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Pyrolysis kinetics of moso bamboo
Wood and Fiber Science, 2018Pyrolysis processes of moso bamboo (Phyllostachys pubescens), bamboo fiber, cellulose, hemicellulose, and lignin were investigated by thermogravimetric analyzer at different heating rates under nitrogen environment. Coatse-Redfern (CR) and Kissinger-Akahira-Sunose model were used to calculate pyrolysis kinetics.
Ruijuan Wang +7 more
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PheGRF4e initiated auxin signaling during moso bamboo shoot development
Molecular Biology Reports, 2022As a ubiquitous acid-regulating protein family in eukaryotes, general regulatory factors (GRFs) are active in various life activities of plants. However, detailed investigations of the GRFs gene family in moso bamboo are scarce.Genome-wide characteristics of the GRF gene family in moso bamboo were analyzed using the moso bamboo genome.
Miaomiao Cai +6 more
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Strigolactone Mediates Moso Bamboo Root Response to Phosphate Stress
Journal of Agricultural and Food Chemistry, 2023Both phosphate (Pi) deficiency and high Pi significantly affect moso bamboo growth and degrade bamboo forests. A novel plant hormone, strigolactone (SL), plays a crucial role in root growth under low Pi, but the SL regulatory mechanism has not been systematically reported in moso bamboo.
Qian Wang +6 more
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Hygroscopic swelling of moso bamboo cells
Cellulose, 2019Bamboo is a natural cellulosic material which is strongly reactive to water. Its hygroscopic behavior affects almost all other physical and mechanical properties of bamboo. This study investigated the hygroscopic swelling of moso bamboo (Phyllostachys edulis) cells in response to changes in environmental humidity using a confocal laser scanning ...
Qi Chen +7 more
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Flexural strength and ductility of moso bamboo
Construction and Building Materials, 2020Abstract Bamboo is a fast growing and natural fiber-reinforced material with excellent flexural strength and ductility. While it has been increasingly used in many applications, flexural ductility of bamboo and methods to evaluate this property have not been fully investigated. This paper proposed an original approach to assess the flexural ductility
Meiling Chen +7 more
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Co-cooking moso bamboo with hardwoods
TAPPI Journal, 2014Bamboo is one of the world’s fastest growing feedstocks and represents a promising nonwood resource that can be utilized in the pulp and paper industry. The timber varieties offer low feedstock costs, can be processed similarly to trees from a logistics standpoint, and have useful fiber properties for papermaking.
TROY RUNGE, JACKIE HEINRICHER, DAN MEIER
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Water Prehydrolysis of Moso Bamboo Dissolving Pulp
Advanced Materials Research, 2013The chemical comcomposition and water prehydrolysis of moso bamboo were studied to prepare high grade dissolving pulp. The results indicated that the moso bamboo was an appropriate none-wood material for great dissolving pulp goten as its high cellulose content.
Tao Gu, Li Qing Weng, Guo Xin Xue
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Aluminum Tolerance in Moso Bamboo (Phyllostachys pubescens)
The Botanical Review, 2011Moso bamboo (Phyllostachys pubescens) is widely distributed in the acid soil region of Southern China, where great potential of aluminum (Al) toxicity exists. To evaluate the Al tolerance of Moso bamboo, seed germination and root elongation were compared with two rice cultivars, and physical and physiological damages were examined under various levels ...
Renyi Gui +4 more
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Combustion characteristics of moso bamboo (Phyllostachys pubescens)
European Journal of Wood and Wood Products, 2015This study was carried out to investigate combustion characteristics of moso bamboo, including outer layer (OB), middle layer (MB) and inner layer (IB) and bamboo leaves (BL), respectively. The results showed that combustion characteristics of moso bamboo were similar to other biomass materials.
Zhijia Liu +5 more
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Controls for phytolith accumulation in Moso bamboo leaves across China
Science of The Total Environment, 2023Phytoliths are amorphous silica formed gradually in plant tissue, which have great potential to mitigate climate change due to their resistance to decomposition and their ability to occlude organic carbon. The accumulation of phytoliths is regulated by multiple factors. However, the factors controlling its accumulation remain unclear.
Lijun, Liu +5 more
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