Notulae Botanicae Horti Agrobotanici Cluj-Napoca
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    Enhancing the fruit yield and quality of pomegranate in a new niche area: Insights into site specific agronomic practices

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    The sustained higher profitability of a pomegranate orchard relies heavily on the production of a greater proportion of high-quality fruits, a goal achievable through the implementation of effective management practices. The objective of this study is to provide site-specific supplementary knowledge regarding the response of pomegranate plants to various management practices under arid conditions. With the aim of enhancing both marketable fruit yield and quality of pomegranate in arid regions, four separate and simultaneous experiments were conducted in the same orchard to evaluate (i) the response of planting materials derived from tissue culture, air layering, and cutting; (ii) the impact of crop (fruit) load; (iii) the response of crop regulation; and (iv) the application response of organo-mineral fertilizers containing potassium (OMF-K) and phosphorus (OMF-P). The results obtained for plant growth, fruit yield, and fruit quality did not exhibit significant differences among pomegranate plants raised through the three different methods of vegetative propagation. Striking results in terms of producing superior-grade fruits, higher marketable yield, and overall fruit quality were achieved with crop loads of 80 fruits per plant. Staggering the crop regulation from June to September effectively extended the harvesting season to four months, from the last week of November to March, with eventual benefit of reduced fruit cracking compared to the standard two-month harvesting period obtained from normal regulation. Soil application of the indigenously developed OMF-K in two equal splits, along with the recommended N and P through inorganic sources, significantly reduced fruit cracking (only 6.23%) compared to the recommended NPK through inorganic sources (26.9%), while maintaining similar physicochemical quality attributes

    Genetic improvement of drought stress tolerance in maize, recent advancements and future research direction

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    Maize is an imperative crop around the globe, and it provides several essential nutrients to humans and animals. Environmental changes seriously affect growth and productivity. Drought stress is one of the most important abiotic stresses, reducing maize growth and yield and threatening global food security. For decades, breeders have been trying to improve maize's ability to counter the toxic effects of drought stress. Drought tolerance is controlled by many genes and it complicates molecular breeding. The use of conventional breeding methods limited the development of drought tolerance in maize because of the complex nature of this trait. Hence, maize breeders have shifted their focus towards improvement of drought tolerance in maize at molecular level. Different molecular tools like quantitative trait loci (QTL) mapping, genome-wide-association-studies (GWAS), transcriptome analysis, transcription factor (TFs) analysis, and CRISPR/Cas9 have played a vital role in gene’s identification and their use in molecular breeding. These genomic regions have been proven very effective, and more studies are being conducted to increase their efficiency; however, the improvement level is limited because of the complex genetic mechanism of drought tolerance. Different review articles have been published on this aspect; however, a comprehensive and updated overview of drought tolerance needs to be included. The current review highlights the role of diverse molecular techniques to improve drought tolerance in maize. This review article will enhance the interest of researchers working on the genetic improvement of maize

    Phytogeographical and biological spectrum of vascular flora as an indicator of ecological changes following clear-cutting in Eastern Serbian beech forest sites

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    Extreme weather events caused considerable harm to the forest ecosystems in Eastern Serbia over a few hard winters, resulting in widespread ice breaks and ice uprooting. Certain forest stands were severely impacted during the winter of 2014-2015, necessitating clear-cutting measures. This research was conducted in the Timok forest area, through examination of the floristic composition in areas subjected to clear-cutting, including natural beech forests and artificially established conifer stands within beech sites (Helleboro odori-Fagetum moesiacae). A phytogeographical and bioecological analysis was conducted five years after clear-cutting. Changes in ecosystems were assessed by analysing the spectra of area-types and plant life forms, with comparisons drawn to the “Vinatovača” old-growth forest, situated in the submontane beech forest of Eastern Serbia. Descriptive analysis of the phytogeographical and bioecological spectra of vascular flora, alongside multinomial correspondence analysis, revealed an increased presence of species from Eurasian, Mediterranean-sub-Mediterranean, and Pontic area-types, as well as hemicryptophytic, phanerophytic, and therophytic life forms in the clear-cut areas. In contrast, the old-growth forest was colonised by species of Central European and Holarctic area-types, along with geophytic life forms. These findings suggest a shift towards xerothermic microclimates in the clear-cut areas and the stronger influence of the continental climate of Eastern Serbia with its extremes on deforested areas, as well as on the processes of forest ecosystem degradation

    Effect of nitrogen fertilization levels and plant density on dry weight, yield components and bulb quality of onion plant

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    A field experiment was carried out during the two successive winter seasons of 2020/2021 and 2021/2022 to study the effect of mineral nitrogen levels and plant density on dry weight, yield and its components, as well as bulb quality of onions (cv. ‘Ahmar Tanawy’). This experiment included 12 treatments, which were combinations between four levels of mineral nitrogen (0, 192, 240 and 288 kg N/ha) and three plant densities (4, 5 and 6 rows/ridge equal 33.33, 41.67 and 50 plants/m2, respectively). These treatments were arranged in a split-plot design with three replications. Nitrogen levels were randomly arranged in the main plots, and plant densities were randomly distributed in the subplots. Nitrogen application at 192,244 and 288 kg N/ha led to increase dry weight/plant compared to control (zero N) and 288 kg N/ha gave the highest values of dry weight of leaves, dry weight of bulbs, and total dry weight per plant at 100 days in both seasons. The increases in total dry weight per plant were about 4.84 and 4.80 g per plant for 192 kg N/ha, 4.76 and 3.87 g per plant for 244 kg N/ha, and 6.86 and 5.74 g per plant for 288 kg N/ha over the control at 100 days in the 1st and 2nd seasons, respectively. The interaction between N at 288 kg/ha and low plant density (4 rows/ridge) gave the highest values of dry weight of leaves, bulb, and total dry weight/plant and increased yield of grade 1, exportable yield, average bulb weight, as well as nitrate and sulphur contents in bulbs, whereas the interaction between N at 244 kg/ha and high plant density (6 rows/ridge) increased grades 2, 3, and 4, marketable yield, and total yield/ha

    Potential utilization of filaments and ovules as explant sources in in vitro propagation of Lilium sp.

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    Lilies are important cut and pot flowers locally and globally; however, qualified planting materials from in vitro culture are still limited. The culture generally uses scales and leaves, while filaments and ovules are rarely utilized. Filaments and ovules of EXO CF/E, RDF CG/E, and DZ CG/E genotypes of Lilium sp. were explored for their potential to establish in vitro propagation protocol using different Chu N6 medium and their modifications. The 9.9 shoots/explant from 1.5 regenerative explants/replication of RDF CG/E filaments was proven on Chu N6 medium containing 6.79 µM 2,4-dichlorophenoxyacetic acid (2,4-D), 2.27 µM thidiazuron (TDZ), and 90 g L-1 sucrose; 3.3 regenerative explants/replication and 8.4 shoots/explant of EXO CF/E ovules were determined on Chu N6 medium with 2.26 µM 2,4-D, 6.81 µM TDZ and 90 g L-1 sucrose; and slightly improved on Chu N6 macro elements, full vitamins of MS basal medium with 3.39 µM 2,4-D, 3.41 µM TDZ, 150 ml L-1 coconut water (CW) and 60 g L-1 sucrose. The shoots were proliferated on the established media. The shoots of EXO CF/E, RDF CG/E and DZ CG/E genotypes produced varied leaves/shoot, leaf length, leaf width, roots/shoot, root length and bulb diameter on Chu N6 medium hormone free with 1.5% AC, followed by hardening them in a glass house for one month. The hardened-plantlets were acclimatized in plastic pots containing charcoal husk and bamboo compost (1:1) with 39.8-63.6% survivability. The protocol has the potential to be applied to other genotypes or lilies by specific improvements at the acclimatization stage

    The effect of fertility control on soil conservation as a basic resource of sustainable agriculture

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    For agricultural production is used almost 40% of the global land from where it dominates conventional agriculture which uses large amounts of inputs in the form of fertilizers and pesticides leading to the contamination of soil, water resources, air pollution and land erosion, affects biodiversity and extinction of many plants and animals. On the other hand, the world's population is constantly growing and currently numbers more than 8 billion people and it is estimated that food production will have to double by 2050. In order to meet the future needs of the population for food raw materials, food production must significantly increase, and at the same time, the impact of agriculture on the environment and natural resources must be drastically reduced. Sustainable agriculture is emerging as one of the solutions. This way of agricultural practice refers to the management and preservation of natural resources through organizational and technological changes in modern agricultural production in order to satisfy human needs and preserve the environment. One of the most important natural resources on which the entire agricultural production relies is land. In intensively cultivated lands, there is a noticeable trend of intense degradation, which represents a major problem facing humanity. The paper reviews the decrease in soil fertility based on the samples collected during the five-year monitoring, as well as a proposal for measures to increase fertility and future preservation of this environmental resource

    Fruit mineral nutrient contents of field and greenhouse grown tomatoes and comparison with standard values

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    Tomato (Solanum lycopersicum L.) is a significant member of the Solanaceae family with substantial worldwide production. The nutritional content of vegetables affects their metabolic and quality characteristics positively or negatively in many aspects and is one of today’s important research areas. In this study, grown tomato samples collected from fields and greenhouses in nine different cities of Türkiye were analysed for boron, calcium, copper, iron, potassium, magnesium, manganese, sodium, and zinc concentrations using spectroscopy, compared with available studies in terms of fertilization/nutrient uptake status and it was decided whether there is a difference between tomato samples grown in the field and the greenhouse. The study revealed that there are differences between macro and microelement contents of the field and greenhouse-grown tomatoes. Greenhouse tomatoes have greater nutritional element contents since they are protected from external effects and pesticides, growing in a healthy and nutritionally rich manner. The lowest and highest concentrations (mg kg-1 dry weight) of mineral elements were boron (18.13-28.30), calcium (1277-1836), copper (4.60-9.45), iron (18.86-27.33), potassium (20384-22305), magnesium (1870-2107), manganese (10.12-23.27), Sodium (119.65-209.11) and zinc (15.55-25.41). As a result, tomatoes produced in Türkiye for export to various countries were found to be containing adequate macronutrients according to the relevant literature except for potassium, and micronutrients contents were found to be within the safe limits. Also, considering the percentage of daily Recommended Dietary Allowance values it provides, it can be said that tomatoes are a good source of micronutrients

    ACC-Deaminase producing Pseudomonas putida RT12 inoculation: A promising strategy for improving Brassica juncea tolerance to salinity stress

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    An important abiotic stressor that hinders plant growth, nutrient uptake, and global agricultural productivity is soil salinity. Among the different strategies to overcome the issue of salinity in agriculture sector, plant growth-promoting rhizobacteria (PGPR) have gained recognition as promising beneficial microbes that can improve plants’ response to biotic and abiotic stressors. The salinity tolerance and traits that promote plant growth of eight PGPR strains (RT1, RT2, RT3, RT4, RT5, RT7, and RT12) were evaluated in this study. During screening, one strain, RT12, had the highest plant growth-promoting activity and salt tolerance in the group. The strain when subjected to NaCl stress showed quantitative ACC-deaminase activity, in the presence of NaCl at various concentrations, demonstrating extraordinary tolerance to salt stress by withstanding doses of up to 3M NaCl. In order to further investigate the effects of salt stress on Brassica juncea (mustard), RT12, which was identified as Pseudomonas putida using 16s RNA sequencing, was inoculated. Two salt treatments (100 and 150 mM) were applied to the mustard variety ‘Mingora’ in a greenhouse. The results revealed that through ACC utilization, PGPR directly induced plant growth in salt-stressed mustard plants by lowering excess ethylene production. All plant parameters were negatively impacted by an increase in NaCl concentration in uninoculated plants. However, P. putida RT12 inoculation enhanced all growth parameters, antioxidant production, total soluble sugar (TSS), total protein (TP), proline, relative water content (RWC), chlorophyll contents, and nutrient uptake in salt-treated plants. The inoculation with P. putida also caused a marked decline in Na+ uptake and an increase in K+ uptake in the shoot. By maintaining a greater K+/Na+ ratio in the tissues of RT12-inoculated plants compared to controls, this change in ion uptake helped to maintain nutritional balance of the plants. The findings suggest that inoculating plants with ACC deaminase-producing PGPR, such as P. putida RT12, may boost growth and stress resistance

    The use of genetic resources in rose breeding and creation of new rose cultivars through hybridization and selection

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    Despite the existence of more than 37,000 different varieties of roses worldwide, there remains a significant interest and high relevance in rose breeding. The rose is the most beloved flower in the world, commonly named the “queen of flowers”. In addition to its remarkable ornamental significance, the rose possesses various ecological, environmental, landscaping, food, pharmaceutical and medicinal, cosmetic, and industrial attributes, among others, thereby contributing to its overall socio-economic value. The current study investigated the results of rose breeding in a horticulture research center in the northwest of Romania with over 70 years of experience.  The main method used to generate variability for the selection of new genotypes was artificial hybridization. After 1970, an average of 15-20 crossings per year were carried out, in different parental formulas or types of crosses, with approximately 1000-2000 flowers per pollinated per parental combination. Thousands of F1 hybrids were obtained annually (approximately 10,000-12,000 hybrids per year per hybrid combination), and dozens of elites were selected, grafted, and promoted as clonal selections in comparative trials. The success rate in obtaining new varieties through hybridization was 5.1% from total hybrid combinations, 0.72% from total hybrids, and 1.6% from total clonal selections. Of the total new varieties, hybrid teas represent 11.9%, floribundas 64.2%, shrubs 16.6%, and others 7.1%. 38 new cultivars suitable for open field cultivation were obtained, showing different habits, decorative value, flowering behavior, flower color, fragrance, resistance to frost or major diseases, and intended use. The exploration of new research directions aimed at harnessing the potential of roses, the region, and the socio-economic requirements was undertaken to enhance and beauty degraded, or landslide-prone lands, as well as to introduce damascene roses for the oil perfume and cosmetics industry

    Chilling and drought stresses in maize: Mitigation strategies and potential management opportunities

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    Maize (Zea mays L.) is a significant global staple crop, which is important for its nutritional and economic value. However, the negative effects of drought and chilling stress, induced by climate change, are rapidly increasing threats to compromise its healthy yield. The processes that are affected by chilling stress are reduced growth, impaired photosynthesis, increased susceptibility to disease and pests, late flowering and reduced leaf size. Growth components of plants such as gibberellic acid, calcium, abscisic acid and salicylic acid can control the maize response to chilling stress. Conversely, drought stress, which is brought on by insufficient water availability, interferes with essential functions like the roots' ability to absorb water and nutrients, increases transpiration losses, causes the leaves to roll, and delays senescence.  To improve drought tolerance ability in maize, glycine betaine, potassium and foliar calcium spray are worthwhile. Events that combine freezing and drought present a difficult challenge and reduce maize productivity. Reduced yields of maize not only place food security at risk, but also have severe economic implications on farmers and countries that depend mainly on maize production. Implementing proactive approaches, including as breeding initiatives, precision agriculture, water management, farming systems can present workable ways to minimize the impacts these stresses and defend maize production under prevailing fluctuating environment. This review highlights the most recent findings on the impact of drought and cold weather on corn plants. Potential management strategies for regulating plant tolerance mechanisms to drought and cold stress are also outlined

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