Autofluorescence imaging, an excellent tool for comparative morphology.
about
The implications of a Silurian and other thylacocephalan crustaceans for the functional morphology and systematic affinities of the groupDemecology in the Cambrian: synchronized molting in arthropods from the Burgess ShaleSpectroscopic parameters of the cuticle and ethanol extracts of the fluorescent cave isopod Mesoniscusgraniger (Isopoda, Oniscidea)Sine systemate chaos? A versatile tool for earthworm taxonomy: non-destructive imaging of freshly fixed and museum specimens using micro-computed tomographyOn the sighted ancestry of blindness - exceptionally preserved eyes of Mesozoic polychelidan lobstersFunctional morphology of giant mole crab larvae: a possible case of defensive enrollmentCalcitic sclerites at base of malacostracan pleopods (Crustacea)--part of a coxaBrain anatomy of the marine isopod Saduria entomon Linnaeus, 1758 (Valvifera, Isopoda) with special emphasis on the olfactory pathwayTagmatization in Stomatopoda - reconsidering functional units of modern-day mantis shrimps (Verunipeltata, Hoplocarida) and implications for the interpretation of fossilsChtVis-Tomato, a genetic reporter for in vivo visualization of chitin deposition in DrosophilaA holomorph approach to xiphosuran evolution--a case study on the ontogeny of Euproops.Diversity of developmental patterns in achelate lobsters-today and in the Mesozoic.Comparative confocal microscopy of internal genitalia of phytoptine mites (Eriophyoidea, Phytoptidae): new generic diagnoses reflecting host-plant associations.A 520 million-year-old chelicerate larva.Looking at tardigrades in a new light: using epifluorescence to interpret structure.A 150-million-year-old crab larva and its implications for the early rise of brachyuran crabs.Central nervous system and muscular bundles preserved in a 240 million year old giant bristletail (Archaeognatha: Machilidae).A new glimpse on Mesozoic zooplankton-150 million-year-old lobster larvae.Evolution of insect wings and development - new details from Palaeozoic nymphs.An exceptionally preserved 110 million years old praying mantis provides new insights into the predatory behaviour of early mantodeans.The presumed oldest flying insect: more likely a myriapod?ZnO microrods to nanowalled microtubes: optimization using simple fluorescence microscopy and enhanced photocatalytic properties.Trace element biomineralisation in the carapace in male and female Argulus japonicus.Baring it all: undressing Cambrian ‘Orsten’ phosphatocopine crustaceans using synchrotron radiation X-ray tomographic microscopyNew thylacocephalans from the Cretaceous Lagerstätten of LebanonLarval Development of the European Lobster and How Small Heterochronic Shifts Lead to a More Pronounced Metamorphosis
P2860
Q21146735-6A841982-19CE-40D1-A907-4D6418118182Q21245371-2B9CA0D1-2A65-4ECA-A953-E624D115197DQ22675944-9D8E9EF6-F50B-4039-84BE-A0FB20442809Q27334380-99C6A27A-C540-4459-8D0D-5CAA161E9597Q28596202-801EE688-DD08-42D9-9F0B-F40B2F135AB3Q28597170-CCDD7B0A-48E7-4BF3-B5B2-7B5D0FB1C6BAQ28648154-B861DE74-C483-45DF-95DC-5A39B1E7744EQ28676974-11776E28-A425-4179-9C9B-9F51EB18D14CQ28710014-E1870B4B-F061-4A9E-A52D-04A99F909F62Q30278643-121D838A-7C51-4B43-91B7-F3B16014F9DAQ34390316-C58386BC-0BCA-4A8C-BF64-8BE675483701Q34977823-9DB09822-E4DB-413E-AB5E-58F1A835CB18Q34987581-86D1C959-E7C3-489F-9FA0-52A305498F98Q35206594-4AFB3C9A-B74F-42E5-9C48-A5D808F671BCQ35375550-8E4ABDCD-C39E-4489-AF05-66AC807083B1Q35573564-3D6DF43B-ACDB-4FF2-A3B1-EFB6D80A1DADQ36339437-F423D489-84F2-4753-818E-897C37CE1042Q37624688-F507FC06-E75C-4290-A04C-C4E7C24CD923Q38268583-FB0DF51B-7982-4FBE-881C-046CBEEBB231Q38368731-FA4FBBBC-C4A3-4B8C-91CF-88AAA6DBC75AQ41890915-FF20A954-304D-45A1-A5DB-4767CE2EDD4BQ50228983-C5D3BBE9-35E3-4BB4-809E-CEF1E1E6A3B4Q55203005-148E5F20-A53B-4680-B4E2-D9030BE88C86Q56689904-F7F6ACB0-3177-418E-B392-4A7B2D681EDAQ57276968-E0AC39BC-6DAB-41BF-9473-A8110620B215Q59111241-15A4097A-BD47-42C0-BE65-16AB5B21D955
P2860
Autofluorescence imaging, an excellent tool for comparative morphology.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Autofluorescence imaging, an excellent tool for comparative morphology.
@en
Autofluorescence imaging, an excellent tool for comparative morphology.
@nl
type
label
Autofluorescence imaging, an excellent tool for comparative morphology.
@en
Autofluorescence imaging, an excellent tool for comparative morphology.
@nl
prefLabel
Autofluorescence imaging, an excellent tool for comparative morphology.
@en
Autofluorescence imaging, an excellent tool for comparative morphology.
@nl
P2093
P2860
P50
P1476
Autofluorescence imaging, an excellent tool for comparative morphology.
@en
P2093
Andreas Maas
Christopher Castellani
Euan N K Clarkson
Gerd Mayer
Stefan Liebau
Uwe Wolfram
Verena Kutschera
P2860
P304
P356
10.1111/J.1365-2818.2011.03534.X
P577
2011-08-29T00:00:00Z