored in refrigerator. Fifteen buds of each sample dissected under a Nikon SMZ645 stereo zoom microscope. The very dense pubescence within the buds was removed manually without damaging the axillary flower primordia. The remaining pubescence was removed using dissecting needles. Various stages of flower differentiation were explained with principal growth stage 5 of BBCH scale.
Results and Discussion: The first signs of the flower on Tomuri were observed 2 days before bud swelling stage (01), on the March 12th, about one month before bud break in 2015. While in the Hayward variety the first signs of the flower primordia were observed on the March 21th of 2015 (9 days later). At the beginning of bud swelling (01), flower primordia begin to differentiation and at advanced bud swelling stage (03), bracts and sepals initiated. As development proceeded, different parts of flowers initiated acropetally. Lateral flowers were formed in the bud break (07), before initiation of petals. In advanced budburst stage (09) stamen primordia appear almost immediately after petal initiation, as two whorls in 'Hayward' and as three whorls in the Tomuri cultivar. Stigma initiated in the open cluster stage (10) in Hayward cultivar about 24-25 days after bud swell stage. The process of differentiation of buds and reproductive organs in the second year was the same as the first year with the exception that differentiation began earlier than that in the first year. Climatic conditions were affected flower development and in the second year primordia differentiation began earlier two days in Tomuri and six days in Hayward than those in the first year. The advanced budburst stage (09) in Tomuri 9 days and in the Hayward 10 days was occurred earlier than that in the first year. Unlike other tree fruits, flower induction in the kiwifruit occurred about 6 months before flower initiation. Flower primordia differentiation initiated shortly before bud break stage and approximately two months before full bloom. Flower initiation and differentiation time may be partly estimated with external changes of buds development. According to cultivar, chilling and heat requirements and climatic conditions during the research, flower initiation and differentiation period have fluctuation. A reason for the difference between the development stages and different varieties can be caused by the chilling and heat requirements. The more heat requirement, the longer reproductive meristem differentiation period.
Conclusion: An understanding of the flower initiation and development is very important for the research and management of fruit trees. A knowing of flower initiation and differentiation can be developed corrective vineyard management and practices in crisis period and prepared breeding programs. Tomuri initiated and developed their floral organs earlier than those in Hayward. Different external changes in the bud may be partly used to estimate of flower development status. The results showed that flower initiation and differentiation in buds coincided with the beginning of development and elongation of bud in the early of spring.