Catalogue Number
AV-C10206
Analysis Method
HPLC,NMR,MS
Specification
98%
Storage
2-8°C
Molecular Weight
261.3
Appearance
Powder
Botanical Source
Structure Type
Alkaloids
Category
Standards;Natural Pytochemical;API
SMILES
COC1=CC(=CC(=C1)C=CC(=O)N2CCCC2)OC
Synonyms
(E)-3-(3,5-dimethoxyphenyl)-1-pyrrolidin-1-ylprop-2-en-1-one
IUPAC Name
(E)-3-(3,5-dimethoxyphenyl)-1-pyrrolidin-1-ylprop-2-en-1-one
Density
Solubility
Bayesian inference, ecology, evolution, geographic range, phylogenetic analysis
Flash Point
Boiling Point
Melting Point
InChl
InChI=1S/C15H19NO3/c1-18-13-9-12(10-14(11-13)19-2)5-6-15(17)16-7-3-4-8-16/h5-6,9-11H,3-4,7-8H2,1-2H3/b6-5+
InChl Key
BRRDATYVUWMJSQ-AATRIKPKSA-N
WGK Germany
RID/ADR
HS Code Reference
2933990000
Personal Projective Equipment
Correct Usage
For Reference Standard and R&D, Not for Human Use Directly.
Meta Tag
provides coniferyl ferulate(CAS#:807372-38-9) MSDS, density, melting point, boiling point, structure, formula, molecular weight etc. Articles of coniferyl ferulate are included as well.>> amp version: coniferyl ferulate
No Technical Documents Available For This Product.
26445650
Discerning spatial macroecological patterns in freshwater fishes has broad implications for community assembly, ecosystem dynamics, management, and conservation. This study explores the potential interspecific covariation of geographic range (Rapoport’s rule) and body size (Bergmann’s rule) with latitude in North American sucker fishes (Cypriniformes: Catostomidae). While numerous tests of Rapoport’s and Bergmann’s rules are documented in the literature, comparatively few of these studies have specifically tested for these patterns, and none have incorporated information reflecting shared ancestry into analyses of North American freshwater fish through a hierarchical model. This study utilized a hierarchical modeling approach with Bayesian inference to evaluate the role that evolution has played in shaping these distributional corollaries. Rapoport’s rule was supported at the tribe level but not across family and subfamily groupings. Particularly within the Catostominae subfamily, two tribes reflected strong support for Rapoport’s rule while two suggested a pattern was present. Conversely, Bergmann’s rule was not supported in Catostomidae. This study provides additional information regarding the pervasiveness of these “rules” by expanding inferences in freshwater fishes and specifically addressing the potential for these macroecological patterns to play a role in the distribution of the understudied group Catostomidae.
Bayesian inference, ecology, evolution, geographic range, phylogenetic analysis
Macroecology of North American suckers (Catostomidae): tests of Bergmann's and Rapoport's rules
Stephen J. Jacquemincorresponding author 1 and Jason C. Doll 2
2015 Sep;
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