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Cattail - Crossref

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Last Updated: 10 August 2022

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Novel Cattail Fiber Composites - Converting Waste Biomass into Reinforcement for Composites

Although non-woven glass mats used in these applications are designed for resin impregnation and properties, such as optimized mats for natural fibers are not available, non-woven glass mats are not available. Cattail fibers were extracted from plants using alkali retting and nonwoven cattail fiber mats, according to the current study. The cattail yarns enriched the stypol resin by a substantial amount, which was quite beneficial to the stypol resin. Fiber volume fraction increase The modulus and the intensity increased with consolidation pressures as a result of increased fiber volume fraction increase, with maximum values of 7. 4 GPa and 48 MPa as reinforcements, demonstrating the utility of Cattail fibers from waste biomass as reinforcements.

Source link: https://doi.org/10.21203/rs.3.rs-593117/v1


Comparative analysis of the static adsorption of oil droplets and the dynamic absorption capacity of their aggregates by cotton, kapok, cattail and flax fibers

The primary reason for the many adsorbed oil droplets is that the four fibers' static contact angles of the four fibers are similar in the three oils, which further demonstrates that flax is both lipophilic and hydrophilic. Natural fibers are used in the field of oil and sewage treatment, and the investigation of the determining factors, such as the wax content on the fiber surface and the oil's viscosity and tension, provides a theoretical basis for the application of natural fibers in the field of oil and sewage treatment.

Source link: https://doi.org/10.1177/00405175221111487


Probabilistic model for cattail and canola fibers: effect of environmental conditions, structural parameters, fiber length, and estimators

As an alternative to synthetic fibers that use a standard humidity condition, biomass fibers are being extensively tested for industrial applications. When exposed to various environmental conditions, fiber length, and type of estimators used during analysis, the mechanical characteristics of two waste biomass fibers u2013 canola and cattail u2013 have been investigated in this research. Weibull's strength and modulus closely followed experimental data for cattail and canola fibers, according to the study. With 11% relative humidity and fiber lengths, Weibull's various Weibull measurements resulted in varying Weibull parameters, with 11% relative humidity and the mean rank estimator predicting the most conservative tensile strength for both waste biomass fibers and fabric lengths, according to the most conservative tensile strength for both waste biomass fibers. As fiber gauge length increased from 25 to 45 mm, the experimental and characteristic Weibull strength decreased. Both waste biomass fibers at 50% reliability's tensile strength and modulus are within the range of typical experimental results.

Source link: https://doi.org/10.1177/00405175221086891


Genome assembly, annotation and comparative analysis of the cattail Typha latifolia

ABSTRACT Cattails are a genus of emergent wetland plants with a global reach. Typha latifolia and T. angustifolia are two of the most common species, and in areas of sympatry, can interbreed to produce the hybrid Typha x glauca. Using PacBio long-read and high coverage Illumina sequences, we produced a high-quality whole genome assembly of T. latifolia that would support evolutionary and ecological research in this transition zone. Typha latifolia is a divergent lineage within Poales thanks to a comparative study.

Source link: https://doi.org/10.1101/2021.08.23.457420


Continuing expansion of Narrow-leaved Cattail ( Typha angustifolia ) and decline of a provincially rare fen in the Holland Marsh, Ontario

An extensive graminoid wetland existed at the confluence of the East and West Holland Rivers at the southern end of Lake Simcoe, Ontario, at the time of European settlement. This report details the evolution in the Holland Marsh wetland by delineating boundaries between marsh, fen, and shrub populations on aerial photos taken at ten-year intervals from 1946 to 2015, illustrating vegetation change along transects running perpendicular to tributaries bisecting the wetland. Both shrub and marsh populations have decreased since 1946, at an average rate of 0. 24 ha/year. Typha angustifolia expansion has mainly from along the margins of the Holland River, where soil phosphorus content is significantly higher than in the fen's center. Plant dominance shifts from T. angustifolia to sedges, with a difference of more than 30 meters from the river.

Source link: https://doi.org/10.22621/cfn.v135i4.2793


Typha lepechinii Mavrodiev et Kapit. sp. nov. (Typhaceae Juss.)—A New Endangered Endemic Cattail in the Outmost East of European Russia

T. lepechinii is clearly different from all other cattails of T. sect. T. lepechini is an endemic of the outmost East of the Russian Plain, particularly in the areas of Middle and Southern Cis-Ural region. T. lepechini is different from its T. shuttleworthii due to four single nucleotide positions and two indels of the rpl32 gene and rpl32-trnL intergenic spacer, as shown by the elementary comparative molecular perspective.

Source link: https://doi.org/10.3390/taxonomy2020014


Analysis of pollination neighbourhood size using spatial analysis of pollen and seed production in broadleaf cattail ( Typha latifolia )

The majority of pollen generation and seed set patterns were found within locality of pollen testing over distances greater than 2 m; these findings confirm that the majority of pollination events occurred within close proximity to pollen sources in T. latifolia.

Source link: https://doi.org/10.1139/cjb-2014-0169

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions