Results 161 to 170 of about 1,085 (191)
Yield stability of finger millet genotypes assessed by AMMI and GGE biplot analysis across diverse environments. [PDF]
Ishwarya MC +10 more
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Complete mitochondrial genome assembly of Zizania latifolia and comparative genome analysis. [PDF]
Luo X +5 more
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Eight lemma micromorphological characters of 83 taxa representing 61 genera in the Chloridoideae have been investigated using Scanning Electron Microscopy, including long cells, cork cells, stomata, bicellular microhairs, papillae, silica cells ...
Qing Liu, Dongxian Zhang
exaly +2 more sources
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On the Classification of the Chloridoideae (Poaceae)
Australian Systematic Botany, 1997A series of phenetic and cladistic analyses (using ISS-flexible, NJTREE and HENNIG86) has been conducted on 166 generic descriptions of Chloridoideae, using 120 selected morphological and leaf anatomical characters. The results are emphatically not supportive of the traditional main division into the tribes Eragrosteae and Chlorideae, but instead ...
An Van den Borre, Leslie Watson
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Leaf anatomy and taxonomy of Lintonia nutans (Chloridoideae: Poaceae)
The leaf blade anatomy of Lintonia nutans Stapf is described and illustrated. The results confirm that L. nutans belongs to the Chloridoideae but indicate that the affinities of this species lie with the Chlorideae and not with the Eragrostideae where it
Ellis, R.P.
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A classification of the Chloridoideae (Poaceae) based on multi-gene phylogenetic trees
Molecular Phylogenetics and Evolution, 2010We conducted a molecular phylogenetic study of the subfamily Chloridoideae using six plastid DNA sequences (ndhA intron, ndhF, rps16-trnK, rps16 intron, rps3, and rpl32-trnL) and a single nuclear ITS DNA sequence. Our large original data set includes 246 species (17.3%) representing 95 genera (66%) of the grasses currently placed in the Chloridoideae ...
Paul M Peterson +2 more
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The history of many plant lineages is complicated by reticulate evolution with cases of hybridization often followed by genome duplication (allopolyploidy).
Mathieu Rousseau-Gueutin +2 more
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Eragrostis walteri Pilg., a grass species from the Namib Desert in South West Africa/Namibia, is shown to have non-Kranz leaf anatomy and, consequently, it is predicted that it utilizes the C3 photosynthetic pathway.
Ellis, R.P.
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Notes on Subfamily Chloridoideae (Gramineae)
Kew Bulletin, 1982Eragrostideae characteristically have 3-nerved lemmas, but a few genera, unmistakably allied to the tribe on the evidence of their leaf anatomy, have 5 or more lemma nerves. Among these Uniola L., Entoplocamia Stapf and Tetrachne Nees are distinguished by spikelets which fall entire and have the lower florets sterile; they constitute the subtribe ...
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Inflorescence structures and evolution in subfamily Chloridoideae (Gramineae)
Plant Systematics and Evolution, 2005Inflorescence structures of 81 species and two subspecies (representing 61 genera) of the Chloridoideae have been investigated using stereo microscopy (SM). Inflorescences of the Chloridoi- deae are true polytelic inflorescences. Thirteen inflorescence subtypes are distinguished based on modes of the truncation and the homogenization.
Q. Liu, N.-X. Zhao, G. Hao
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