Your search keyword '"giant reed"' showing total 1,365 results

1. Seasonal Harvesting Impact on Biomass Fuel Properties and Pyrolysis‐Derived Bio‐Oil Organic Phase Composition.

Author

Shezi, Manqoba, Kiambi, Sammy Lewis, and Isa, Yusuf Makarfi

Subjects

*ATMOSPHERIC carbon dioxide, *GIANT reed, *FOURIER transform infrared spectroscopy, *TUBULAR reactors, *SPRING

Abstract

Thermochemical conversion of giant reed biomass during periodic variations has been carried out in a semi‐batch tubular reactor at 550°C. This study was carried out after the incineration of giant reed along the river banks. Four periodic variations, late spring (HS‐4), late summer (HS‐1), late autumn (HS‐2), and late winter (HS‐3) were considered to investigate the effect of harvest time on biomass fuel properties, pyrolysis product distribution, non‐condensable gas characterization, and bio‐oil organic phase (BOP) fuel properties. The considered biomasses herein had average calorific values of 18.86 ± 0.05, 19.73 ± 0.05, 19.23 ± 0.04, and 18.44 ± 0.04 MJ/kg during HS‐1, HS‐2, HS‐3, and HS‐4, respectively. The biomass, bio‐oil organic phase, biochar, and pyrolysis gas were characterized using thermogravimetric analysis (TGA), gas chromatography–mass spectroscopy (GCMS), Fourier transform infrared spectroscopy (FTIR), micro‐GC, and scanning electron microscopy (SEM/EDS). The organic phase of bio‐oil was isolated using a 125 mL separating funnel, allowing natural stratification of the immiscible phases. BOP yield increased from 5 to 11 wt% during HS‐4 and HS‐3, respectively. Higher heating values (HHV) of the BOP ranged from 19.4 ± 0.03 to 22.6 ± 0.02 MJ/kg in relation to the active growth stage and senescence‐dormant phase. Physical and chemical properties (TAN, density, viscosity, water content, and CHNS) and chemical compound groups of organic phase bio‐oil were analyzed. The produced BOP was rich in phenolics for all considered periods. The effect of harvest time showed that biomass and bio‐oil organic phase fuel properties are improved during the senescence‐dormant period. As a result, giant reed biomass should be harvested during autumn to avoid incineration that releases carbon dioxide into the atmosphere and will also reduce the occurrence of artificial flooding. [ABSTRACT FROM AUTHOR]

Published

2024

2. Relationship Between the Shape of Giant Reed-Based Fillers and Thermal Properties of Polyethylene Composites: Structural Related Thermal Expansion and Diffusivity Studies.

Author

Barczewski, Mateusz, Suárez, Luis, Mietliński, Patryk, Kloziński, Arkadiusz, and Ortega, Zaida

Abstract

This paper describes the effect of two different fillers derived from giant reed (Arundo donax L.), namely fibers and shredded aerial parts of the plant, on the thermal properties of polyethylene-based composites, as the analysis of dimensional stability of lignocellulose-based composites, and its relationship with their thermal diffusivity, has not yet been assessed in the literature. It has been found that the introduction of such materials resulted in a significant reduction of the coefficient of thermal expansion, particularly more important in the case of fibers, due to their higher aspect ratio; in particular, this coefficient is reduced to less than half for fibrous composites (from 1.6·10− 4 K− 1 to 6.1·10− 5 K− 1 or 3.5·10− 5 K− 1 for 20 and 40% loadings). This parameter also influences the thermal diffusivity of the final parts; the diffusivity of composites increases with the ratio of lignocellulosic filler used, particularly when using fibers, due to a better orientation of these fibers than the shredded material, which does not exhibit a fibrous shape. Composites with 20% share of the filler exhibited a thermal diffusivity increased by about 15% compared to neat polyethylene, while 40% loadings resulted in a 25% and 60% increase for ground and fibrous materials, respectively. These results provide additional features to lignocellulose-composites characterization, providing properties not usually mentioned in the literature to expand the knowledge about such composite materials beyond mechanical properties, providing a broader range of properties to offer a wider application area of such composites. Statement of Novelty Arundo donax L. is of great interest to biorefineries due to its fast growth and resistance to adverse environmental conditions. Most research on this plant species focuses on obtaining energy products or valuable chemicals, while very few are related to composite production, particularly on thermoplastic materials. The work found in the literature so far does not provide insights into the relationships between the types of filler (and their aspect ratio) and their thermal properties. Therefore, this work expands the knowledge on the thermal behavior of lignocellulose-polymer composites, supplementing the research, usually focused only on mechanical properties, in their characterization by correlative analysis of thermal influenced dimensional change with structure and thermal diffusivity. Determining the coefficient of thermal expansion (CTE) is a relevant parameter to assess the possibilities of using a material at high or low temperatures and evaluate the dimensional stability of a product during its service lifetime. On the other hand, thermal diffusivity brings together the capacity of a material to store thermal energy and distribute it throughout the material; that is, it relates heat capacity and thermal conductivity, which are also essential in using materials in market applications. Therefore, the work not only provides the results of thermal diffusivity and CTE of thermoplastic-reed composites but also correlates both parameters as a way to widen the range of application of plant-based composites in areas where dimensional stability (i.e., low thermal expansion) is required. [ABSTRACT FROM AUTHOR]

Published

2024

3. Selective Extraction of Second-Generation Sugars by Sequential Acid and Alkali Pretreatment of Arundo donax for Xylitol and Ethanol Production by Candida tropicalis.

Author

Sidana, Arushdeep, Guleria, Payal, and Yadav, Sudesh Kumar

Abstract

Arundo donax is a suitable lignocellulosic feedstock for the production of bio-based chemicals due to its low economic value, rapid growth in low-nutrient soils, and rich structural composition. The present study aimed to selectively extract hemicellulosic and cellulosic sugars from A. donax biomass by using dilute acid and alkali pretreatment as well as utilize those sugars for biological production of xylitol and ethanol by Candida tropicalis. Dilute acid pretreatment with 1.5% sulphuric acid effectively released 22.14 g/L of xylose in the hydrolysate, while, 1 M sodium hydroxide treatment removed 77.9% of the total lignin present in the biomass. The crystallinity index of A. donax biomass was reduced from 65.89 to 61.39% after alkali pretreatment. Dilute acid hydrolysate was detoxified by activated charcoal treatment that completely removed 5-HMF, whereas, 92.5% and 18.99% removal of furfural and acetic acid was achieved. The maximum xylitol yield and volumetric productivity in A. donax hydrolysate were 0.54 g/g and 0.274 g/L/h, respectively after 96 h of incubation. In the parallel process, enzymatic hydrolysis of cellulose-rich fraction of A. donax resulted in a glucan conversion of 85.66%. Subsequent ethanol fermentation in A. donax saccharified broth by C. tropicalis produced a yield and productivity of 0.47 g/g and 0.63 g/L/h, respectively. The present study concludes that sequential dilute acid and alkali pretreatments of A. donax were efficient in extracting most of the xylose and glucose from the biomass. These pretreatment methods can be successfully employed for maximum utilization of this low-value biomass for biological production of value-added chemicals including ethanol and xylitol by C. tropicalis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Characteristics of Biochar Obtained by Pyrolysis of Residual Forest Biomass at Different Process Scales.

Author

Santos, Márcia, Morim, Ana Carolina, Videira, Mariana, Silva, Flávio, Matos, Manuel, and Tarelho, Luís A. C.

Subjects

*FOREST biomass, *GIANT reed, *BIOCHAR, *BATCH reactors, *CONTINUOUS processing

Abstract

In this work, the pyrolysis process and the characteristics of biochar produced using a bench-scale fixed-bed reactor and a prototype-scale auger reactor were studied. Residual forest biomass (RFB) from acacia, broom, gorse, and giant reed was used as feedstock. Besides information on pyrolysis characteristics of these specific biomass species from the Iberian Peninsula, new knowledge on the understanding of how results from small-scale reactors can be used to predict the behavior of higher-scale and continuous-operation reactors is offered. Batch pyrolysis was carried out using 40 g of biomass sample in a fixed-bed reactor with a heating rate of 20 °C∙min−1, pyrolysis temperature of 450 and 550 °C, and a residence time of 30 min, while for the continuous process it was used a prototype of an auger reactor with continuous operation with a biomass flow rate up to 1 kg/h, with temperatures of 450 and 550 °C, and a solids residence time of 5 min. The biochar yield was in the range of 0.26 to 0.36 kg/kg biomass dry basis, being similar for both types of reactors and slightly lower when using the auger reactor. The proximate analysis of the biochar shows volatile matter in the range 0.10 to 0.27 kg/kg biochar dry basis, fixed carbon in the range 0.65 to 0.84 kg/kg biochar dry basis, and ash in the range 0.04 to 0.08 kg/kg biochar dry basis. The carbon, oxygen, and hydrogen content of the biochar was in the range of 0.71 to 0.81, 0.09 to 0.22, and 0.02 to 0.03 kg/kg biochar dry basis, respectively. The results show that the up-scaling of the reactor and regime of operation does not have an important influence on the yield and characteristics of the biochar produced. The biochar obtained in the two types of reactors has characteristics appropriate for environmental applications, such as an additive to improve soil properties. It is possible to see that the characteristics of the biochar are influenced by the type of biomass and the conditions and parameters of the process; therefore, it is of major importance to control and know of these conditions, especially when considering upscaling scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

5. Insights on phytoremediation of chromium from tannery wastewater contaminated soil.

Author

Gebretekle, Brzaf Gebru, Teklu Gebretsadik, Tesfamariam, Mekonnen, Kebede Nigussie, and Asgedom, Abraha Gebrekidan

Subjects

*GIANT reed, *VETIVER, *SOIL pollution, *PLANT cells & tissues, *PHYTOREMEDIATION

Abstract

The study was conducted to evaluate the phytoremediation response of Arundo donax and vetiver grasses irrigated by different levels (0%, 10%, 25%, 50%, 75%, and 100%) of treated tannery wastewater. After 60 days, matured plants were harvested, sorted into root, leaf, stem and shoot, dried and digested using standard procedures and analyzed for Cr(VI) and total Cr using atomic absorption and UV-Visible spectrophotometer, respectively. Corresponding results revealed height growth of Arundo donax and vetiver grasses was greatly affected by the irrigation level of tannery wastewater. Roots of vetiver grasses accumulate the highest amount of Cr(VI) (2.76 mg/kg) compared to the shoots Cr(VI) 1.72 mg/kg. Lowering concentration of tannery wastewater used for irrigation to 10% boosted the accumulation capacity (3.99 mg/kg) of the root of Arundo donax grasses for Cr(VI). The translocation values (TF > 1) demonstrated favourability of Arundo donax grasses for phytoextraction of Cr(VI) to plant tissues above ground level. However, the bioaccumulation values (BAF > 1) of the root of vetiver grasses proved suitability for the phytostabilisation of Cr(VI). Arundo donax and vetiver grasses have demonstrated a substantial reduction in Cr contamination of soils from tanneries, and therefore, phytoremediation is potentially feasible for the decontamination of Cr-polluted environments. NOVELTY STATEMENT: The phytoremediation experiment was performed on the survival of the grass seedlings and suitability of the real tannery wastewater both treated and untreated at multiple concentrations to show how severe the pollution level besides presenting the data while most studies mainly focused on utilizing synthetic wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

6. Constructed Wetland as a Low-Energy Technique for Wastewater Treatment -- Seasonal Impact, Performance and Phytomanagement.

Author

Benbouzid, Maria, Al-Jadabi, Naif, Bensemlali, Meryem, El Hajjaji, Souad, and Labjar, Najoua

Subjects

CONSTRUCTED wetlands, SUMMER, SEWAGE, GIANT reed, WASTEWATER treatment, PHRAGMITES, TYPHA latifolia

Abstract

This work aims to study the seasonal impact on pollutant removal efficiency of constructed wetland (CW) units which treat domestic wastewater in the region of Rabat, Morocco. In this context, four vertical flow-constructed wetlands (VFCWs) were investigated for one year. Each CW unit has a surface area of 1m² and a depth of 60 cm. The difference between the units is the vegetation. The experiments are conducted on a laboratory scale and outdoors, to investigate also the direct effect of the climate. The purpose is to investigate the CWs performances with two different plant species (Phragmites Australis and Arundo Donax) and plant arrangements (mono-culture and poly-cultures). Since the region of Rabat has a semi-arid climate, plants behave during seasonal changes was explored. The elimination of organic matters showed a seasonal variation in the CW systems, with higher rates during the hot season and lower rates during the cold ones. Planted systems outperformed the unplanted system and the polyculture system was the most effective, reaching removal rates of 99.47%, 99.58%, and 85.64%, for, COD, BOD5, and TSS in the summer season where the temperature reaches its maximum promoting plant growth as well as microbial activity. Anyhow, results showed that the VFCWs used in this study are a successful technology for the region that is cost-effective and requires low energy. [ABSTRACT FROM AUTHOR]

Published

2024

7. Harnessing Lignocellulosic Crops for Phytomanagement of Contaminated Soils: A Multi-Country Study.

Author

Testa, Giorgio, Ciaramella, Barbara Rachele, Fernando, Ana Luisa, Kotoula, Danai, Scordia, Danilo, Gomes, Leandro Augusto, Cosentino, Salvatore Luciano, Alexopoulou, Efthymia, and Papazoglou, Eleni G.

Subjects

GIANT reed, PEARL millet, FARMS, SACCHARUM, HEAVY metals, SWITCHGRASS, SORGHUM

Abstract

The dwindling availability of agricultural land, caused by factors such as rapid population growth, urban expansion, and soil contamination, has significantly increased the pressure on food production. To address this challenge, cultivating non-food crops on contaminated land has emerged as a promising solution. This approach not only frees up fertile soil for food production but also mitigates human exposure to contaminants. This work aimed to examine the impact of soil contamination with Cd, Pb, Ni, and Zn on the growth, productivity, metal accumulation, and the tolerance of five lignocellulosic non-food crops: switchgrass (Panicum virgatum L.), biomass sorghum (Sorghum bicolor L. Moench), giant reed (Arundo donax L.), African fodder cane (Saccharum spontaneum L. spp. aegyptiacum Willd. Hackel), and miscanthus (Miscanthus × giganteus Greef et Deu.). A two-year pot experiment was conducted in Greece, Italy, and Portugal, following the same protocols and applying various levels of metals: Cd (0, 4, 8 mg kg−1), Pb and Zn (0, 450, 900 mg kg−1), and Ni (0, 110, 220 mg kg−1). The experimental design was completely randomized, with three replicates for each treatment. The results showed that switchgrass and sorghum generally maintained their height and productivity under Cd and Pb stress but were adversely affected by high Zn and Ni concentrations. Giant reed and African fodder cane showed reduced height and productivity at higher Ni and Zn levels. Miscanthus exhibited resilience in height but experienced productivity reductions only at the highest Zn concentration. Heavy metal uptake varied among crops, with switchgrass and sorghum showing high Cd and Pb uptake, while giant reed accumulated the most Cd and Zn. Miscanthus had the highest Ni accumulation. The tolerance indices indicated that switchgrass and sorghum were more tolerant to Cd and Zn at lower concentrations, whereas miscanthus had lower tolerance to Cd but a higher tolerance to Zn at higher concentrations. Giant reed and African fodder cane demonstrated stable tolerance across most heavy metals. Accumulation indices highlighted the effectiveness of switchgrass and sorghum in Cd and Pb uptake, while miscanthus excelled in Ni and Zn accumulation. The cluster analysis revealed similar responses to heavy metal stress between African fodder cane and giant reed, as well as between sorghum and miscanthus, with switchgrass displaying distinct behavior. Overall, the study highlights the differential tolerance and accumulation capacities of these crops, indicating the potential for phytoremediation applications and biomass production in heavy metal-contaminated soils. [ABSTRACT FROM AUTHOR]

Published

2024

8. A review on thermal characteristics of natural fibre.

Author

Raj, R. Ajay, Pragadeesh, A., Arun, S. M., and Naveenprabhu, V.

Subjects

*NATURAL fibers, *GIANT reed, *PINE cones, *IMPACT testing, *HYBRID electric cars

Abstract

This paper delves into the thermal characteristics of mixed organic fibre materials, providing professionals and researchers with crucial information to gain understanding of thermal management systems. The investigation focuses on natural fibres, including jute, sisal, coconut, and banana, and examines how hybridization affects thermal conductivity, stability, and heat transfer efficiency. The study examines a range of thermal testing techniques, including as drop pounds, the Charpy, and examined impact testing, in addition to analytical methods like the analysis of finite elements. It is explained how surface treatments like high-pressure steaming and silane treatment can be improved. A crucial instrument that clarifies the distinct phases of thermal deterioration of particular natural fibres, such as banana, kenaf, jute, bamboo, cotton, pine cone, ramie, okra, Arundo Donax, artichoke, Grewia Optiva, and Lygeum Spartum, is thermogravimetric analysis (TGA). In addition to giving a thorough overview of natural fibres and their composites, the review also covers recent developments in natural fibre concrete. In conclusion, it emphasises the need of effective manufacturing techniques, the promise of organic fibre-based polymer composites for environmentally friendly automotive production, and the possible use of Nano cellulose-based hybrids in cars and trucks. [ABSTRACT FROM AUTHOR]

Published

2024

9. Acetylation of reed (Arundo donax) to prevent the contact dermatitis of woodwind musicians.

Author

Arai, Yoshikazu, Obataya, Eiichi, Nakagawa-Izumi, Akiko, and Okiyama, Naoko

Subjects

*GIANT reed, *CONTACT dermatitis, *ALLERGIES, *CHEILITIS, *ACETYLATION

Abstract

A reed (Arundo donax) was acetylated to prevent serious cheilitis (reed allergy) in woodwind musicians in contact with the vibrating plate made of the reed. The reed was acetylated almost completely at 120 °C for 8 to 24 h. The maximum weight% gain (WPG) of the reed was lower than that of wood, reflecting a lower number of active reaction sites. The WPG of the inner part of the reed was slightly higher than that of the outer part, probably because the reactivity of the parenchyma cells is higher than that of the bundle sheaths. The acetylated reeds were tested by eleven skilled musicians suffering from the reed allergy. Eight musicians reported no allergic reactions. Three musicians reacted with the acetylated reed, but the reactions were much weaker than those induced by the unmodified reed. Thus, acetylation has been proven effective in preventing reed allergy. The patch test was not sufficient to detect allergies because although some musicians tested negative in the patch test, their mouths reacted seriously. [ABSTRACT FROM AUTHOR]

Published

2025

10. Modeling and optimization of alkaline pretreatment conditions for the production of bioethanol from giant reed (Arundo donax L.) biomass using response surface methodology (RSM).

Author

Shafaei, Hamidreza, Taghizadeh-Alisaraei, Ahmad, Abbaszadeh-Mayvan, Ahmad, and Tatari, Aliasghar

Abstract

In this study, the giant reed (Arundo donax L.) was used as a substrate for bioethanol production. To study and optimize the effect of bioethanol production parameters, including sodium hydroxide (NaOH) concentration (3–9, w/w%), temperature (60–180 °C), and pretreatment duration (30–120 min), on bioethanol concentration, and theoretical bioethanol yield, response surface methodology (RSM) based on the Box–Behnken design (BBD) was used. Alkaline pretreatment with NaOH was done on the substrate and all the samples were subjected to an enzymatic degradation experiment under conditions of loading 30 FPU cellulase/g dry biomass and then converted to bioethanol by Saccharomyces cerevisiae yeast. The results showed significant effects of the variables on bioethanol production, except for the effects of temperature on theoretical bioethanol yield. The optimal conditions for producing bioethanol under alkaline pretreatment conditions are a NaOH concentration of 3.0%, a temperature of 60 °C, and a pretreatment duration of 30 min which identified the optimal conditions of bioethanol concentration (3.19 g/L), and theoretical bioethanol yield (25.62%). These results contribute to supporting the potential of giant reed biomass as a suitable raw material for bioethanol production. [ABSTRACT FROM AUTHOR]

Published

2024

11. Chromosome‐scale genome assembly of the autoalloenneaploid Arundo donax.

Author

Ren, Mengmeng, Liu, Fupeng, Han, Xiaohong, Wu, Daohong, and Peng, Hai

Subjects

*GIANT reed, *ENERGY crops, *CHROMOSOMES, *POTENTIAL energy, *BIOMASS, *COMPARATIVE genomics

Abstract

Background: Arundo donax L. has great potential as an energy crop due to its high biomass yield and broad adaptability, while lack of a reference genome is a hindrance to genetic improvement efforts for this species. Methods: Genome assembly of A. donax was conducted by utilizing PacBio SMRT sequencing and high‐throughput chromosome conformation capture technology, with further analysis exploring the plant's ploidy, whole‐genome duplication event, and evolutionary history through comparative genomics. Results: The genome assembly of A. donax consists of 1.30 Gb with a contig N50 size of 33.15 Mb. A total of 74 403 gene models were identified, with over 90% of genes being functionally annotated. Karyotype and synteny analyses revealed that A. donax is an autoalloenneaploid (3n = 9x = 108) and has experienced significant gene family expansion and two whole‐genome duplication events during its evolutionary history. Furthermore, utilizing the genome assembly, a variety of salinity stress‐related genes were uncovered through the analysis of public RNA‐seq data. Conclusions: This study presents the initial chromosome‐scale genome assembly of A. donax, which will advance genetic comprehension and support the genetic enhancement of this important energy crop. [ABSTRACT FROM AUTHOR]

Published

2024

12. An Efficient Aqua-Based Culture Method for the Propagation of High-Quality Arundo donax Seedlings.

Author

Guo, Jialin, Li, Wei, Cao, Gangqiang, Zhang, Luyue, Xie, Zhengqing, Chen, Weiwei, Shi, Gongyao, Wei, Fang, and Tian, Baoming

Subjects

*GIANT reed, *GROWTH regulators, *DRINKING water, *SURVIVAL rate, *GRASSES

Abstract

Arundo donax (family: Poaceae) is a perennial rhizomatous plant with considerable economic and ecological benefits. The plant is characterized by its fast growth, high yield, wide adaptability, and strong disease resistance. However, widespread cultivation is difficult because A. donax can only be asexually propagated. This study tested the efficacy of an aqua-based culture method with short duration and high rooting rate. The aqua-based culture protocol involved treating cane fragments with the commercial broad-spectrum rooting powder ABT-1 (No. 1 of the ABT series) at 100 mg/L for 24 h, followed by culturing in tap water for 19 days. We found that plant materials sampled from September to February of the following year were more suitable for aqua-based culturing than materials sampled from other months. Nodes on different parts of the cane did not vary significantly in the ability to form seedlings. The rooting percentage reached >95% after only 20 days, while the sprouting percentage was >93%. The seedlings obtained were strong, with high survival rates during cultivation and acclimation. No strict requirements for the growing media were necessary to achieve these results. In conclusion, this study provides an empirical foundation for a technique that could facilitate the factory production of high-quality A. donax seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

13. Energy Costs and Greenhouse Gas Emissions of Giant Reed (Arundo donax L.) Production for Use as a Bioenergy Vector.

Author

Santalla, Estela, Ressia, Juan, Córdoba, Verónica, and Lázaro, Laura

Subjects

GREENHOUSE gases, GIANT reed, HERBICIDES, CARBON emissions, SUSTAINABLE development

Abstract

This study estimates the energy costs and greenhouse gas emissions for the production and the processing for thermal use of Giant reed (Arundo donax L.), a second-generation perennial energy crop. The agronomic study took place in Buenos Aires (Argentina) under humid to subhumid climatic conditions. Rhizomes and in vitro micropropagated plantlets were employed and cultivated under both fertilization and rainfed conditions during 2018–2022. The yield demonstrated a substantial increase from 3.8 t/ha to 23.1 t/ha from implantation to crop setting. Throughout this period, the energy input escalated from 23 to 70 GJ/ha, with the planting phase exhibiting the highest energy intensity. This surge can be attributed to the use of herbicides, accounting for 44.1%–61.3% of the energy consumed. Energy outputs were 17 (±0.19) MJ/kg as the low heating value obtained from the biomass elemental composition. The net energy yield for the 10-year lifecycle resulted in 2851.3 (±20.2) GJ/ha, and the output/input ratio varied from 41 (for pellets) to 126 (for chips). Carbon emissions ranged from 343.9 (for plantlets) to 371.9 (for rhizomes) kg CO2e/ha during the implantation stage, resulting in 208.3, 397.6, and 859.6 kg CO2e/ha for chips, bales, and pellets, respectively. This study reinforced the knowledge about the farming of this energy crop and displayed a promising scenario for the sustainable development of the Arundo donax L. based value chain. JEL Classification Q4, Q43, Q56 [ABSTRACT FROM AUTHOR]

Published

2024

14. A comparative study of worm-sludge treatment reed bed planted with Phragmites australis and Arundo donax in the Mediterranean region.

Author

Gholipour, Amir, Fragoso, Rita, Galvão, Ana, and Duarte, Elizabeth

Subjects

SLUDGE management, SEWAGE sludge, PHRAGMITES australis, GIANT reed, EISENIA foetida, TRACE elements, HEAVY metals

Abstract

Sludge treatment reed bed planted (STRB) with Phragmites australis (P.australis) and Arundo donax (A.donax) was assessed in the presence of Eisenia fetida under control condition during the dry season. Worm-planted units were fed with mixed sewage sludge (dry and volatile solids of 29.44 g DS.L−1 and 24.23 g VS.L−1). Sludge loading rates (SLR) of 50, 60, and 70 kg DS m−2 year−1 were examined to assess dewatering efficiency. Surface layers in units with P.australis and A.donax achieved DS of 80 and 81% at a loading rate of 50 kg DS m−2 year−1, while their subsurface DS were 41 and 25%, respectively. Units with A.donax experienced plant loss when subjected to SLR exceeding 60 kg DS m−2 year−1. More than 10 cm of residual sludge accumulated on the top of units after a 2-month final rest. Evapotranspiration was greater in the unit with P.australis (5.23 mm day−1) compared to the unit with A.donax (4.24 mm day−1) while both were fed with 70 kg DS m−2 year−1. Water loss contributions from residual sludge layer, drained water, and evapotranspiration were 3, 46, and 51%, respectively. Units with P.australis indicated 20% higher water loss compared to units with A.donax. Although the drained water quality improved over time, it did not meet standard limits. The residual sludge layer contained macro and micronutrients, and heavy metals with a significant elemental order of N > Ca > P > S > mg > K (N:P:K = 31:8:1), Fe > Na > B > Mn > Mo and Zn > Cr > Cu > Pb > Ni > Cd. Overall, STRB could be a sustainable alternative technology to conventional sewage sludge management techniques. [ABSTRACT FROM AUTHOR]

Published

2024

15. Heavy metals removal from industrial wastewater of Biskra (Algeria) by Arundo donax and Phragmites australis.

Author

Badache, Sarra and Seghairi, Nora

Subjects

METALS removal (Sewage purification), INDUSTRIAL wastes, PHRAGMITES australis, GIANT reed, LEAD removal (Sewage purification), PHRAGMITES, HYPERACCUMULATOR plants

Abstract

Industrial effluents pose a serious environmental problem, because they contain toxic contaminants mainly heavy metals that are the most dangerous to humans, animals, plants, and the environment in general. Phytoremediation using macrophytes is an adopted technique for the environment decontamination due to its efficiency and cost-effectiveness. The present study aims to highlight the capabilities of macrophytes to remove heavy metals from wastewater of Biskra region (Algeria). The methodology consists of filling out the filters planted with Arundo donax and Phragmites australis with raw industrial wastewater, then recovering decontaminated water after 15 days to assess removal of lead, copper, zinc, and iron. Both plants had shown a good efficiency for the removal of metals loaded in wastewater eliminating about 94 to 98% of initial concentration. In addition, calculated bioaccumulation factor (BAF) had confirmed the accumulation of heavy metals in different parts of experimental plants; recorded values of BAF > 1 allowed the consideration of Arundo donax and Phragmites australis as good hyper-accumulator plants. Obtained results confirm the efficiency of phytoremediation technology using macrophytes for the wastewater treatment in particular and the environment decontamination in general. [ABSTRACT FROM AUTHOR]

Published

2024

16. Leaf surfaces and neolithization - the case of Arundo donax L.

Author

Nunes, Sílvia C., Gomes, Ana P., Nunes, Paulo, Fernandes, Mariana, Maia, Ana, Bacelar, Eunice, Rocha, João, Cruz, Rebeca, Boatto, Aline, Ravishankar, Ajith P., Casal, Susana, Anand, Srinivasan, de Zea Bermudez, Verónica, and Crespí, António L.

Subjects

GIANT reed, COLONIZATION (Ecology), LIGHT absorption, TEMPERATE climate, ORGANIC compounds

Abstract

Arundo donax L. (Arundinoideae subfamily, Poaceae family) is a sub-tropical and temperate climate reed that grows in arid and semi-arid environmental conditions, from eastern China to the Mediterranean basin, suggesting potential adaptations at the epicuticular level. A thorough physical-chemical examination of the adaxial and abaxial surfaces of A. donax leaf was performed herein in an attempt to track such chemophenetic adaptations. This sort of approach is of the utmost importance for the current debate about the hypothetical invasiveness of this species in the Mediterranean basin versus its natural colonization along the Plio-Pleistocene period. We concluded that the leaf surfaces contain, apart from stomata, prickles, and long, thin trichomes, and silicon-rich tetralobate phytolits. Chemically, the dominating elements in the leaf ashes are oxygen and potassium; minor amounts of calcium, silicon, magnesium, phosphorous, sulphur, and chlorine were also detected. In both surfaces the epicuticular waxes (whose density is higher in the adaxial surface than in the abaxial surface) form randomly orientated platelets, with irregular shape and variable size, and aggregated rodlets with variable diameter around the stomata. In the case of green mature leaves, the dominating organic compounds of the epicuticular waxes of both surfaces are triterpenoids. Both surfaces feature identical hydrophobic behaviour, and exhibit the same total transmittance, total reflectance, and absorption of incident light. The above findings suggest easy growth of the plant, remarkable epidermic robustness of the leaf, and control of water loss. These chemophenetic characteristics and human influence support a neolithization process of this species along the Mediterranean basin. [ABSTRACT FROM AUTHOR]

Published

2024

17. Exploring the Evolutionary History and Phylogenetic Relationships of Giant Reed (Arundo donax) through Comprehensive Analysis of Its Chloroplast Genome.

Author

Luo, Lin, Qu, Qi, Lin, Hui, Chen, Jiaming, Lin, Zhanxi, Shao, Ensi, and Lin, Dongmei

Subjects

*CHLOROPLAST DNA, *GIANT reed, *ENERGY crops, *GERMPLASM, *CROP development, *RESTORATION ecology

Abstract

Giant reed (Arundo donax) is widely distributed across the globe and is considered an important energy crop. This study presents the first comprehensive analysis of the chloroplast genome of giant reed, revealing detailed characteristics of this species' chloroplast genome. The chloroplast genome has a total length of 137,153 bp, containing 84 protein-coding genes, 38 tRNA genes, and 8 rRNA genes, with a GC content of 39%. Functional analysis indicates that a total of 45 photosynthesis-related genes and 78 self-replication-related genes were identified, which may be closely associated with its adaptability and growth characteristics. Phylogenetic analysis confirmed that Arundo donax cv. Lvzhou No.1 belongs to the Arundionideae clade and occupies a distinct evolutionary position compared to other Arundo species. The findings of this study not only enhance our understanding of the giant reed genome but also provide valuable genetic resources for its application in biotechnology, bioenergy crop development, and ecological restoration. [ABSTRACT FROM AUTHOR]

Published

2024

18. Valorisation of energy plant Arundo donax cultivated in Serbia for biosorption of cobalt ions from an aqueous solution: kinetic aspect.

Author

Perendija, Jovana, Milošević, Dragana, Dželetović, Mina Popović1,Željko, Kovač, Sabina, Novaković, Jasmina Grbović, and Cvetković, Slobodan

Subjects

ANALYTICAL chemistry, POINTS of zero charge, GIANT reed, BIOSORPTION, INDUSTRIALISM

Abstract

Copyright of Chemical Industry / Hemijska Industrija is the property of Association of Chemical Engineers and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

19. Grasses of Acharya Jagadish Chandra Bose Indian Botanic Garden (AJCBIBG), Howrah, India.

Author

Panda, S. P., Sreekumar, P. V., Hameed, S. S., and Sharief, M. U.

Subjects

GRASSES, GIANT reed, AXONOPUS, BOTANICAL gardens

Abstract

The article presents a study which offered a comprehensive floristic account of the grasses of Indian Botanic Garden, Howrah in West Bengal, India. It enumerates grasses dwelled in the garden premises along with correct nomenclature and synonyms available if any including Apluda mutica, Arundo donax L., and Axonopus compressus.

Published

2024

20. Physiological, Cellular, and Transcriptomic Analyses Provide Insights into the Tolerance Response of Arundo donax to Waterlogging Stress.

Author

Wu, Dandan, Tian, Zhaoran, Guo, Jialin, Xie, Zhengqing, Tian, Baoming, Liu, Ziqi, Chen, Weiwei, Cao, Gangqiang, Zhang, Luyue, Yang, Tian, Wei, Fang, and Shi, Gongyao

Subjects

GIANT reed, ORNAMENTAL plants, ROOT formation, ROOT development, CELLULAR control mechanisms

Abstract

Arundo donax is widely used as an ornamental plant in landscape gardening because of its adaptability to varying degrees of waterlogged conditions. However, to date, little information is available about the adaptive mechanism of A. donax under waterlogging stress. The results showed that long-term mild waterlogging efficiently induced the formation of adventitious roots (ARs) and further promoted root aerenchyma development, and that the activity of antioxidant enzymes (SOD, POD, and CAT) in Ars also was greatly enhanced after waterlogging. At the transcriptomic level, the expression of genes related to apoptosis, the regulation of cell division, ethylene biosynthesis, alginate synthesis, auxin signaling pathways, and anaerobic respiration was mostly up-regulated after the occurrence of waterlogging stress but genes involved in the abscisic acid signaling pathways were partly down-regulated, which indicated a preferential and favorable transcriptional response in regulating adventitious root development. Taken together, this study definitely advances our knowledge of the morphological, physiological, and transcriptomic responses of A. donax under waterlogging stress and sheds new lights on its adaptive mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

21. Seasonal Harvesting Impact on Biomass Fuel Properties and Pyrolysis‐Derived Bio‐Oil Organic Phase Composition

Author

Manqoba Shezi, Sammy Lewis Kiambi, and Yusuf Makarfi Isa

Subjects

biochar, biofuels, biomass, bio‐oil, fast pyrolysis, Giant Reed, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

ABSTRACT Thermochemical conversion of giant reed biomass during periodic variations has been carried out in a semi‐batch tubular reactor at 550°C. This study was carried out after the incineration of giant reed along the river banks. Four periodic variations, late spring (HS‐4), late summer (HS‐1), late autumn (HS‐2), and late winter (HS‐3) were considered to investigate the effect of harvest time on biomass fuel properties, pyrolysis product distribution, non‐condensable gas characterization, and bio‐oil organic phase (BOP) fuel properties. The considered biomasses herein had average calorific values of 18.86 ± 0.05, 19.73 ± 0.05, 19.23 ± 0.04, and 18.44 ± 0.04 MJ/kg during HS‐1, HS‐2, HS‐3, and HS‐4, respectively. The biomass, bio‐oil organic phase, biochar, and pyrolysis gas were characterized using thermogravimetric analysis (TGA), gas chromatography–mass spectroscopy (GCMS), Fourier transform infrared spectroscopy (FTIR), micro‐GC, and scanning electron microscopy (SEM/EDS). The organic phase of bio‐oil was isolated using a 125 mL separating funnel, allowing natural stratification of the immiscible phases. BOP yield increased from 5 to 11 wt% during HS‐4 and HS‐3, respectively. Higher heating values (HHV) of the BOP ranged from 19.4 ± 0.03 to 22.6 ± 0.02 MJ/kg in relation to the active growth stage and senescence‐dormant phase. Physical and chemical properties (TAN, density, viscosity, water content, and CHNS) and chemical compound groups of organic phase bio‐oil were analyzed. The produced BOP was rich in phenolics for all considered periods. The effect of harvest time showed that biomass and bio‐oil organic phase fuel properties are improved during the senescence‐dormant period. As a result, giant reed biomass should be harvested during autumn to avoid incineration that releases carbon dioxide into the atmosphere and will also reduce the occurrence of artificial flooding.

Published

2024

22. Influence of Giant Reed (Arundo Donax L.) Culms Processing Procedure on Physicochemical, Rheological, and Thermomechanical Properties of Polyethylene Composites

Author

Luis Suárez, Paul R. Hanna, Zaida Ortega, Mateusz Barczewski, Paulina Kosmela, Bronagh Millar, and Eoin Cunningham

Subjects

Arundo donax, giant reed, biomass, fibers, composites, HDPE, Science, Textile bleaching, dyeing, printing, etc., TP890-933

Abstract

Giant reed (Arundo donax L.) is a plant species with a high growth rate and low requirements, which makes it particularly interesting for the production of different bioproducts, including natural fibers. This work assesses the use of fibers obtained from reed culms as reinforcement for a high-density polyethylene (HDPE) matrix. Two different lignocellulosic materials were used: i) shredded culms and ii) fibers obtained by culms processing, which have not been reported yet in literature as fillers for thermoplastic materials. A good stress transfer for the fibrous composites was observed, with significant increases in mechanical properties; composites with 20% fiber provided a tensile elastic modulus of almost 1900 MPa (78% increase versus neat HDPE) and a flexural one of 1500 MPa (100% increase), with an improvement of 15% in impact strength. On the other hand, composites with 20% shredded biomass increased by 50% the tensile elastic modulus (reaching 1560 MPa) and the flexural one (up to 1500 MPa), without significant changes in impact strength. The type of filler is more than its ratio; composites containing fibers resulted in a higher performance than the ones with shredded materials due to the higher aspect ratio of fibers.

Published

2024

23. Analysis of Local Mechanical Characteristics and Global Structural Arch Behaviour of Cane (Arundo Donax)

Author

Donovan, Sadhbh, Poletti, Elisa, Sousa, Hélder, Endo, Yohei, editor, and Hanazato, Toshikazu, editor

Published

2024

24. Morphology of the immature stages of the hoverfly Paragus (Paragus) hyalopteri Marcos-García & Rojo, 1994 (Diptera, Syrphidae), predator of the mealy plum aphid Hyalopterus pruni (Hemiptera, Aphididae).

Author

ORENGO-GREEN, JOSÉ J., RICARTE, ANTONIO, and ÁNGELES MARCOS-GARCÍA, M.

Subjects

*LIFE cycles (Biology), *INSECT societies, *ELECTRON microscope techniques, *GIANT reed, *SCANNING electron microscopes, *APHIDS

Abstract

The genus Paragus Latreille, 1804 with over 100 species of hoverflies (Diptera: Syrphidae) is widely distributed except for Antarctica. The larval biology of these hoverflies is well known since they develop in aphid colonies, which are often of economic importance. However, the immature stages of only 9 of the 27 known larvae of genus Paragus are described. Paragus (Paragus) hyalopteri Marcos-García & Rojo, 1994, is a Palaearctic species described from Spain. Its larva has only been found preying on the aphid Hyalopterus pruni (Geoffroy, 1762) (Hemiptera: Aphididae), on several species of fruit trees and on leaves of Arundo donax L., and Phragmites spp. Here for the first time the full life cycle of a Paragus hoverfly is described including egg, all three larval stages and the puparium. Eggs, larvae and pupae of P. hyalopteri were collected on leaves of Phragmites australis (Cav.) among aphid colonies of H. pruni, and their morphology analyzed and described in detail using stereomicroscope and Scanning Electron Microscope techniques. To facilitate the diagnosis of Paragus larvae, a key to all known larvae of Paragus is provided. [ABSTRACT FROM AUTHOR]

Published

2024

25. Towards a sustainable energy future: Evaluating Arundo donax L. in continuous anaerobic digestion for biogas production.

Author

Špelić, Karlo, Panjičko, Mario, Zupančić, Gregor Drago, Lončar, Anamarija, Brandić, Ivan, Tomić, Ivana, Matin, Ana, Krička, Tajana, and Jurišić, Vanja

Subjects

*CLEAN energy, *BIOGAS production, *SUSTAINABILITY, *GIANT reed, *ANAEROBIC digestion, *ENERGY futures, *ENERGY crops

Abstract

In response to the EU's REPowerEU initiative (COM (2022) 108) which encourages an increase in biogas production by 20% in member states by 2030 to boost energy independence, it has become essential to identify sustainable alternatives to traditional feedstocks for biogas production, especially in the EU Member states where there is still high dependence on corn silage as the main raw material in biogas plants. While corn silage, predominantly used in the European biogas plants today, serves primarily for the livestock sector, alternative sources need to be explored. Therefore, this study aimed to evaluate the potential of Arundo donax, a perennial energy crop, as an alternative feedstock in a continuous anaerobic process. The biogas yield and its quality, characterized by CH4, CO2, H2S and O2 content, were determined during a continuous process with A. donax, compared with two mixed feedstocks of A. donax and corn silage over a 5‐month period in a continuous anaerobic digestion process. The results revealed that A. donax exhibits a biogas yield and methane content comparable to corn silage, indicating its potential as a viable and sustainable alternative feedstock for biogas production. [ABSTRACT FROM AUTHOR]

Published

2024

26. Multilevel analysis of six species of Phyllostachys bamboo and Arundo donax: preliminary survey on Italian grown stands.

Author

Greco, Silvia, Molari, Luisa, Valdrè, Giovanni, and Garcia, Jose Jaime

Subjects

*GIANT reed, *PHYLLOSTACHYS, *BAMBOO, *SPECIES, *TEMPERATE climate

Abstract

The paper focuses on a multilevel analysis considering six species of bamboo of the Phyllostachys family (P. bambusoides, edulis, iridescens, viridiglaucescens, violacescens, and vivax) and Arundo donax grown in temperate climates, most of them not already studied in the literature. The analysis is divided into three levels. The analysis at the first level (the microscopic scale) includes an anatomical study to assess the shapes and dimensions of the vascular bundles and the sclerenchymatic and parenchymatic tissues. At the second mesoscale level, the percentage and distribution of the fibres, voids and parenchyma are calculated. At the third level, the macroscopic one, a discussion of the influence of the microscopical properties on mechanical properties is carried out. Despite the limited number of specimens analysed at the microscale level, differences between species emerged from the analysis and influenced the macroscopic characteristic values. In particular, the morphology of the components differs, especially in the case of Arundo donax, which presents a unique distribution of its components along the culm wall. Different contents of each component are observed for the species analysed. Moreover, an innovative analysis that focuses on the presence and distribution of voids is presented, which have a fundamental role in the mechanical behaviour of this material. The analysis did not account for the influence of the environment on composition or anatomical and physical characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

27. Geopolymeric Composites Containing Industrial Waste Reinforced with Arundo donax Fibers.

Author

Manzi, Stefania, Molari, Luisa, Bignozzi, Maria Chiara, Masi, Giulia, and Saccani, Andrea

Subjects

GIANT reed, CERAMICS, INDUSTRIAL wastes, NATURAL fibers, COMPOSITE materials, FIBERS

Abstract

Traditional Portland cement-based composites have a great environmental impact. Alkali-activated binders can offer an alternative, particularly if they can be obtained even partially from waste. Two residuals derived from the finishing steps of the traditional ceramic industry have been used as possible polymerizable sources mixed with metakaolin. Moreover, to contrast the low dimensional stability of alkali-activated materials and their mechanical brittleness, natural fibers derived from the Arundo donax plant have been added to the mortars. The use of renewable natural fibers instead of synthetic ones can contribute a further environmental advantage. The fresh (consistency) and cured (mechanical) properties of composite materials prepared with residuals and metakaolin were analyzed here. For comparison's sake, a reference set of composite materials not loaded with fibers but with an identical binder/sand and liquid/binder ratio was cast. A room-temperature curing condition was selected that, although inadequate to promote the short-time reactivity of the wastes, has a minimal energy requirement and allows on-site applications. A small-scale decrease in the properties in the compression mode tests was observed in the waste-modified mortars, while the Arundo addition improved their flexural strength and dimensional stability. [ABSTRACT FROM AUTHOR]

Published

2024

28. Break oily water emulsion during petroleum enhancing production processes using green approach for the synthesis of SnCuO@FeO nanocomposite from microorganisms.

Author

Hosny, M., Mubarak, Mahmoud F., El-Sheshtawy, H. S., and Hosny, R.

Subjects

*MANUFACTURING processes, *PETROLEUM production, *CHEMICAL processes, *GIANT reed, *ADSORPTION isotherms

Abstract

The aim of this work was to synthesize a green nanoparticle SnCuO@FeO nanocomposite core–shell to break oily water emulsions during petroleum-enhancing production processes as an alternative to chemical and physical processes. In this study, eight bacterial isolates (MHB1–MHB8) have been isolated from tree leaves, giant reeds, and soil samples. The investigation involved testing bacterial isolates for their ability to make FeO nanoparticles and choosing the best producers. The selected isolate (MHB5) was identified by amplification and sequencing of the 16S rRNA gene as Bacillus paramycoides strain OQ878685. MHB5 produced the FeO nanoparticles with the smallest particle size (78.7 nm) using DLS. XRD, FTIR, and TEM were used to characterize the biosynthesized nanoparticles. The jar experiment used SnCuO@FeO with different ratios of Sn to CuO (1:1, 2:1, and 3:1) to study the effect of oil concentration, retention time, and temperature. The most effective performance was observed with a 1:1 ratio of Sn to CuO, achieving an 85% separation efficiency at a concentration of 5 mg/L, for a duration of 5 min, and at a temperature of 373 K. Analysis using kinetic models indicates that the adsorption process can be accurately described by both the pseudo-first-order and pseudo-second-order models. This suggests that the adsorption mechanism likely involves a combination of film diffusion and intraparticle diffusion. Regarding the adsorption isotherm, the Langmuir model provides a strong fit for the data, while the D-R model indicates that physical interactions primarily govern the adsorption mechanism. Thermodynamic analysis reveals a ∆H value of 18.62 kJ/mol, indicating an exothermic adsorption process. This suggests that the adsorption is a favorable process, as energy is released during the process. Finally, the synthesized green SnCuO@FeO nanocomposite has potential for use in advanced applications in the oil and gas industry to help the industry meet regulatory compliance, lower operation costs, reduce environmental impact, and enhance production efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

29. A review of the use of giant reed (Arundo donax L.) in the biorefineries context.

Author

Ortega, Zaida, Bolaji, Ife, Suárez, Luis, and Cunningham, Eoin

Subjects

*GIANT reed, *PHRAGMITES australis, *SUSTAINABLE chemistry, *ANIMAL fibers, *NATURAL fibers, *BIOMASS conversion

Abstract

The massive availability of biomass generated by the common giant reed (Arundo donax L.) motivates the search for its possible industrial use for the generation of high added-value products through implementing a biorefinery approach. The literature demonstrates the potential of common cane to obtain different high-value compounds, such as levulinic acid, oligosaccharides, fermentable sugars, highly digestible fiber for animal feed, polyphenols, and natural fibers for composite materials, among others. The data shows the upward trend in Europe toward the generation of new green industries, grouped under the biorefinery concept. Therefore, this review summarizes the current knowledge on the use of Arundo to produce materials, fibers, and chemicals. Major environmental concerns related to this plant are also reviewed. Special attention has been paid to the potential use of Arundo to produce chemicals using green chemistry approaches, as a way to contribute to and advance the achievement of Sustainable Development Goals. Recommendations for future research are also outlined. [ABSTRACT FROM AUTHOR]

Published

2024

30. Influence of enzyme activity on domestic wastewater amelioration in a hybrid subsurface flow constructed wetland.

Author

Rani, Neetu, Pohekar, Karuna N., Sehrawat, Anirudh, and Gupta, N. C.

Subjects

*SEWAGE, *CONSTRUCTED wetlands, *RESOURCE recovery facilities, *WETLAND conservation, *ENZYMES, *NITROGEN removal (Water purification), *GIANT reed

Abstract

Wastewater treatment in a constructed wetland is achieved by the presence of plant species, the metabolism of microorganisms, and the enzyme activities. Three small‐scale hybrid subsurface flow constructed wetlands (HSFCWs) planted with Arundo donax and one unplanted HSFCW were constructed near a water resource recovery facility at Guru Gobind Singh Indraprastha University. The purpose of the study was to determine the correlation between soil enzymatic activities and the removal of contaminants from domestic wastewater. Enzyme activity of phosphatase, protease, urease, and cellulase increased with an increase in temperature. A strong correlation between enzyme activities and TKN and surfactant removal was observed, whereas moderate correlation was observed with phosphate in planted HSFCW during the study. The correlation between COD removal and enzyme activities was low to moderate. In unplanted HSFCW, the correlation between enzyme activities and COD removal was negative, negligible to moderate to strong in the case of TKN, low to moderate in the case of phosphate, and negligible to low in the case of surfactants. The increased removal efficiency of the planted system compared with that of the unplanted system indicated a positive impact on enzyme activities with the growth of plants and their roots. Practitioner Points: Protease, urease, and cellulase activities:Planted HSFCW exhibited higher protease, urease, and cellulase activities than unplanted, signifying enhanced breakdown.July displayed maximum enzyme activities, correlating with heightened biological breakdown in both systems.Fluctuations in enzyme activities reflected seasonal changes, influencing nutrient degradation rates.Planted HSFCW consistently showed higher enzymatic activities across protease, urease, and cellulase than unplanted. [ABSTRACT FROM AUTHOR]

Published

2024

31. Plant-Derived Products Selectively Suppress Growth of the Harmful Alga Prymnesium parvum.

Author

Mary, Mousumi A., Tábora-Sarmiento, Shisbeth, Nash, Sarah, Mayer, Gregory D., Crago, Jordan, and Patiño, Reynaldo

Subjects

ALGAL growth, GIANT reed, DAPHNIA pulex, NON-target organisms, CHLORELLA sorokiniana, CRYPTOSPORIDIUM, CHLORELLA vulgaris

Abstract

Prymnesium parvum is a harmful alga found in brackish waters worldwide whose toxins can be lethal to aquatic organisms. Established field methods to control blooms of this species, however, are unavailable. Earlier studies showed that various extracts of giant reed (Arundo donax) can suppress P. parvum growth and that ellipticine, an allelochemical present in giant reed, is a potent algicide against this species. The unintended effects of giant reed products on nontarget organisms, however, are not fully understood. This study determined the effects of giant reed leachate (aqueous extract of dried chips) and ellipticine on growth of P. parvum and the green microalga Chlorella sorokiniana; survival and reproduction of the planktonic crustacean Daphnia pulex; and hatching success, larval survival, and larval swimming behavior of the teleost fish Danio rerio. Leachate made with 3 g chips L−1 was lethally toxic to P. parvum and D. pulex, stimulated C. sorokiniana growth, and impaired D. rerio behavior. Leachate at 1 g L−1 fully suppressed P. parvum growth, had moderate effects on D. pulex reproductive output, and had no effects on D. rerio. Ellipticine at 0.01 mg L−1 irreversibly inhibited P. parvum growth, acutely but reversibly inhibited C. sorokiniana growth, slightly delayed D. pulex reproduction, and had no effects on D. rerio. These observations suggest that when applied at appropriate concentrations, natural products derived from giant reed can be used as tools to specifically control P. parvum growth with minimal effects on nontarget species. [ABSTRACT FROM AUTHOR]

Published

2024

32. MEDITERANSKA TRSKA U FITOSTABILIZACIJI TEHNOSOLA: PRELIMINARNI REZULTATI ISTRAŽIVANJA.

Author

Milanović, Nikola, Brajević, Snežana, Dželetović, Željko, Andrejić, Gordana, Simić, Aleksandar, and Aleksić, Uroš

Subjects

GIANT reed, PHYTOREMEDIATION, SOIL degradation, EROSION, SOIL conservation

Abstract

Copyright of Proceedings of the International Congress on Process Engineering - Processing is the property of Union of Mechanical & Electrotechnical Engineers & Technicians of Serbia (SMEITS) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

33. Correction to: Heavy metals removal from industrial wastewater of Biskra (Algeria) by Arundo donax and Phragmites australis.

Author

Badache, Sarra and Seghairi, Nora

Subjects

METALS removal (Sewage purification), GIANT reed, HEAVY metals, PHRAGMITES australis, INTERNET publishing

Abstract

This document is a correction notice for an article titled "Heavy metals removal from industrial wastewater of Biskra (Algeria) by Arundo donax and Phragmites australis" published in the journal Environmental Monitoring & Assessment. The correction addresses errors in the placement and labeling of figures in the article. The corrected captions for Figure 3 and Figure 4 are provided, and it is noted that Figure 5 was missing from the original publication. The correction notice is authored by Sarra Badache and Nora Seghairi and published by Springer Nature. [Extracted from the article]

Published

2024

34. Festival of flowers (Fulaich): Unique traditional culture and custom of Kinnaura tribes in Himachal Pradesh, North Western Himalaya, India.

Author

Lata, Swaran, Samant, S. S., Paul, Shiv, and Negi, P. S.

Subjects

SAUSSUREA, BUCKWHEAT, FLOWER festivals, GIANT reed, VITIS vinifera, PRIMROSES, RHODODENDRONS

Abstract

The article titled "Festival of flowers (Fulaich): Unique traditional culture and custom of Kinnaura tribes in Himachal Pradesh, North Western Himalaya, India" explores the traditional culture and customs of the Kinnaura tribes in Himachal Pradesh, India. The study focuses on the Fulaich festival, which involves the use of various species of flowers and offerings to deities. The article provides a list of Kinnaura tribes interviewed in the Kinnaur district of Himachal Pradesh, along with the species of flowers used in the festival and the deities to whom they are offered. [Extracted from the article]

Published

2024

35. Evaluating Control Options for Invasive Rubus caesius in Riparian Systems.

Author

Davis, Alexis B., Amatangelo, Kathryn L., and Webster, Kyle J.

Subjects

*RUBUS, *TREATMENT effectiveness, *PHRAGMITES, *WETLAND management, *GIANT reed, *JAPANESE knotweed, *WEEDS

Abstract

This article discusses the control options for the invasive plant species Rubus caesius (European dewberry) in riparian systems. Rubus caesius is a woody shrub native to Europe and Asia that has become naturalized in the vicinity of Ithaca, New York. The plant has been observed forming dense monocultures and spreading downstream in watersheds. The study compares the effectiveness of mechanical, chemical, and biological control methods for reducing the cover of Rubus caesius. The results show that herbicides, particularly glyphosate and triclopyr, combined with mechanical treatments, were the most effective in reducing the coverage of Rubus caesius. However, the use of herbicides may be restricted in certain areas, so alternative methods such as sequential cuttings may be considered. [Extracted from the article]

Published

2024

36. Exploration of Hemicellulosic Hydrolysates Derived from Arundo Donax and Cynodon Dactylon as Potential Substrates for Microbial Protein Production by Candida Tropicalis.

Author

Sidana, Arushdeep, Guleria, Payal, Kaur, Sundeep, and Yadav, Sudesh Kumar

Subjects

*GIANT reed, *CANDIDA tropicalis, *PHRAGMITES australis, *SINGLE cell proteins, *BERMUDA grass, *ACTIVATED carbon

Abstract

The present study was aimed to evaluate the potential of Arundo donax (giant reed) and Cynodon dactylon (grass clippings) biomasses as possible sources of fermentable sugars for microbial protein production by Candida tropicalis. Optimization of dilute acid pretreatment and detoxification parameters was carried out for selecting the best conditions for sugar release and efficient removal of inhibitory compounds. The optimum conditions for hydrolysis in both the biomasses were found to be 1.5% sulphuric acid, 1.5:10 solid to liquid ratio with 30 and 45 min duration for grass clippings and giant reed, respectively. Under these conditions, 21.85 g/L fermentable sugars including glucose and xylose were released from giant reed and 32.38 g/L from grass clippings in the dilute acid hydrolysate. Optimization of activated carbon-based detoxification revealed that 4% w/v activated charcoal concentration at pH 1.5 with 30 min orbital shaking was sufficient to achieve maximum reduction of inhibitors in giant reed hydrolysate. Whereas for grass clippings, 1 h treatment was required for significant reduction of phenolic compounds. The wild C. tropicalis was adapted for multiple generations to tolerate up to 14 g/L acetic acid in pure glucose and xylose based-medium. This adapted yeast when cultivated in concentrated hydrolysate media resulted in increase of cell biomass by 21.83 and 14.28% in giant reed and grass clippings, respectively in comparison to the wild yeast. The freeze-dried powder of C. tropicalis cells cultivated in giant reed and grass clippings hydrolysate contained 48.51% and 51.67% protein respectively. The results of this study advocate the potential of giant reed and grass clippings as efficient lignocellulosic sources for single cell protein production by C. tropicalis. [ABSTRACT FROM AUTHOR]

Published

2024

37. Microanatomical Changes in the Leaves of Arundo donax (L.) Caused by Potentially Toxic Elements from Municipal Sewage Sediment.

Author

Tóth, Csilla, Simon, László, and Tóth, Brigitta

Subjects

GIANT reed, SEWAGE, HEAVY metal toxicology, SEDIMENTS, SEWAGE lagoons, COPPER, SOIL pollution

Abstract

An open-field 3-year-long microplot experiment was set up with three micropropagated lines (SC Blossom, BFT Indiana, and STM Hajdúsági) of giant reed (Arundo donax L.). Plants were grown on a soil cover of a former sewage settling pond located in Debrecen Lovász-Zug, Hungary. Soil cover of the sewage sediment was moderately contaminated with various toxic elements (As, Ba, Cd, Cr, Cu, Mn, Ni, Pb, and Zn). The highest total concentration of examined toxic elements in leaves was found in the BFT Indiana line (∑326 mg/kg), while in the SC Blossom and STM Hajdúsági lines, ∑210 mg/kg and ∑182 mg/kg were measured, respectively. The highest Zn concentration (117 mg/kg) was found in the leaves of in BFT Indiana line and was 67% higher than that in SC Blossom and 95% more than in the STM Hajdúsági line. The BFT Indiana leaves showed typical signs of adaptation to heavy metal stress in the case of numerous micromorphometric characteristics. The extent of leaf mesophylls decreased, and the number of bulliform cells and phytoliths, as well as the sclerenchymatous stock, increased. The size of the vascular bundles was reduced. The size of the stomata decreased while the stomatal density increased. It can be concluded that the BFT Indiana line had the best adaptational response to heavy metal stress. [ABSTRACT FROM AUTHOR]

Published

2024

38. Study on Preparation of Regenerated Cellulose Fiber from Biomass Based on Mixed Solvents.

Author

Xiao, Junjiang, Li, Pengcheng, Zhang, Xiaotao, and Wang, Ximing

Subjects

*BIOMASS, *GIANT reed, *DIMETHYL sulfoxide, *CELLULOSE fibers, *SOLVENTS, *PROCESS optimization, *INFLUENZA A virus, *NEURAMINIDASE

Abstract

In this study, Arundo donax Linnaeus was utilized as the biomass and a TH/DS (Tetra-n-butylammonium hydroxide/Dimethyl sulfoxide, C16H37NO/C2H6OS) system was employed to dissolve biomass cellulose. The optimal process for the preparation of Arundo donax L. biomass regenerated cellulose fiber was determined through process optimization. The physical properties and antimicrobial performance of the resulting products were analyzed. The results demonstrated that the physical indicators of biomass regenerated cellulose fiber, prepared from Arundo donax L. cellulose, met the requirements of the standard for Viscose Filament (Dry breaking strength ≥ 1.65 CN/dtex, Elongation at dry breaking 15.5–26.0%, and Dry elongation CV value ≤ 10.0%). Additionally, excellent antimicrobial properties were exhibited by the biomass regenerated cellulose fiber developed in this study, with antibacterial rates against Staphylococcus aureus and other three strain indexes meeting the Viscose Filament standards. Furthermore, high antiviral activity of 99.99% against H1N1 and H3N2 strains of influenza A virus was observed in the experimental samples, indicating a remarkable antiviral effect. Valuable references for the comprehensive utilization of Arundo donax L. biomass resources are provided by this research. [ABSTRACT FROM AUTHOR]

Published

2024

39. Influence of light, nutrients, and soil moisture on the growth and resource allocation of Arundo donax.

Author

Herod, Megan and Martina, Jason

Subjects

*GIANT reed, *SOIL moisture, *MULTIVARIATE analysis, *RESOURCE allocation, *ECOLOGICAL models

Abstract

Understanding how invasive species respond to changes in abiotic factors and what influences their ability to colonise newly disturbed areas is necessary to predict species expansion, prioritise management efforts, and develop ecological models. We conducted a fully factorial greenhouse experiment using rhizome fragments to examine the effects of four nutrients levels, three soil moisture levels, and two light levels (with five replicates, n = 120) on the growth and resource allocation patterns of Arundo donax, a large‐statured invasive wetland species. We predicted that A. donax's performance‐related traits—traits that directly influence the functionality and fitness of an individual—such as aboveground biomass (AGB), belowground biomass (BGB), net photosynthesis, and average stem height, would be highest under high light, high soil moisture and high nutrient conditions due to the ability of aggressive invasive species to capitalise on greater resource availability. Analyses using general linear mixed‐effects models revealed significant interactions between soil moisture and light. Plants grown in saturated, high light conditions exhibited the highest values for performance‐related traits. However, contrary to predictions, nutrients did not significantly influence these traits. Multivariate analysis of variance demonstrated that nutrients did influence biomass allocation patterns, with plants grown with added nitrogen and phosphorus displaying higher AGB:BGB and stem:leaf ratios. This research highlights A. donax's unique response to nutrient addition and the plasticity of biomass allocation patterns. By understanding how invasive species respond to common abiotic factors, we can better predict their expansion and prioritise management efforts, such as focusing on areas of low overstory shading, while also providing crucial information for ecological model development. [ABSTRACT FROM AUTHOR]

Published

2024

40. Realizing High Performance Tunable Sensing Mode and Selectivity of Metal Ions Based on Carbon Dot.

Author

Devi, Lamabam Rebika, Devi, Henam Sylvia, Singh, Henam Premananda, and Singh, Thiyam David

Subjects

QUANTUM dots, METAL ions, GIANT reed, CARBON, NITRIC acid, DETECTION limit

Abstract

We have adopted a straightforward, eco‐friendly and economically profitable pyrolysis route of tailoring quantum dot size carbon particles (CD) from the leaves of Arundo donax. The synthesized uniformly dispersed CD1 and CD2 have an average diameter of 4.5 nm and 3.5 nm respectively as determined via HRTEM. FT‐IR analysis corroborated nitric acid treatment leads to rich surface functionalization of CD2. Experimentally estimated average fluorescence (FL) lifetime of the as‐prepared CD1 and CD2 are 2.31 ns and 3.87 ns respectively. Juxtapose to other metal ions, Cd+2 ions can efficiently quench FL of CD1, while Cr+6 ions, on contrary, prominently enhanced FL of CD2. Benefitting from their FL response, a turn off sensor was built using CD1 to detect Cd+2 ions and a turn on‐off sensor by CD2 to sense Cr+6 with impressive limit of detections of 2.58 nM and 1.73 nM respectively. They exhibit superior performance compare to other documented nanoscopic materials. The FL "turn off" interaction mechanism of CD1 was attributed mainly to static quenching. While that of "turn on‐off" mechanism for CD2 was ascribed to chelation enhanced fluorescence phenomenon and a rare partial combination of inner filter effect plus dominate dynamic type of quenching. [ABSTRACT FROM AUTHOR]

Published

2024

41. Hygroscopicity and Morphology of Bio-Based Boards—The Influence of the Formulation.

Author

Cintura, Eleonora, Nunes, Lina, Molari, Luisa, Bettuzzi, Matteo, Morigi, Maria Pia, Brancaccio, Rosa, and Faria, Paulina

Subjects

GIANT reed, SOLUBLE glass, COMPUTED tomography, COMPOSITE materials, HAZELNUTS, ADHESIVES

Abstract

The internal structures and the hygroscopicity of bio-based boards consisting of giant reed (Arundo donax L.) and hazelnut shells as bio-aggregates, and a sodium silicate solution as the adhesive, were investigated. The aim was to evaluate the influence of each material (the bio-aggregates and adhesive) and their distributions in the boards on the final performance. By carrying out X-ray computed tomography, the internal structures and the porosities of the boards were determined, allowing important considerations of their hygroscopicity. The voids' percentages were between 26% and 36% of the total volume of the composites. Both the materials and the composites demonstrated high hygroscopicity. In particular, the mixtures of the bio-aggregates and the sodium silicate allowed reaching a moisture buffering value of 7.44 g/(m2%RH) for the A. donax-based composite, 3.86 g/(m2%RH) for the hazelnut-shell-based composite, and 4.65 g/(m2%RH) for the mixture-based composite. Besides the identification of the contributions of the materials, a detailed discussion of the assessed properties was carried out to use these bio-based boards in vernacular historic construction. The results show how the aggregate type and the adhesive content affected the final behavior, demonstrating the importance of a conscious material choice. Furthermore, helpful information for the future development of these types of bio-based boards and their possible optimization was provided. [ABSTRACT FROM AUTHOR]

Published

2024

42. Making progress towards promising energetic cellulosic microcrystals developed from alternative lignocellulosic biomasses.

Author

Tarchoun, Ahmed Fouzi, Trache, Djalal, Klapötke, Thomas M., Abdelaziz, Amir, Bekhouche, Slimane, Boukeciat, Hani, and Sahnoun, Nassima

Subjects

*LIGNOCELLULOSE, *GIANT reed, *SOLID propellants, *BIOPOLYMERS, *CELLULOSE, *CHEMICAL structure

Abstract

This study reported the valorization of various alternative lignocellulosic feedstocks including giant reed (GR), palm fronds (PF) and esparto grass (EG) for the development of promising nitrated structurally modified cellulosic biopolymers (NNCs). The extracted nanostructured cellulose precursors and their nitrated derivatives were analyzed for their physicochemical properties, chemical structure, crystallinity and thermal stability. Experimental findings confirmed the successful formation of the desired energetic NNCs polymers with increased densities (1.698-1.711 g/cm³) and high nitrogen contents (13.10-13.26%) followed the order NNC-EG>NNC-PF>NNC-GR, which are greater than those of the commonly used nitrocellulose (1.650-1.670 g/cm³ and 12.50-12.70%). Furthermore, isoconversional integral models (TAS, it-KAS and VYA/CE) were exploited based on non-isothermal DSC data to investigate their thermal decomposition kinetics. The predicted kinetic parameters displayed that the synthesized energy-rich NNCs presented close values of Arrhenius parameters within the range of 156 ≤ Ea (kJ/mol) ≤ 163 and 14.7 ≤ Log(A(s-1) ≤ 15.6, and decomposed following diverse reaction mechanisms. Consequently, the explored lignocellulosic biomasses could be considered as valuable alternative non-woody resources for the production of advanced high-energy dense cellulosic biopolymers for potential application in the next generation of solid propellant formulations and composite explosives. [ABSTRACT FROM AUTHOR]

Published

2024

43. Investigating the acoustic and morphological performance of Arundo donax reed particles treated by using sodium hydroxide (NaOH).

Author

Asour, A. A., Monazzam, M. R., Taban, E., Hashemi, Z., and Amininasab, S.

Subjects

GIANT reed, ABSORPTION of sound, SURFACE roughness, NATURAL fibers, SURFACE morphology, PHRAGMITES australis, PHRAGMITES

Abstract

The present investigation aims to explore the potential of chemical treatment to improve the acoustic and morphological performance of Arundo donax reed particles. To this end, both treated and untreated particles were fabricated into samples with varying diameters and subjected to sound absorption testing via a two-channel impedance tube. The findings revealed that the immersion of particles in a 5% sodium hydroxide solution resulted in a reduction in particle diameter by 19.2%, as well as an increase in inner surface porosity by 4.9%. Consequently, the sound absorption performance of treated particles improved by an average of 42.6% when compared to untreated particles. Notably, the impedance spectroscopy results indicated that the differences in the real and imaginary parts of the impedance can be attributed to a reduction in particle thickness and roughness of surface morphology after treatment with NaOH. Overall, these observations offer compelling evidence that chemical modification of natural fibers can lead to the development of more efficient and effective porous sound absorbers. [ABSTRACT FROM AUTHOR]

Published

2024

44. Effect of demineralization and ball milling treatments on the properties of Arundo donax and olive stone-derived biochar.

Author

Zouari, M., Marrot, L., and DeVallance, D. B.

Subjects

GIANT reed, BIOCHAR, BALL mills, DEMINERALIZATION, ENVIRONMENTAL remediation, OLIVE, FOURIER transforms

Abstract

The structural and physio-chemical properties of biochar are crucial to determining biochar's quality and the adequate application. Specifically, the large porosity of biochar has been known as a favorable feature, especially for environmental remediation. In this regard, physical and chemical modifications have been used to improve biochar's porosity which requires high-energy consumption and involves chemical agents. The objective of this study was to prepare biochar with developed porosity using mild treatments. Arundo donax and olive stone were demineralized by a water-washing method. Treated and non-treated biomasses were pyrolyzed, and part of the derived samples was subjected to wet ball milling. Samples were characterized with proximate, Fourier transform infrared, particle size, and physisorption analyses. The effect of demineralization depended on the biomass type, as ash reduction only influenced Arundo donax-derived biochar, which was attributed to the difference in initial ash content that was relatively low for olive stone. The carbonization yield decreased by 46% for the Arundo donax biomass after demineralization. Moreover, demineralization expanded the surface area and total pore volume of the Arundo donax biochar. The ball milling was effective in producing micro-sized biochar particles with a mean size ranging between 30 ± 2 µm and 42 ± 2 µm and between 13 ± 1 µm and 22 ± 2 µm for Arundo donax and olive stone without and with demineralization, respectively. Ball milling increased the surface area of non-demineralized Arundo donax by 47% and demineralized Arundo donax by 124%. Additionally, ball milling increased the surface area of non-demineralized olive stone by 65% and demineralized olive stone by 62%. [ABSTRACT FROM AUTHOR]

Published

2024

45. Establishment of the wasp Tetramesa romana for biological control of Arundo donax in northern California and the role of release plot manipulation

Author

Ellyn V. Bitume, D. Valle Rogers, Paul D. Pratt, John A. Goolsby, and Patrick J. Moran

Subjects

Agent density, Galling wasp, Giant reed, Mechanical control, Integrated weed management, Agriculture, Biology (General), QH301-705.5

Abstract

Arundo donax is a non-native, invasive large-statured grass of riparian systems in the southwestern USA, including the Sacramento and San Joaquin River watersheds of northern California and the Sacramento-San Joaquin Delta. In 2017, the shoot tip-galling wasp Tetramesa romana was released at nine sites, three in each region. Shoots in some release plots were manipulated prior to release by cutting to ground or pruning to 1 m height, while others were left uncut. One year later, exit holes made by emerging adult wasps were found at two of nine sites. Exit hole density per main shoot length was 16-fold higher on regrowth shoots in ground-cut plots than in uncut plots. An additional plot manipulation study at two other sites found that exit hole density per shoot length was 19-fold higher in plots that were double-cut (cut to ground and regrowth pruned) than in single-cut plots. By 2023, T. romana was established at eight sites spanning both river watersheds and their Delta with dispersal up to 6.5 km, based on dissection of shoots, multi-year counts of exit holes and galls, and trapping of adult T. romana with sticky traps. The abundance of T. romana may be limited in northern California by low annual heat unit accumulation. The results show that physical manipulation of host plants improves short-term establishment and demonstrate the importance of using multiple monitoring methods to determine long-term establishment.

Published

2024

46. An Efficient Aqua-Based Culture Method for the Propagation of High-Quality Arundo donax Seedlings

Author

Jialin Guo, Wei Li, Gangqiang Cao, Luyue Zhang, Zhengqing Xie, Weiwei Chen, Gongyao Shi, Fang Wei, and Baoming Tian

Subjects

giant reed, aqua-based culture, stem cutting, rooting powder, growth regulator, Agriculture

Abstract

Arundo donax (family: Poaceae) is a perennial rhizomatous plant with considerable economic and ecological benefits. The plant is characterized by its fast growth, high yield, wide adaptability, and strong disease resistance. However, widespread cultivation is difficult because A. donax can only be asexually propagated. This study tested the efficacy of an aqua-based culture method with short duration and high rooting rate. The aqua-based culture protocol involved treating cane fragments with the commercial broad-spectrum rooting powder ABT-1 (No. 1 of the ABT series) at 100 mg/L for 24 h, followed by culturing in tap water for 19 days. We found that plant materials sampled from September to February of the following year were more suitable for aqua-based culturing than materials sampled from other months. Nodes on different parts of the cane did not vary significantly in the ability to form seedlings. The rooting percentage reached >95% after only 20 days, while the sprouting percentage was >93%. The seedlings obtained were strong, with high survival rates during cultivation and acclimation. No strict requirements for the growing media were necessary to achieve these results. In conclusion, this study provides an empirical foundation for a technique that could facilitate the factory production of high-quality A. donax seedlings.

Published

2024

47. THE FIRST MAP-MAKERS.

Author

HARVEY, AILSA

Subjects

WORLD maps, MAP design, MAGNETIC declination, GIANT reed, WOODCUTTING (Printmaking)

Abstract

The article discusses the history of map-making and the techniques used by ancient cartographers. It explains that early maps were carved into clay tablets and evolved as human understanding of the world expanded. Before the use of advanced technologies like GPS, cartographers manually calculated and plotted distances, often using techniques like triangulation. The article also highlights specific examples of ancient maps, such as the Severan marble plan of Rome and Anaximander's map of the world. It concludes by mentioning the use of woodblock printing to distribute maps more widely. [Extracted from the article]

Published

2024

48. Effects of alkaline‐acid treatment on the physiochemical attributes of natural cellulosic fiber of Arundo donaxL.

Author

Gaikwad, Abhishek, Debnath, Kishore, and Gupta, M. K.

Subjects

NATURAL fibers, CELLULOSE fibers, GIANT reed, POLYACRYLONITRILES, METAL ions, HEAVY metals, CELLULOSE, DERIVATIZATION

Abstract

In the present investigation, the cellulose fibers were extracted from Arundo donax through a three‐step treatment. The effects of the alkaline pre‐treatment, acid hydrolysis, and soxhlet‐based extraction on the qualitative and quantitative attributes of the resultant cellulose fibers were investigated. The results of the present study signify a positive correlation between chemical treatment and cellulose content. The overall yield conversion of cellulose was recorded as 156.67%, after Soxhlet‐based purification. It was also observed that the moisture content, percentage of water absorption, rate of water absorption, and ash mass fraction gradually declined after each treatment step. The correlation between the chemical treatment with quantitative and qualitative attributes revealed a gradual increment in cellulose content, crystallinity index, and purity of cellulose fiber extracted from A. donax. The FTIR spectra emphasized that the obtained cellulose was free from impurities after Soxhlet‐based extraction. Simultaneously the DTG curve of A. donax fiber revealed a low rate of derivatization in the fibers extracted after Soxhlet treatment. The SEM and EDX analysis illustrate that the cellulose fibers were devoid of impurities as well as contamination of heavy metal ions. [ABSTRACT FROM AUTHOR]

Published

2023

49. Assessment of Drought and Zinc Stress Tolerance of Novel Miscanthus Hybrids and Arundo donax Clones Using Physiological, Biochemical, and Morphological Traits.

Author

Islam, Monirul, Ferrarini, Andrea, Ali, Amjad, Kam, Jason, Trindade, Luisa M., Clifton-Brown, John, and Amaducci, Stefano

Subjects

*GIANT reed, *DROUGHT management, *ENERGY crops, *PLANT clones, *MISCANTHUS, *PHYSIOLOGY, *DROUGHTS

Abstract

Simple Summary: Marginal land is characterized by low crop productivity and is sometimes additionally contaminated. Such marginal land however presents a large opportunity to produce non-food biomass from perennial grasses with low risks of Indirect Land Use Change (low ILUC). Miscanthus spp. and Arundo donax also known as giant reed are leading bioenergy crops due to their high biomass productivity, but yields can be limited by insufficient water supply or phytotoxic levels of heavy metals. Drought and heavy metals are the most serious abiotic stress and negatively affect crop growth and development. The current study was conducted to identify the most drought and heavy metal (Zn) tolerant hybrid among seven novel Miscanthus hybrids and seven Arundo clones. Based on the morpho-physiological and biochemical analysis, the M. sinensis × M. sacchariflorus hybrid GRC 10 and Arundo clone PC1 were the most drought and Zn stress tolerant. The findings of this study provide a foundation for further investigations of the molecular and physiological mechanisms and recommendations for the cultivation of GRC 10 hybrid line and Arundo PC1 in marginal land. High-yield potential perennial crops, such as Miscanthus spp. and Arundo donax are amongst the most promising sources of sustainable biomass for bioproducts and bioenergy. Although several studies assessed the agronomic performance of these species on diverse marginal lands, research to date on drought and zinc (Zn) resistance is scarce. Thus, the objective of this study was to investigate the drought and Zn stress tolerance of seven novel Miscanthus hybrids and seven Arundo clones originating from different parts of Italy. We subjected both species to severe drought (less than 30%), and Zn stress (400 mg/kg−1 of ZnSO4) separately, after one month of growth. All plants were harvested after 28 days of stress, and the relative drought and Zn stress tolerance were determined by using a set of morpho-physio-biochemical and biomass attributes in relation to stress tolerance indices (STI). Principal component analysis (PCA), hierarchical clustering analysis (HCA) and stress tolerance indices (STI) were performed for each morpho-physio-biochemical and biomass parameters and showed significant relative differences among the seven genotypes of both crops. Heatmaps of these indices showed how the different genotypes clustered into four groups. Considering PCA ranking value, Miscanthus hybrid GRC10 (8.11) and Arundo clone PC1 (11.34) had the highest-ranking value under both stresses indicating these hybrids and clones are the most tolerant to drought and Zn stress. In contrast, hybrid GRC3 (−3.33 lowest ranking value) and clone CT2 (−5.84) were found to be the most sensitive to both drought and Zn stress. [ABSTRACT FROM AUTHOR]

Published

2023

50. Investigation of water-soil-plant relationships based on hazardous and macro-micro element concentrations on Orontes River, Türkiye.

Author

Yalcin, Ibrahim Ertugrul and Altay, Volkan

Subjects

*HEAVY elements, *HEAVY minerals, *GIANT reed, *COPPER, *PHRAGMITES, *HEAVY metals, *PHRAGMITES australis, *COPPER-zinc alloys

Abstract

Arundo donax and Phragmites australis were examined in 4 different periods (June and October for 2 years), heavy metal and mineral element accumulations in plants were evaluated, and water-soil-plant relationships were revealed. Element distributions, bioaccumulation factors (BAF) and translocation factors (TF) in different parts of the investigated plant species were also determined. BAFs of elements calculated by using the concentration values in underground parts and sediment samples were between 1.02 and 4.96. While the highest TF was determined as 8.07 for Zn between washed leaf and stem in A. donax, the lowest TF was determined as 0.05 for Fe between stem and underground part. Corresponding highest and lowest TFs for P. australis were 11.80 for Cu between washed leaf and stem, and 0.02 for Fe between stem and underground part, respectively. The results were supported by MANOVA statistical analyzes. Additionally, the macro-micro elements and heavy metal accumulation levels in the parts of the Orontes River ecosystem were significantly higher in the fall periods compared to the spring periods. Our research revealed that the versatile accumulation properties and high accumulation ability of A. donax for Cd, Cr, and Ni and of P. australis for Cd, Co, Cu, Ni, Pb, and Zn. The Orontes River passes through the regions of three different countries with high population density and developed economies. This study presents the current state of the relationship between the element types and their concentrations in the sediments in the Orontes River ecosystem and the ecophysiological parameters of the river. In this study, the focus was on the Türkiye-Hatay region of the Orontes River, the water-soil-plant relationship in this region was revealed in detail, and valuable data were compiled for researchers who will conduct research on the river ecophysiology. [ABSTRACT FROM AUTHOR]

Published

2023