Microbial mechanisms of carbon sequestration discrepancy between broadleaf and Moso bamboo forests [PDF]
Frontiers in MicrobiologyIn subtropical areas, broadleaf forests are being increasingly converted into Moso bamboo (Phyllostachys pubescens) forests. However, few studies have systematically compared soil organic carbon (SOC) between broadleaf and Moso bamboo forests. Therefore,
Yaowen Xu +3 more
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Genomics reveal population structure, genetic diversity and evolutionary history of Phyllostachys edulis (moso bamboo) in global natural distribution [PDF]
Frontiers in Plant ScienceIntroductionMoso bamboo (Phyllostachys edulis) is widespread in natural forests over large areas in ChinaMethodsHere we collected 193 individuals of moso bamboo from 37 natural populations in China’s distribution area.
Fangdi Li +5 more
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The Phenotypic Variation in Moso Bamboo and the Selection of Key Traits [PDF]
PlantsThis research aimed to explore the diverse phenotypic characteristics of moso bamboo in China and pinpoint essential characteristics of moso bamboo. In this study, 63 grids were selected using the grid method to investigate 28 phenotypic traits of moso ...
Shihui Zheng +7 more
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Moso bamboo invasion alters soil microbial nutrient limitation by modifying plant diversity and soil nutrient cycling in subtropical forest [PDF]
Frontiers in Plant ScienceIntroductionIn recent years, increasing management costs and declining market prices for Moso bamboo (Phyllostachys edulis) have led to the abandonment of many Moso bamboo forests, resulting in their gradual encroachment into neighboring broadleaf ...
Jiannan Wang +8 more
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Modeling stand biomass for Moso bamboo forests in Eastern China. [PDF]
Front Plant Sci, 2023 Stand biomass models can be used as basic decision-making tools in forest management planning. The Moso bamboo (Phyllostachys pubescens) forest, a major forest system in tropical and subtropical regions, represents a substantial carbon sink, slowing down the rise of greenhouse gas concentrations in the earth’s atmosphere.
Zhou X +6 more
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Responses of Soil Carbon and Microbial Residues to Degradation in Moso Bamboo Forest [PDF]
PlantsMoso bamboo (Phyllostachys heterocycla cv. Pubescens) is known for its high capacity to sequester atmospheric carbon (C), which has a unique role to play in the fight against global warming.
Shuhan Liu +5 more
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Abandonment Leads to Changes in Forest Structural and Soil Organic Carbon Stocks in Moso Bamboo Forests [PDF]
PlantsThe important role of soil carbon pools in coping with climate change has become widely recognized. Moso bamboo (Phyllostachys pubescens) is an economically important bamboo species in South China; however, owing to factors such as rising labor costs and
Yaowen Xu +7 more
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Full phenology cycle carbon flux dynamics and driving mechanism of Moso bamboo forest [PDF]
Frontiers in Plant ScienceIntroductionMoso bamboo forests, widely distributed in subtropical regions, are increasingly valued for their strong carbon sequestration capacity. However, the carbon flux variations and the driving mechanisms of Moso bamboo forest ecosystems of each ...
Cenheng Xu +26 more
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Global Ecology and Conservation, 2021 Due to its strong carbon sequestration function, the accurate estimation method for Moso bamboo carbon storage is the basis of quantitative description for Moso bamboo ecological function and carbon trade in the region.
Enbin Liu +3 more
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High genome heterozygosity revealed vegetative propagation over the sea in Moso bamboo
BMC Genomics, 2023 Background Moso bamboo (Phyllostachys edulis) is a typical East Asian bamboo that does not flower for > 60 years and propagates without seed reproduction. Thus, Moso bamboo can be propagated vegetatively, possibly resulting in highly heterozygous genetic
Norihide Nishiyama +3 more
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