View allAll Photos Tagged Embryo
Side and back lit to show embryo, 21 frame focus stack using Zerene stacker, MP-E65 at 5x lens plus extension tubes and 50 micron step intervals using StackShot www.flickr.com/photos/13084997@N03/4279012996/
Siestabril on her fantastic Embryo sim. This is the last picture I am uploading that I did in 2009, goodbye old...hello new :))
these are embryos i made a few years back as part of my school work, they are made from FIMO, and painted with acrylics and varnish.
these are embryos i made a few years back as part of my school work, they are made from FIMO, and painted with acrylics and varnish.
IC1848 is also known as the Embryo Nebula (or occasionally the Soul Nebula due to its proximity to the Heart Nebula). It is approximately 7500 light years distant in the constellation of Cassiopiea.
Takahashi Sky 90 at f/4.5
SBIG STL-4020M (remote head)
Takahashi EM-200
H-Alpha: 4 hours
OIII: 2 hours
SIII: 2 hours
Processed with Maxim/DL, CCDStack, and Photoshop CS4
Noel Carboni's Astronomy Tools
A composite of two images taken of a human embryo under different fluorescent wavelengths using a confocal microscope. Fluorescent tags reveal that cells on the surface of the embryo are expressing human chorinoic gonadotropin (green tag) and an adhesion molecule (red tag)that helps them stick together.
The image was taken in the lab of Susan Fisher at the University of California, San Francisco.
Learn more about CIRM-funded stem cell research: www.cirm.ca.gov
You can download or view Macroscopic Solutions’ images in more detail by selecting any image and clicking the downward facing arrow in the lower-right corner of the image display screen.
Three individuals of Macroscopic Solutions, LLC captured the images in this database collaboratively.
Contact information:
Mark Smith M.S. Geoscientist
mark@macroscopicsolutions.com
Daniel Saftner B.S. Geoscientist and Returned Peace Corps Volunteer
daniel@macroscopicsolutions.com
Annette Evans Ph.D. Student at the University of Connecticut
annette@macroscopicsolutions.com
A ten image multiple exposure looking up through trees.
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In the black-run, downhill plummet of my photographic journey I seem to have careered off-piste. I fear that I am lost forever….
The problem started when I went to a talk organised by the Royal Photographic Society given by Tony Sweet (tonysweet.com/ ) on Creative In-camera Photography. Since then I have been exploring the potential of multiple exposures of the same subject using a variety of approaches, but mainly small camera movements.
And it’s interesting.
And, frankly, a bit difficult to master. There are quite a lot of variables to play with, and different subjects need different approaches.
I thought I would share some of the fun I’ve been having with a range of things I’ve tried. I can’t say at all that I have mastered the technique, but it may encourage you to have a go yourself - you don’t need a camera that handles multiple exposures really as there are some easy ways to combine images in the processing (ask me for some details if you are interested).
Thank you for taking the time to look. I hope you enjoy the fun and the images :)
These embryos are just a few hours old, in Preblastula stages. The individual cells are visible. These 3 embryos are between Gosner Stages 3 and 5.
First captive breeding in the US of this species.
June 8th 2013.
Imaged for the Marine Biological Laboratory at Woods Hole
Fluorescence Kit: macroscopicsolutions.com/product/excitation-filters-for-f...
Illuminated with: macroscopicsolutions.com/product-category/imaging-product...
Imaged with: macroscopicsolutions.com/product/the-macropod/
Images in this gallery were captured by:
Mark Smith M.S. Geoscientist mark@macroscopicsolutions.com
Annette Evans Ph.D. Student at the University of Connecticut annette@macroscopicsolutions.com
Cartoon illustration of a baby dinosaur embryo in an egg. Stock illustration available: www.istockphoto.com/stock-illustration-10202362-baby-dino...
These embryos are 8 days old. They are at about Gosner stage 40, near hatching. You can see melanophores and xantophores on the left embryo. The right embryo has very few xanthophores.
First captive breeding in the US of this species.
June 15th 2013.
Thx 2 @NHM_London 4 contributing this dog & human embryo fig. biodiversitylibrary.org/page/33407717 frm the bk: Homo vs. Darwin. An interesting read.
This photo shows the cerebellum (a part of the brain) of a mouse embryo. Multiplying neurons are shown in red. Purkinje cells, a specific kind of neuron important for the regulation of fine movements, equilibrium, and posture, are shown in green. Blue color indicates all the cell nuclei. This image was taken as part of a NIAMS-supported study of the effect of the enzyme Ezh2 on the development of neurons in the embryonic brain.
Credit Vittorio Sartorelli, M.D., NIAMS Laboratory of Muscle Stem Cells and Gene Regulation, National Institute of Arthritis and Musculoskeletal and Skin Diseases, National Institutes of Health
Embryo - 14.09.2023 - Take the A-Train Musicfestival - Haus Elisabeth Salzburg
www.jazzfoto.at/konzertfotos23/_take_the_a_train/_tag2/em...
Besetzung:
Maasl Maier: Bass, Synthie
Sascha Lüer: Saxophon
Jakob Thun: Schlagzeug
Marja Burchard: Vibraphon, Orgel, Posaune, …