Journal ArticleDOI
Anatomy of the Dicotyledons.
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This article is published in American Midland Naturalist.The article was published on 1950-11-01. It has received 2511 citations till now.read more
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Histochemical study of detailed laticifer structure and rubber biosynthesis-related protein localization in Hevea brasiliensis using spectral confocal laser scanning microscopy.
Tomoki Sando,Tomoki Sando,Tatsushi Hayashi,Tsuyoshi Takeda,Yasunori Akiyama,Yoshihisa Nakazawa,Eiichiro Fukusaki,Akio Kobayashi +7 more
TL;DR: Results show that the rubber biosynthesis capability of laticifers is concentrated where rays and the sieve tube actively transport metabolites.
Journal ArticleDOI
Variation in the structure and development of foliar stomata in the Euphorbiaceae
Vatsavaya S. Raju,Piratla N. Rao +1 more
TL;DR: The structure and ontogeny of foliar stomata were studied in 50 species of 28 genera belonging to 17 tribes of the family Euphorbiaceae and theStomatal development, distribution, diversity and basic stomatal type with reference to systematics are discussed.
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Taxonomic revision of the Stipa lipskyi group (Poaceae: Stipa section Smirnovia) in the Pamir Alai and Tian-Shan Mountains
TL;DR: Based on the examination of a large number of herbarium specimens, field observations, scanning electron microscopy observation of lemma micromorphology and statistical analysis of macromorphological characters, 12 taxa at the specific level were recognized on the area studied.
Journal ArticleDOI
Fate and function of calcium in tissue
M. N. Christiansen,C. D. Foy +1 more
TL;DR: A general review is presented of the postulated roles of calcium in structure and function of tissue, with special emphasis given to the role ofcium in membrane form and function and the involvement of calciumIn metabolism, hormone action and as a cell wall constituent.
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Evolution of Nothofagus cunninghamii and its relationship to N. moorei as inferred from Tasmanian macrofossils
TL;DR: Leaf fossils from five Tertiary and Quaternary deposits in Tasmania indicate that Nothofagus cunninghamii and N. moorei probably shared a common early Tertiaries ancestor, which led to a reduction in leaf size resulting in the small leaves found in extant N. cunninghami.