Notulae Botanicae Horti Agrobotanici Cluj-Napoca
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Sustainable experimental cultivation of the Greek endemic Helichrysum amorginum Boiss. and Orph.: Assessment of the total phenolic content at different flower harvest stages
Helichrysum amorginum Boiss. and Orph. constitutes a range-restricted, endemic species of Greece with known pharmaceutical potency. The current work presents the results of a targeted evaluation of the total phenolic content (TPC) of methanolic extracts of H. amorginum flower heads under cultivation conditions at three consecutive harvest stages in two separate cultivation locations across a period of two years (2018 and 2019). The harvested inflorescence tissue was assessed for TPC via the Folin–Ciocalteu method in three and four-year old H. amorginum individuals. Older plants, during the second evaluation year, generally showed higher flower TPC content throughout. The pooled analysis of the results indicated significant differences in TPC among samples of extracts prepared with plant material from different harvest stages with the early flowering stage (A) presenting higher TPC in both experimental cultivation locations (142.6-156 mg GAE g-1 extract on average among the two cultivation locations) followed by the full bloom stage (B) (139-145.7 mg GAE g-1 extract on average) and the late bloom or early post-anthesis stage (C) which showed the lowest TPC in all cases (130.3-131 mg GAE g-1 extract on average). The current results provide for the first-time basic information on the optimum inflorescence harvest stage during the prolonged flowering period of cultivated H. amorginum in terms of TPC. The proposed work can be incorporated into the establishment of a sustainable cultivation protocol for achieving polyphenol-rich extracts and ultimately contributes to the utilization of H. amorginum in the pharmaceutical/cosmetic sectors
Introduction pages, NBHA-CN 52(3), 2024
The papers published in Notulae Botanicae Horti Agrobotanici Cluj-Napoca, Issue 3, Volume 52, 2024 represent new exciting research in different topics of life science, respectively in plant science, horticulture, agronomy, crop science, and forestry. Among the interesting articles, we invite you to find news about: Genetic improvement of drought stress tolerance in maize, recent advancements and future research direction; Exploring ecotypic plant adaptations and the influence of microbiota on mitigating environmental challenges; Unveiling the genetic landscape: Exploring the SSR-based genetic architecture and amino acid dissection of Gossypium barbadense and G. darwinii genomes; Role of iron oxide nanoparticles in maize (Zea mays L.) to enhance salinity stress tolerance; Differential physiological responses to salt stress in rice landraces in Thailand; Effects of chemical regulation on the growth, yield and fiber quality of cotton varieties with different plant architectures; Separation and identification of individual anthocyanins from the petals of some rose cultivars; Comparative analysis of seed morphology in genus Scutellaria L.; Effects of chemical fertilizer nitrogen substitution with rapeseed cake on microbial community in tobacco rhizosphere soil; Particle film treatments on ‘Assyrtiko’ grapevines enhance physiology and grape attributes in Santorini Island; Nutrimental modifications in blueberry (Vaccinium corymbosum L.) caused by vanadium supply; Exploring the effects of the assisted transfer of European beech (Fagus sylvatica L.) provenances in the Romanian Carpathians
Storms on the Western Black Sea shore: an opportunity for long-distance dispersal of coastal dunes psammophytes?
Coastal areas are among the planet's most dynamic yet vulnerable environments, the shape of sand dunes being typically modeled by two sets of forces: the relatively constant action of wind and waves and the disturbances caused by infrequent but powerful storms. These meteorological events affect the plant communities, but can also play an important role in the long-distance dispersal of some psammophytes. Plants can be exposed, uprooted, broke apart and spread by wind and waves. Then, depending on the resilience of the plant to seawater temperature, the duration of immersion, the type of fragment transported and the suitability of the new habitat, new population can be established. This study aimed to assess the resilience to seawater immersion and the ability of long-distance dispersal of three psammophytes: Convolvulus persicus, Alyssum borzaeanum, and Silene thymifolia. The experiments tested the viability of vegetative fragments and the reproductive capacity of seeds under different exposure periods (5, 10, and 15 days) and temperature conditions: 4 °C (average surface seawater temperature during winter and early spring when storms on the Black Sea Coast occur), 13 °C (average surface seawater temperature), and 23 °C (average summer surface seawater temperature). The increase of both seawater temperature and the exposure time had a significant negative influence on the viability of the vegetative fragments and on germination capacity. After exposure to seawater, Convolvulus persicus, and Silene thymifolia are able to establish new populations through vegetative fragments or seeds, whilst in case of Alyssum borzaeanum, no vegetative regeneration was observed
Effects of farmyard manure and chemical fertilizer application rates on soil biology, cotton and fiber yield
Organic and inorganic fertilizers have significant effect on plant physiology, yield per unit area, available plant nutrient contents and extracellular enzyme activities of soils. This study was carried out in field conditions in arid and semi-arid regions between 2020-2021 years, May 01. The effects of farmyard manure (FM) (20, 40, 60 Mg ha-1) and chemical (CF) (350 kg urea ha-1, 100, 200, 300 kg DAP ha-1) fertilizers applied at different rates on plant nutrient (N, P, K, Ca, Mg, Fe, Cu, Zn and Mn) contents, SPAD value and NDVI of cotton plants, seed cotton yield and soil enzymes (urease, catalase, dehydrogenase, alkaline phosphatase) were investigated. The results showed that FM applications significantly (p<0.01) increased the plant macro and micronutrients compared to CF applications, except for N (200 + 150 kg urea ha-1), Zn and Cu (300 kg DAP + 200 + 150 kg urea ha-1) in the 2021 cotton growing season. Mineralization of FM is slow under natural conditions; therefore, the use of FM alone is not sufficient to meet the nutrient needs of high yielding varieties. Urease and dehydrogenase activities increased significantly in FM treated soils compared to CF, while no significant (p<0.01) increase was recorded in alkaline phosphatase and catalase activities. Farmyard manure is a useful management practice for increasing soil biological activity. Physiological parameters of NDVI, SPAD and seed cotton yield significantly increased in FM treated soils compared to CF applications. The increase in cotton yield was 29.15%, in NDVI value was 22.38% and in SPAD value was 121.7%. The main issues with cotton in the area are the low organic carbon content of the soils, high clay content, arid and semi-arid soils, and their detrimental impact on the uptake of particular nutrients (N, P and B)
Eremostachys laevigata Bunge responses to different extraction solvents and methods: physiological, biochemical, and antibacterial attributes
This study examined the biochemical composition of Eremostachys laevigata Bunge's aerial and underground organs using various solvents (methanol, water, N-hexane, chloroform, and acetone) and their impact on antibacterial activity against eight bacterial strains (Escherichia coli, Staphylococcus aureus, Salmonella enterica, Pseudomonas aeruginosa, Klebsiella pneumoniae, Shigella dysenteriae, Proteus mirabilis, and Bacillus cereus). Soxhlet and maceration extraction methods were used, and the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) were determined using the tube dilution method. The study found that N-Hexane and water solvents had the highest total phenol content, while methanol, acetone, and chloroform had the lowest. Additionally, N-Hexane and methanol solvents showed the highest and lowest flavonoid content, respectively. The methanol extract from underground organs using the Soxhlet method exhibited the strongest antibacterial activity, whereas the acetone extract showed the weakest antimicrobial effect. Staphylococcus aureus displayed both the MIC and MBC, and Salmonella enterica showed the highest susceptibility to the well diffusion method, while both Escherichia coli and Staphylococcus aureus were highly susceptible to the disk diffusion method. The underground organs contained 6.87 mg.g-1 of phenolic compounds and 0.19 mg.g-1 of flavonoids. Two iridoid glycosides, pholoyoside and sesamoside, were separated from the methanol extract of the underground organs using reversed-phase HPLC. The research highlights E. laevigata Bunge's potential as a natural reservoir of antimicrobial compounds, with phenolic and flavonoid compounds, along with iridoid glycosides, presumed to contribute to its antibacterial properties
Reaction of some hollow stem bread and durum wheat cultivars to wheat stem sawfly (Cephus pygmaeus L., Hymenoptera: Cephidae) infestation in Southeastern Anatolia
Wheat stem saw fly (WSS) (Cephus pygmaeus L.) is a notorious pest causing significant yield reductions in wheat crop. The use of tolerant cultivars is the most important management tactic against WSS. However, the reactions of frequently cultivated hollow-stemmed bread (Triticum aestivum L.) and durum (Triticum durum Desf.) wheat cultivars to WSS in southeastern Anatolia region of Türkiye are unknown. This study investigated the reactions of hollow-stemmed bread and durum wheat cultivars (twelve each) to WSS in Diyarbakir and Adiyaman provinces in southeastern Anatolia region during 2021-22. The cultivars were tested under field conditions and data relating to number of infested stalks (NIS), infestation ratio (IR), stalk wall thickness (SWT), spike length (SL), number of grains spike-1 (NGS), grain weight spike-1 (GWS), grain yield (GY) and grain yield loss were recorded. The tested wheat cultivars significantly differed for the NIS and GY at both locations. Similarly, SWT, NGS, SL, and GWS significantly differed among cultivars and higher values of these traits were recorded for healthy stalks than infested stalks. Overall, bread wheat cultivars i.e., ‘Kale’ (7127 and 5642 kg ha-1), ‘Dinç’ (6788 and 5628 kg ha-1 and ‘Hazar’ (6249 and 5821 kg ha-1) and durum wheat cultivars i.e., ‘Zühre’ (6261 and 5272 kg ha-1) and ‘Hasanbey’ (6038 and 5141 kg ha-1) with higher SWT recorded the highest grain yield at Diyarbakir and Adiyaman locations. Yield losses varied from 2.5% to 5.3% for bread wheat and 1.57% to 8.39% for durum wheat cultivars at Adiyaman and Diyarbakir, respectively. It is recommended that wheat cultivars with high GY and SWT should be planted to lower WSS infestation and yield losses in the region and breeding solid stem cultivars
How the application of supporting substances affects the formation of fertile embryos of crossbred cherries and its germination
The seeds of early ripening cherry cultivars are generally of poor quality, thereby adversely affect the success of the entire breeding process. The current study aimed to examine the application of supporting substances, such as brown algae extract (ALGA), humic and fulvic acids + IAA (LEXIN), and gibberellic acid (GA3), in the blooming and ripening of fruits. Successively, the same substances were applied to seeds within laboratory conditions, to enhance the quality of cherry embryos and promote their germination. For comparison, two cultivars, an early one ‘Burlat’ and late ‘HL 13577’ were used in a multi-year trial. The application of GA3 at the time of blooming in the ‘Burlat’ cultivar had a positive effect on increasing the share of harvested fruits (31.6%), reduction of the share of bad seeds (17.7%) and improving seed germination (21.9%), compared to the untreated control. Cultivar ‘HL 13577’ had 16.6% of developed fruits, 15.0% share of bad seeds and seed germination 9.8%. No remarkable increase in germination was observed in any tested variants after the secondary application of preparations in the laboratory. The impact of the year was most explicit in the proportionality of developed fruits, while its effect on seed germination post-treatment remained uncertain. On the contrary, the treatment exhibited a greater effect on germination testing. Based on these findings, we conclude that direct application of GA3 to the trees (from blooming to fruit harvesting) in the orchard was beneficial. However, the other substances tested did not produce positive effects on the parameters
Effect of harvesting time on biomass and combustion quality of Miscanthus lutarioriparius in Dongting lake area
Biomass energy, recognized for its potential to supplant traditional energy sources, finds a promising alternative in Miscanthus. Particularly, M. lutarioriparius, a species within the Miscanthus genus, stands out as the most suitable for application. This study focuses on the impact of harvest timing on the biomass and combustion quality of M. lutarioriparius in the coastal wetlands of Dongting Lake, Hunan. A comprehensive field experiment was conducted in this area. The findings reveal several key trends: Firstly, the biomass yield of M. lutarioriparius decreased from 18.42 tons per hectare to 11.25 tons per hectare with the delayed harvest. there is a notable increase in the stem-to-leaf ratio of M. lutarioriparius, primarily attributed to leaf shedding. Secondly, the water content had dropped to 22.33% by the time of harvest in February of the following year. Ash content decreased from 4.55% to 2.17% from October to February of the following year. The calorific value, cellulose and lignin content increased with delayed harvest, while hemicellulose content decreased. Notably, the calorific value exhibits a significant positive correlation with cellulose and lignin content, and a markedly negative correlation with hemicellulose. Thirdly, most mineral elements in the plant demonstrate a significant decrease with delayed harvesting, except for potassium (K) and calcium (Ca), which initially increase and then decrease. The ash content shows a positive correlation with the contents of potassium (K) and silicon (Si). Despite a reduction in biomass yield due to delayed harvesting, combustion quality significantly improves. Therefore, it is concluded that optimal fuel quality is achieved when M. lutarioriparius is harvested in February of the following year
Efficacy of different bioagents in suppressing Meloidogyne incognita, and evaluation of some physio-biochemical changes in Phaseolus vulgaris L.
Plant parasitic nematodes cause severe damage, reducing plant production. The ability of four various biocontrol agents was surveyed for effectiveness in inhibiting J2 of Meloidogyne incognita in vitro. The study aims to explore the impact of different bio-agents (Bacillus cereus 54-1, Streptomyces erythrogriesus sub sp. 2, Pleurotus ostreatus, and Spirulina platensis) on the root-knot-nematode, M. incognita reproduction, and their influence on plant growth as well as physiological and biochemical parameters in Phaseolus vulgaris L. plants under greenhouse conditions. Effective inoculation of four bio-control agents on growth and physio-biochemical parameters of bean plants infected with root-knot-nematode was also investigated. After 48 hours of exposure to bioagents, mortality was caused by M. incognita J2s. Mortality ranged between 67.3 and 89%. Under experimental conditions, further validating the relative efficacy of different bioagents in control M. incognita on common bean in two successive seasons. All pageants were efficient in preventing nematode reproduction, but with varying efficacy. Oxamyl (Nematicide) was an extremely effective treatment for suppressing total nematode populations. Nevertheless, the second most effective treatment for reducing M. incognita in roots and soil was B. cereus. All treatments significantly enhanced growth as compared to the control. Treatments with four bioagents significantly reduced H2O2 and malondialdehyde levels. While it significantly raised the activity of peroxidase, polyphenol-oxidase, and superoxide dismutase, in addition to raising the content of phenolics and flavonoids in the infected common bean. The tested bioagents were efficient in preventing nematode reproduction, but at various levels of efficacy. In addition, all treatments significantly enhanced common bean growth parameters and reduced the levels of both H2O2 and MDA. While it raised the activity of POD, PPO, SOD, and contents of phenolics and flavonoids in the infected common bean. These results highlight the value of bioagents as a promising biocontrol technique to manage root-knot-nematodes in common beans
Seed priming methods tested on Salvia officinalis L. germination according to BBCH scale
Seed dormancy is a major impediment for the production of Salvia officinalis L. (sage) seedlings. This study aims to test seed priming methods to break the dormancy of sage seeds in controlled conditions. Seeds were subjected to four treatments respectively hydropriming, magneto-priming, electro-priming and control with no seed priming techniques. During germination development stage all parameters were registered according to BBCH (Biologische Bundesanstalt, Bundessortenamt und CHemische Industrie) standardized scale. Daily assessments were made, germination indices were calculated, new germination secondary stages were observed and described, and daily range for each secondary stage were obtained. All priming methods had different effect on sage seeds. The hydropriming treatment was the most effective with 70% seeds germinated in 10 days. Sage seeds from magneto-priming determine more than 50% seeds to germinate in only 8 days. Control and electropriming treatment showed a similar value of seed germination, set around 64-65%. In control, electro- and hydropriming treatments are necessary 6 days for the achievement of more than 50% seed germination, while for magneto-priming are necessary 8 days. Hydropriming has the highest germination index, significantly higher than control and magneto-priming. During the germination, hydropriming shows a gradual transition of seeds from one BBCH sub-stage to another, while electro- and magneto-priming induce a heterogenous variation through the entire process. Overall, the hydropriming treatment registered better results of sage germination compared to the control treatment