Results 111 to 120 of about 531 (141)
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Cytogenetics of wild species of the Alstroemeriaceae family (Liliales)

Plant Systematics and Evolution, 2021
Studies on cytogenetic diversity within the Alstroemeriaceae family along its intercontinental distribution are scarce when comparing species of their four genera. This study aimed at exploring the cytogenetic diversity of the family along their geographical distribution, including species that inhabit Oceania and South America.
Pedro Jara-Seguel   +5 more
openaire   +1 more source

Nanocatalyst transformation and biological activities of lilial

Particulate Science and Technology, 2015
ABSTRACTThe changes produced in natural-product compounds by nanocatalysts can be important in the search for new uses of these compounds as medicinal drugs and in food processing. In this research a nanocatalyst was used to convert a natural plant compound to a compound with strong antioxidant properties.
Akbar Esmaeili, Firozeh Jafarzadeh
openaire   +1 more source

A karyological review of the orders Asparagales and Liliales (Monocotyledonae)

Feddes Repertorium, 1995
AbstractKaryology of the Asparagales and Liliales is reviewed with references to their morphology, embryology, DNA analyses, and other aspects. Asparagaceae, Ruscaceae, Dracenaceae, and Nolinaceae may share a common ancestor withx= 10, and Tecophilaeaceae, Cyanastraceae, and Ixioliriaceae withx= 12.Tricyrtis(Uvulariaceae) is karyologically similar ...
exaly   +2 more sources

The rapid radiation of Bomarea (Alstroemeriaceae: Liliales), driven by the rise of the Andes

Evolution, 2022
Abstract Complex geological events such as mountain uplift affect how, when, and where species originate and go extinct, but measuring those effects is a longstanding challenge. The Andes arose through a series of complex geological processes over the past c.
Carrie M Tribble   +7 more
openaire   +2 more sources

γ‐Unsaturated Aldehydes as Potential Lilial Replacers

Chemistry & Biodiversity, 2014
AbstractA series of Claisen rearrangements was undertaken in order to find a replacement for Lilial (=3‐(4‐(tert‐butyl)phenyl)‐2‐methylpropanal), a high‐tonnage perfumery ingredient with a lily‐of‐the‐valley odour, which is a CMR2 material [1]. 5,7,7‐Trimethyl‐4‐methyleneoctanal (10), the synthesis of which is described, became the main lead.
Martin, Schroeder   +3 more
openaire   +2 more sources

Fructose oligosaccharides in monocotyledons: A possible delimitation of the order liliales

Biochemical Systematics and Ecology, 1982
Abstract Stems from 198 species representing 165 genera of 46 monocotyledonous families were examined for the presence of fructose oligosaccharides. Aside from occurring in the subfamily Festucoideae of the Poaceae, in Cyperaceae and in Zostera marina of the Zosteraceae, the sugars were found exclusively in some closely related liliaceous families.
exaly   +2 more sources

Synthesis and application of polyacrylate nanocapsules loaded with lilial

Journal of Applied Polymer Science, 2013
ABSTRACTPolyacrylate nanocapsules loaded with lilial (PNLs) were prepared via miniemulsion polymerization. Then, the PNLs were applied directly to leather. The influence of the contents of the surfactant and lilial and the stirring speed on the mean size and fragrance loading capacity of the PNLs was investigated in detail.
Hu Jing   +3 more
openaire   +1 more source

Analyzing genetic diversity of chloroplast genomes in Liliales

Journal of Science and Technology, 2022
AbstractLiliales is a monocotyledonous order and contains both photosynthetic and mycoheterotrophic species that distribute locally or worldwide. In this study, the genetic diversity of chloroplast genomes in Liliales was explored regarding their nucleotide diversity and repeated composition.
openaire   +1 more source

Morphometrics of the aerial roots of Kingia australis (Liliales)

Australian Journal of Botany, 1981
Kingia australis, common in the heaths and forests of south-western Australia, is distinguished from all other grass trees in Australia by the presence of a mantle of concealed aerial roots. A ring of up to 50 root primordia is initiated in winter from the stem apex. In plants more than 1 m high, initiation and commencement of elongation of the primary
openaire   +1 more source

Coelomycetes on Liliales: the genus Phyllosticta

Canadian Journal of Botany, 1979
Phyllosticta crypta sp. nov. and P. cumminsii sp. nov. are described. Both fungi cause leaf spots on various species of Smilax in North America. Four other Phyllostictas previously reported from North American Liliaceae are redescribed, and a key is provided to distinguish the eight Phyllosticta species currently recognized on the Liliales.
openaire   +1 more source

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