Transcriptomic Identification of Key Genes Responding to High Heat Stress in Moso Bamboo (<i>Phyllostachys edulis</i>). [PDF]
Fu Q, Wen X, Tang M, Zhao X, Liu F.
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Correction: Genome-wide identification and expression characterization of the DoG gene family of moso bamboo (Phyllostachys edulis). [PDF]
Zhijun Z +5 more
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Genome-wide identification, characterization and expression analysis of CNGC Genes in moso bamboo (Phyllostachys edulis). [PDF]
Tan J +5 more
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Spatial analysis of competition in natural Phyllostachys edulis community
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Effects of Different Soil Phosphorus Levels on the Physiological and Growth Characteristics of <i>Phyllostachys edulis</i> (Moso Bamboo) Seedlings. [PDF]
Yang Z, Zhou B.
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Effects of Different Management Practices on Ramet System Dynamics in Moso Bamboo (<i>Phyllostachys edulis</i>) Forests, China. [PDF]
Gao G +7 more
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Genomics reveal population structure, genetic diversity and evolutionary history of <i>Phyllostachys edulis</i> (moso bamboo) in global natural distribution. [PDF]
Li F +5 more
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Spatial Reconfiguration of Living Stems and Snags Reveals Stand Structural Simplification During Moso Bamboo (<i>Phyllostachys edulis</i> (Carrière) J.Houz.) Invasion into Coniferbroad-Leaf Forests. [PDF]
Chen X, Zhou X, Jin S, Bai S.
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Effects of Moso Bamboo (<i>Phyllostachys edulis</i>) Forest Stand Density on Root Growth and Soil Quality for Shoot Production Under a Long-Term Bamboo-Stocking Retention Model. [PDF]
He T +10 more
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Effects of retaining different number of mother bamboo on the growth and NSCs allocation of new-born seedlings in Phyllostachys edulis at different age. [PDF]
Zhou B +6 more
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