Ornamental plants
G.H. Homayouni; M.R. Raji; A. Ehteshamnia; M. Aalifar
Abstract
IntroductionClimate change and environmental pollutants are effective on the growth of different plant species. Plants in general and trees in particular react to climatic and environmental changes. Air pollution and climate changes have a significant effect on the growth, quality and phytochemical characteristics ...
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IntroductionClimate change and environmental pollutants are effective on the growth of different plant species. Plants in general and trees in particular react to climatic and environmental changes. Air pollution and climate changes have a significant effect on the growth, quality and phytochemical characteristics of trees in urban green spaces, because chronic injuries are caused by continuous absorption of pollutants. The metropolis of Tehran is known as one of the most immigrant-friendly cities in the country. The main environmental problems of Tehran city are the lack of natural air ventilation, the persistence of pollutants, dryness of the air, the existence of dust, the noise and the destruction of natural ecosystems. Air quality is related to the chemical state of the atmosphere at any time and place. Like weather, air quality affects everyone. Materials and MethodsThe current research was carried out in the city of Tehran in the form of a completely random design with three replication. This research was carried out with the aim of investigating the effect of ten-year climate changes and environmental pollutants on the chemical properties of plantain trees in 4 regions of Valiasr street of Tehran (regions 1, 3, 6 and 11). In this study, four areas of the city include Valiasr Street in area 1 from Tajrish Square to Parkway (average height above sea level 1611 meters and average slope 20.17), area 3 from Parkway to Hemat Bridge (average height 1501 meters and average slope 5.89), zone 6 from Hammet bridge to Valiasr intersection (height 1308 meters and average slope 5.17) and zone 11 from Valiasr intersection to railway square (average height 1152 meters above sea level and average slope 2.19) were selected for the study. Region 1 was selected as a clean or low pollution region, region 3 as a polluted region one, region 6 as a polluted region two and region 11 as a polluted region three. The obtained data were analyzed by ANOVA using SAS 9.4 software, comparison of averages was done with Duncan's test and graphs and statistical tables were drawn by Excel software. The difference of traits in three times was evaluated using t-test. Results and DiscussionData homogeneity test was not significant by Bartlett's test, which shows that the variances are homogeneous in four locations. Due to the homogeneity of the data and the non-significance of Bartlett's test, the data of this experiment were subjected to combined analysis. The results showed that the highest amount of ion leakage was obtained from regions 6 and 11. The highest relative humidity content was shown in regions 3 and 6. With the increase of environmental pollutants in regions 3 and 11 in compared to region1 ,the amount of anthocyanins and antioxidants increased. In addition, the activity of catalase, peroxidase, ascorbate peroxidase and superoxide dismutase enzymes in plantain tree leaves showed a significant increase in areas with more pollution (11, 6 and 3) due to lower sea level height and slope gradient in compared to region 1. Many researchers have also stated in numerous reports the existence of a relationship between the place of growth and its effect on the quality and quantity of phytochemical compounds of plants. In general, air pollution and decreasing sea level height and slope led to increased ion leakage, malondialdehyde, relative leaf water content, flavonoids, anthocyanins, antioxidants, phenols, and antioxidant enzyme activity. ConclusionsIn the present study, significant difference was observed in the phytochemical content, quantity and quality of these compounds, in plane trees (Platanus orientalis) growing along Valiasr Street in Tehran. Environmental conditions at the growth site play a key role in determining the quantity and quality of phytochemical characteristics by influencing the total amount of active substances, the composition of bioactive elements, and dry matter production. Among these, altitude above sea level is considered one of the most important environmental factors affecting the phytochemical composition of plants. In addition, other environmental factors that shape the climate of a region—such as temperature, humidity, and air quality—also influence the accumulation of physiological and phytochemical compounds in plants. Furthermore, Several studies have reported a relationship between the growing location and its impact on the quality and quantity of phytochemical compounds in plants.
Medicinal Plants
M. Yaghobvand; H. Mumivand; M. R. Raji; A. Banan
Abstract
IntroductionThe aeroponic system is a promising technique for the future of agriculture, growing plants in an air or mist environment without the use of soil or an aggregate medium. In aeroponic, plants are suspended in a closed or semi-closed environment by spraying the plant's dangling roots and lower ...
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IntroductionThe aeroponic system is a promising technique for the future of agriculture, growing plants in an air or mist environment without the use of soil or an aggregate medium. In aeroponic, plants are suspended in a closed or semi-closed environment by spraying the plant's dangling roots and lower stem with an atomized or sprayed, nutrient-rich water solution (30). Increased aeration of nutrient solution delivers more oxygen to plant roots in aeroponic in compare to conventional hydroponic systems, stimulating growth and helping to prevent pathogen formation (1). Cultivation of medicinal plants under controlled conditions of aeroponic and hydroponic systems commercially provides a better result in terms of quality improvement, bioactivity and biomass production (5, 4).Mint (Mentha) is one of the most important genus of Lamiaceae family. Different species of the genus have high economic value, due to their active and aromatic substances and are used as raw materials in food, cosmetics, health, beverage and pharmaceutical industries. M. piperita, M. spicata and M. suaveolens are the most common and popular species of the genus for cultivation. M. aquatica is also a perennial plant of the genus that is cultivated in Europe, North and Northwest Africa and Southwest Asia (2). Aeroponic system is more cost effective than other systems. Because of the reduced volume of solution throughput, less water and fewer nutrients are needed in the system at any given time compared to other nutrient delivery systems. However, due to lack of research and sufficient technical information, the use of aeroponic system is not common among farmers and greenhouse owners. In addition, many tips are not yet scientifically known about the cultivation of different plant species in this system (4). Despite the benefits of aeroponics, no research has been previously conducted on the cultivation of different species of mint in this system. Therefore, the present study was conducted with the aim of investigation of growth, yield and morpho-physiological characteristics of five mint species in the aeroponic system.Methods and MethodsThis study was conducted in greenhouses of faculty of Agriculture and Natural Resources of Lorestan University in 2020. The experiment was performed as a split plot design. Mentha species (including M. aquatica, M. pulegium, M. spicata, M. suaveolens and M. piperita) were considered as the main plot and harvest time (first and second harvests) was used as sub-plot. In each experimental block, one row (with ten plants) of five mint species was planted. In the early stages of growth, plants were fed with half Hoagland nutrient solution and then with complete Hoagland solution. Finally, morphological and physiological traits and some biochemical characteristics of plants were measured. After harvesting the first batch of plants and in order to better evaluation of species in the aeroponics system, all studied traits were measured about two months after the first harvest. Analysis of variance was performed based on the experimental design using SAS software. The comparison of means was also done with the least significant difference (LSD) test at the level of 5%.Results and DiscussionThe results showed that M. spicata and M. suaveolens had the highest leaf to stem ratio. The highest stem dry weight and plant height were related to M. pulegium. While, the highest leaf area, leaf fresh and dry weight, stem fresh and dry weight, stolon fresh and dry weight, shoot fresh and dry weight, total plant dry weight and relative water content were related to M. aquatic, followed by M. piperita. In addition, M. piperita had shown the highest fresh root weight. The highest amount of carotenoid and chlorophyll, photosynthesis rate and CO2 under the stomata was obtained in M. piperita. In this experiment, most of the yield-attributes traits including leaf area, leaf fresh and dry weight, root fresh weight, shoot fresh weight and total plant dry weight, as well as relative water content and photosynthesis rate were higher in the second harvest than the first one.ConclusionAll studied species in this experiment were successfully growth in the aeroponic system. Due to high water use efficiency, no need for soil and high crop production, mint cultivation in the aeroponic system can be a healthy and profitable alternative to in soil cultivation approach. According to the results of the present study, M. aquatica has shown higher performance than other species in terms of the yield attributes traits (including leaf number, leaf area, fresh and dry weight of plant, fresh and dry weight of shoots and fresh and dry weight of leaves). Among the other species, the highest shoot dry weight and plant dry weight was obtained by M. piperita. Finally, the high potential of M. aquatica and M. piperita for cultivation in the aeroponic system can be concluded.
