Duranta Repens Research Articles

The balance between alleviating copper damage and maintaining root function during root pruning with excessive copper.

Coating high concentrations of copper (Cu) on the inner wall of containers can efficiently inhibit root entanglement of container-grown seedlings. However, how the protective and defensive responses of roots maintain root structure and function during Cu-root pruning is still unclear. Here, Duranta erecta seedlings were planted in the containers coated with 40 (T1), 80 (T2), 100 (T3), 120 (T4), 140 (T5), and 160 (T6) g L-1 Cu(OH)2 with containers without Cu(OH)2 as the control. Although T5 and T6 produced the best inhibitory effect on root entanglement, root anatomy structure was damaged. T1 and T2 not only failed to completely control root circling, but also led to decreased root activity and stunted growth. Cu(OH)2 treatments significantly increased lignin concentration of roots with the highest values at T3 and T4. Compared with T3, seedlings at T4 had higher height, biomass, and root activity and no significant root entanglement. Excessive Cu accumulation in Cu(OH)2 treatments changed the absorption of other mineral nutrients and their allocation in the roots, stems, and leaves. Overall, Ca was decreased while Mg, Mn, Fe, and K were increased, especially K and Mn at T4 which is related to defense capacity. The results indicate that there is a Cu threshold to balance root entanglement control, defense capacity, and nutrient uptake function under excessive Cu for container-grown D. erecta seedlings.

Phytoremediation potential of Duranta erecta in cascade hydroponics for effective domestic wastewater treatment

Discharging untreated wastewater into natural water systems poses significant risks to public health, economies, and ecological stability worldwide. This study addresses these effects by investigating the phytoremediation potential of Duranta Erecta in cascade hydroponics for treating domestic wastewater. It centers on the removal of dissolved and suspended solids as well as organic matter, representing a groundbreaking effort in this domain. It involved two experimental setups: one integrating Duranta Erecta with media (gravel (EXU-1) and polyester sponge (EXU-2)), and a control setup ((gravel (COU-1) and polyester sponge (COU-2))) using only media. Each configuration consisted of three bioreactors designed to treat wastewater from Kilinto prison camp. Four hydraulic retention times (HRTs) were tested, with the 7-day HRT emerging as the most effective compared to the 1, 3, and 5-day intervals. At the 7-day HRT, experimental units one and two demonstrated substantial reductions in pollutants: suspended solids (96.50 % & 89.3 %), turbidity (94.3 % & 87.2 %), dissolved solids (49.5 % & 45.15 %), biological oxygen demand (94.57 % & 89.78 %), and chemical oxygen demand (95.44 % & 90.65 %). Statistical analysis confirmed these reductions as statistically significant (P < 0.05). These findings highlight Duranta Erecta cascade hydroponics as a promising decentralized wastewater treatment technology, particularly suitable for developing countries like Ethiopia.

Additional data on the ongoing naturalization of the non-native woody plant Duranta erecta ( Verbenaceae) in Sicily, Italy

We recorded the occurrence of Duranta erecta L. in the Aeolian Islands (Sicily, Italy), where it currently behaves as a casual alien. At the global scale, however, this woody species has shown highly invasive behaviour in different island ecosystems. On the basis of this evidence, we have investigated which ecological and biological traits may have allowed its establishment and spread, and could trigger its further expansion in the Aeolian Islands in the near future. Several factors seem to have favoured its success on a global scale, such as the wide edaphic and climatic range, the tolerance to anthropogenic disturbance, and the production of toxic metabolites that protect it from herbivore browsing and from competition with other plants. The study of the organisms that perform pollination and seed dispersal is probably the key to understanding the local naturalization of this plant, introduced about three centuries ago in Europe and the Mediterranean, here discussed in detail for the first time.

Correction: Molecular characterization of a bipartite begomovirus associated with leaf crinkle and curling symptoms of Duranta erecta in India

Correction: Molecular characterization of a bipartite begomovirus associated with leaf crinkle and curling symptoms of Duranta erecta in India

Phyto-extraction Potential of Duranta erecta's Against Heavy Metal Assisting by EDTA and Citric Acid for Mitigating Industrial Polluted Soil

Phyto-extraction Potential of Duranta erecta's Against Heavy Metal Assisting by EDTA and Citric Acid for Mitigating Industrial Polluted Soil

Bioprospecting of Indigenous Microbial Species for Bioethanol Production from the Fruits of Some Selected Exotic Ornamental Plants

The study determined the ability of some selected indigenous microbial isolates, namely Bacillus subtilis, Zymomonas mobilis and Saccharomyces cerevisiae, in the production of bioethanol from the fruits of some exotic plants (i.e. Ixora coccinea, Duranta repens and Syzygium guineense). B. subtilis was isolated from soil, while Z. mobilis and S. cerevisiae were isolated from palm wine using cultural methods. The organisms were identified based on their colony characteristics and morphological features, which were observed by microscopic examination of the stained smears of the isolates. The identity of the organisms was confirmed through the molecular study of the 16S rRNA and 18S rRNA regions of the microbial genomes using Polymerase Chain Reaction – Denaturing Gradient Gel Electrophoresis (PCR - DGGE). The fruit samples were collected, washed, blended, filtered using a clean piece of cloth and pretreated using ultrasonication and autoclave. Concentrations of reducing sugars in the fruit filtrates were determined using DNSA-UV-visible spectrophotometry. Seven (7) conical flasks (500ml capacity) were arranged for each fruit sample in duplicate, and 250ml of the fruit filtrates were dispensed in the flasks accordingly. The fermenting organisms were inoculated in the flasks containing the fruit filtrates singly and in combination. Flasks were incubated in shaking incubator for seven days at 35oC. After incubation, the concentrations of bioethanol produced were determined using the UV-visible spectrophotometry. Highest reducing sugars concentrations of 43.7% and 43.6% were found in I. coccinea and S. guineense, respectively, while 36.4% was recorded for D. repens. Highest bioethanol yield of 27.5m/L was found in I. coccinea fermented by S. cerevisiae and Z. mobilis, while the lowest yield of 17.25m/L was found D. repens. The yield in bioethanol production was higher in samples containing a combination of fermenting organisms compared to ones with individual cells. It was recommended that the fruits of these exotic plants should be considered for commercial production of bioethanol.

Exploring the micromorphological diversity of palynomorphic flora from lesser Himalaya biodiversity hotspot

Palynology, a prominent field in plant systematics and biodiversity studies, plays a vital role in identifying and determining the plant species present in a specific region. The current study was performed to evaluate the micromorphological traits of pollen from flora of Lesser Himalaya. Pollen microstructural variations aid in the identification of species belonging to specific botanical families and various geographic habitats. Flowers of 24 selected species categorized into 16 families were collected, preserved and then acetolysis protocol followed. Pollen was examined under a light and scanning microscopy (LM and SEM) for palynomorph description. The palynomorphs characteristics such as size, shape, exine surface, and aperture orientation, were examined. Status of these plants show that herbs are being dominant (11 species), while shrubs (7 species), climbers (3 species), bulbous plants (2 species), small tree, sedge, weed (1 species each). Pollen shape determined in equatorial view were; spheroidal, sub-prolate, oblate-spheroidal, prolate, spherical and sub-oblate. The variations were seen among pollen types; tricolpate, tricolporate and polyporate in most of the species. Exine stratification was observed mostly scabrate while echinate, cristate-reticulate, granulate, punctate, rugulate-perforate, striate-rugulate, verrucate, cristate-foveolate was visualized in each different species. Palynomorph apertural patterns were observed sunken, furrowed, slightly bulged, scabrate, granulate, slit like, and perforate. The largest polar diameter was measured in Hymenocallis littoralis (138.6 µm) whereas smallest in Parthenium hysterophorus (14.70 µm). Equatorial distance was calculated maximum for Cascabela thevetia (110.1 µm) and minimum for Hibiscus rosa-sinensis (1.7 µm). P/E ratio was calculated largest in Hymenocallis littoralis (1.8) and lowest in Duranta erecta (0.89). The palynomorphs taxonomic characters investigated can be helpful in species level identification and provide a baseline to conduct more systematic research with respect to specific plant families and genera.

Performance of pilot-scale gravel and sponge bed hydroponic systems vegetated with Duranta erecta treating wastewater in a developing country, Ethiopia, Africa

This study aimed to assess the performance of hydroponics vegetated with Duranta erecta in removing nutrients from domestic wastewater in a pilot-scale study. Domestic wastewater was fed to four lines of hydroponic-constructed filter systems (HCFS). The lines 1 and 3 were filled with gravel, but the lines 2 and 4 were filled with polyester sponges. The experimental biofilters (lines 1 and 2) were planted with Duranta erecta, and the control biofilters (lines 3 and 4) were unplanted. This experiment was operated at hydraulic retention times (HRT) of 1, 3, 5, and 7 days which were conducted sequentially. Results indicated that the planted biofilters in gravel media removed nutrients better than the other planted biofilters in sponge media. Better removal efficiencies of 55 and 47% for total nitrogen (TN) and of 32 and 26% for total phosphorus (TP) removal by planted and control lines, respectively, were obtained at 7 days HRT. At the end of the experiment, TN and TP accumulation in the plant biomass sample increased from 132 to 216 g TN/Kg of dry weight, and from 53to 86 g TP/Kg of dry weight, respectively at 7 days HRT. Hence, it can be concluded that nature-based hydroponic filters planted with Duranta erecta might have a promising potential, mainly with gravel media. HCFS represents a very welcome technology to treat domestic wastewater at a decentralized level in developing countries, including Ethiopia.

Molecular characterization of a bipartite begomovirus associated with leaf crinkle and curling symptoms of Duranta erecta in India

Molecular characterization of a bipartite begomovirus associated with leaf crinkle and curling symptoms of Duranta erecta in India

A poda pode aumentar o efeito alelopático? Um estudo com pingo-de-ouro

Abstract Golden-Dewdrop (Duranta erecta L.), known for its landscaping applications, undergoes successive pruning to maintain its ornamental structure, a practice known to induce numerous physiological and chemical responses in the plant. Therefore, this study aimed to evaluate the influence of pruning and different extraction methods on the allelopathic potential of Golden-Dewdrop on the germination and initial growth of lettuce. Leaf extracts were obtained by decoction (hot) and maceration (cold) at concentrations of 20%, 40%, 60%, 80%, and 100%, with distilled water as a negative control. Phytochemical screening of the extracts was performed for phenolic compounds, flavonoids, anthocyanidins, tannins, cardioactive heterosides, saponins, alkaloids, and terpenes. For the bioassay, germinative and morphological parameters were measured and characterized. The data were subjected to analysis of variance (ANOVA), and for quantitative data, regression models were adjusted, while for qualitative data, means were compared using the Scott-Knott test with 5% significance. Significant differences were observed between extraction methods and management practices, with the hot aqueous extract from pruned plants significantly reducing germination at higher concentrations. The initial growth of lettuce was severely affected, presenting numerous morphological abnormalities, with severe damage to the root system at all concentrations. This study suggests that pruning practices have a modulating effect on the allelopathic activity of Golden-Dewdrop, providing valuable information for landscaping projects and botanical studies considering its evaluation and production of phytotoxic phytochemicals.

A comprehensive review on formulation and evaluation of mosquitocidal gel from Duranta erecta

A comprehensive review on formulation and evaluation of mosquitocidal gel from Duranta erecta

Root activity, copper distribution, and leaf physiology of golden dewdrop (Duranta erecta) under different concentrations of Cu2+ in a hydroponic culture experiment

Copper (Cu), as an essential microelement for plant growth, may have impacts on root activity and function under excessive conditions, thereby affecting the physiology and growth of plants. One-year-old golden dewdrop (Duranta erecta) cuttings were treated with six Cu2+ levels of 0.2, 2.0, 20.0, 200.0, and 2000.0 mmol L−1 for 7, 21, and 35 days by hydroponic culture with 0.0 mmol L−1 as the control. The obvious negative effects of 200.0 and 2000.0 mmol L−1 Cu2+ on the aboveground and belowground parts of D. erecta were observed after 35 days of treatment. The root activity at 20.0, 200.0, and 2000.0 mmol L−1 Cu2+ was 16%, 21%, and 22% lower than the control, while no significant difference between 2.0 mmol L−1 Cu2+ and the control. The net photosynthetic rate and transpiration rate showed a decreasing trend with treatment time when Cu2+ concentration was higher than 20.0 mmol L−1. The chlorophyll contents, leaf circumference, and leaf area at 2.0 mmol L−1 Cu2+ were significantly higher than the control and other Cu2+ treatments. The Cu concentration of roots, stems, and leaves at 2000.0 mmol L−1 Cu2+ was 22.9, 3.3, and 2.7 times higher than the control. Our results indicate that 2000.0 mmol L−1 Cu2+ destroyed the root function, causing excessive Cu accumulation in the roots, stems and leaves, consequently decreasing plant physiology and growth. Based on the short-term results, 2.0 mmol L−1 Cu2+ was the suitable concentration for D. erecta in hydroponic culture.

Phytochemical characterization and bioherbicide potential of Duranta erecta L.

Phytochemical characterization and bioherbicide potential of Duranta erecta L.

Identification of natural dyes with halochromic properties and their potential use as food spoilage indicators

Purpose The purpose of this research is to identify and investigate some natural dyes with halochromic properties for potential use as food spoilage indicators to reduce waste and curve the negative effects of food borne diseases. Design/methodology/approach Exactly 10 potential dye-yielding plants were selected based on their colour (mostly purple, red, maroon and pink). Solvent extraction was used to extract the dyes and pH differential method was used to determine the concentrations of anthocyanin in the extracted dyes. Different concentrations of hydrochloric acid and sodium hydroxide (0.1 M, 1 M and 2 M) in drops and in excess as acidic and basic solution, respectively, were used to test the halochromicity of the extracted dyes. Methyl red (a synthetic dye) was used as a reference standard/control. The pH of the dyes was recorded before and after addition of both NaOH and HCl solutions. Findings Five out of the 10 dyes extracted (labelled as dye A–E for Ti plant (green Cordyline fruticosa), coleus (Coleus blumei), paper flower (Bougainvillea glabra), painted nettle (Palisandra coleus) and purple heart (Setcresea purpurea), respectively, were found to be halochromic (even at low doses) by changing its colour when exposed to both acidic and basic solutions. While other dyes labelled F–J for red acalypha (Acalypha wilkesiana), golden shower (Cassia fistula), golden dew drop (Duranta repens), wild sage (Lantana camara var Aculeata) and pink oleander (Apocynaceae Nerium oleander), respectively, were either completely insensitive to the solutions in drops, slightly sensitive at high doses or the colour change is insignificant. Although some dyes were found to be more sensitive than others but in most cases, the colour changes in halochromic dyes were more stable in acidic conditions than in basic making it more sensitive to the basic than the acidic solution with the exception of dye A and E (to some extent) which was sensitive to both acidic and basic solution. The anthocyanin contents of dye A–J were found to be between the range of 2.28–10.35 mg/l with dye E having the lowest and dye J with the highest anthocyanin concentration, respectively. The initial pH of all the dyes falls within the range of 4.8–7.3 with most found within the acidic range. Originality/value Halochromic dye research studies are still at the infancy stage in developing world despite the vast available and abundant potential natural halochromic dye-yielding plants. The study explored this area of research and gives an opportunity for the development of smart packaging for pH-sensitive foods using natural dyes as an alternative to conventional synthetic dyes to reduce cost and also curve the negative effect of synthetic dyes as well as food borne diseases.

Antiproliferative Effect of Methanolic and Aqueous Extract of Duranta erecta in C127I Cell Line

Antiproliferative Effect of Methanolic and Aqueous Extract of Duranta erecta in C127I Cell Line

ORNAMENTAL PLANTS FOR ENVIRONMENTAL MANAGEMENT AT ROADSIDES IN KATHMANDU VALLEY, NEPAL

Plant species growing along roadsides in Kathmandu gives the development which is necessities of the good environment. This study determines plantation, coverage, leaves condition of important ornamental species at different sites of Kathmandu. Many Plant species are growing and applicable for bio-indicator and maintaining greenery. Bougainvillea glabra, Callistemon citrinus, Duranta erecta, Euphorbia pulcherrima, Jasminum mesnyi, Lagerstroemia indica, Malvaviscus penduliflorus, Nerium oleander and Rose indica are documented. The heavily polluted sites shows dominance of C. citrinus 73.33±2.08 and N. oleander has 73.7±1.6. The coverage of C. citrinus, D. erecta, J. mesnyi, L. indica and N. oleander has been observed as excellent along the roadside. However B. glabra, E. pulcherrima, M. penduliflorus and R. indica are seen at some places. These trees have the capacity to absorb carbon dioxide and reduce pollution levels. The study sites are heavily, moderately and less polluted sites. Plants in the period of study (2017 to 2022) from the observation and comparison are in further development. Elements analysis of soil and leaves are from ICP-OES (Inductively coupled plasma-optical emission spectrometry) were done. Subsequently, following elements Aluminium, Barilium, Cadmium, Cobalt, Chromium, Copper, Iron, Manganese, Nickel, Lead, Vanidium and Zinc were determined. The dust deposition on plants, chlorophyll content and anatomy of N. oleander was with less deposition of dust and chlorophyll values is increased (0.001547±0.000788 and 2.397±0.299). The stomata and stomatal index of C. citrinus are calculated (33.607± 4.509 and 15.699± 0.898). Evergreen and broad leaf trees have advantageous in environment. The summer in Kathmandu is gorgeous with L. indica flowers while flowers of C. citrinus and N. oleander observed in all seasons of the year. The success programs are recommended from the authority that is evaluated and continued for long term benefit.

Morphometric Studies of Accessions of Duranta erecta L. (Vebernaceae) Complex in Nigeria

Studies were conducted to broaden the systematic knowledge of the genus Duranta erecta L., to contribute a better understanding of their taxonomic and evolutionary relationships. Previous studies have pointed out complexity in the taxonomy and nomenclature of the species. A total of 224 samples were collected from six geo-political zones of Nigeria, and were grouped into 38 accessions. The plants were compared using 21 morphological characters involving qualitative and quantitative characteristics. Multivariate analyses such as Principal Component Analysis (PCA) and Cluster Analysis (CA) were employed to evaluate the intraspecific variabilities. The results showed that all the plants exhibited significant differences in all the quantitative attributes with the variegated type having the longest and widest leaves ranging from 12.20 cm and 5.08 cm, respectively. The qualitative characters delimited the plants accessions into distinctive groups of eight morphological forms namely; green bush, yellow bush, variegated yellow, variegated white, variegated yellow double, plain yellow, broad green, thorny green type. The PCA showed that leaf length, leaf width, internode length and length of inflorescence were some of the quantitative characters while leaf shape, leaf colour, leaf margin, flower colour and leaf apex are some of the qualitative traits that accounted for the delimitation. Unpaired Weighted Group Multivariate Analysis (UPGMA) using the Euclidian separated the 38 accessions into two major clusters; cluster I (flower producing) and cluster II (non-flower producing) Duranta erecta. Morphological variations and field observations suggested that there could be gene flow among the accessions of Duranta erecta studied and gene flow is an important factor in population genetics, shaping the diversity of species.

Growth characteristics and post trimming regrowth potential of tropical and sub-tropical landscape hedge plants in response to spacing

Spacing of landscape plants is one of the factors determining the outcome of a design in terms of canopy formation which is one of the variables for aesthetic appearance in terms of shapes and forms. This study was conducted between September 2016 and September 2017, to determine the appropriate intra-row spacing for five plant species in hedge formation. The plant species used were Duranta erecta, Hamelia patens, Ficus retusa, Buxus sempervirens and Acalypha wilkesiana. Transplanting was done at intra-row spacing of 30, 40, 50 and 60cm and a constant inter-row spacing of 100cm. The experiment was a Randomized Complete Block Design in split plot arrangement with three replicates. Plant height, number of leaves, number of branches and canopy space, as indices of species suitability for use as hedge, were measured fortnightly. Plant regrowth and aesthetic characteristics were assessed after periodic trimming. H. patens and B. sempervirens species had the tallest plants. B. sempervirens and D. erecta produced the highest number of leaves while D. erecta and H. patens had the highest number of branches. D. erecta had significantly (p&lt;0.05) the fastest post-trimming shoot regrowth rate relative to other species following the 1st and 2nd trimming (25 and 28 WAT respectively). The effect of spacing on shoot regrowth length was significant after the 3rd, 4th and 5th trimmings (31, 34 and 37 WAT respectively). The highest shoot regrowth height was recorded at 40cm spacing followed by 30cm intra row spacing. All species responded best at 50cm intra-row spacing for the number of branches and canopy space as well as early hedge formation. The study concluded that B. sempervirens was suitable for ideal hedging at 40cm intra-row spacing while A. wilkiesiana and H. patens were only suitable as informal hedges. Hence, B. sempervirens species is recommended as the ideal hedge plant choice based on its early regrowth after trimming, high leaf and branch production as well as overall speed in hedge formation at 31WAT.

Green synthesis of iron oxide nanobiocomposite for the adsorptive removal of heavy metals from the drinking water

The current study aimed to synthesize and characterize the Duranta erecta leaves extract-based iron oxide nanoparticles (D-Fe3O4-NPs) and chitosan biopolymer-based nanocomposites (D-Fe3O4-NC). The synthesized D-Fe3O4-NC was applied for the adsorptive removal of cadmium (Cd), chromium (Cr), and lead (Pb) from water. The nanostructure, porous, rough, crystalline structure, and different functional groups of chitosan and D-Fe3O4-NPs in D-Fe3O4-NC showed that the D-Fe3O4-NC is feasible for suitable adsorbents for quantitative removal of Cd, Cr, and Pb. Based on the batch experiments, the influences of pH, adsorption time, contents of Cd, Cr, and Pb in solution, and temperature were successfully optimized. The adsorption capacities of D-Fe3O4-NC for Cd, Cr, and Pb were observed at 74.4, 76.0, and 75.2 mg g−1, respectively. The adsorption isotherms fitted the Freundlich Model equation well, and the adsorption kinetics followed pseudo-second-order kinetics for the adsorption of these toxic metals. D-Fe3O4-NC showed an excellent recyclable efficiency up to multiple analyses (n = 20). The D-Fe3O4-NC was an excellent adsorbent for removing toxic metals from municipal and hand pump water samples (% removal >93%). Therefore, the proposed D-Fe3O4-NC is the most efficient and selective adsorbent for removing Cd, Cr, and Pb from drinking water up to recommended permissible limit.

The Efficiency of The Foliar Application Using Silica and Silver Nanoparticles on Duranta erecta under Salinity Conditions

The Efficiency of The Foliar Application Using Silica and Silver Nanoparticles on Duranta erecta under Salinity Conditions