Box 6.3 Evolutionary Psychology Fig 6.17 Bowerbird Nests.

Slides:

Advertisements

Similar presentations

The Eye. Rods and Cones The eye is made of cells that are called Rods and Cones. Cone cells are coned shaped and Rod cells are rod shaped.

Advertisements

Colour Vision Sensitivity & Acuity. Colour Vision Trichromatic theory of colour vision There is only one type of rod and this responds strongly to bluish-

General Genetics Ayesha M. Khan Spring 2013.

The Eye and the Nervous System

The evolution of color vision Jacques van Helden Aix-Marseille Université (AMU), France Lab. Technological Advances for.

Box 6.3 Evolutionary Psychology Fig 6.17 Bowerbird Nests.

Chapter 9: Color Vision. Overview of Questions How do we perceive 200 different colors with only three cones? What does someone who is “color-blind” see?

Human Eyes as an Image Sensor

Photoreceptors.

Color Perception Combined rod + cone response yields both color and brightness perception Cell responses vary with illumination conditions: –low light.

1 Color Vision Fundamentals Jeff Rabin, OD, PhD Chief, Visual Function Laboratory Ophthalmology Branch USAF School of Aerospace Medicine.

How the eye sees 1.Properties of light 2.The anatomy of the eye 3.Visual pigments 4.Color vision 1.

COLOR PERCEPTION Physical and Psychological Properties Theories – Trichromatic Theory – Opponent Process Theory Color Deficiencies Color and Lightness.

Nocturnal Vision Samiha Khan. Nocturnal Vision  Most nocturnal animals have modified their eyes to enhance their ability to capture adequate light or.

Color blindness B y : M a r e i M ü n s t e r, M o l l y S u l l i v a n, a n d A l e x a n d r a O l i v a n.

From the spectrum lab: Light waves with different wavelengths appear as different colors. Short waves are blue/purple. Long waves are red.

The Retina WALT That the retina contains millions of light sensitive cells That there are two types of light sensitive cell How an action potential is.

Colour Vision I The retinal basis of colour vision and the inherited colour vision deficiencies Prof. Kathy T. Mullen McGill Vision Research (H4.14) Dept.

Wednesday April 18, Sensory systems II – color vision and hearing 1. No Prelecture quiz 3. Review vertebrate eyes 4. Color vision 5. Evolution of.

Vision By: Bethany, Iqra, Clint, Cameron, Nick. The Process Light enters eye through the cornea Then, it goes through the pupil which is surrounded by.

The Special Senses Vision – 3 Color Vision

We are going to view the following color blindness YouTube video. Keep in mind, I did not create this, nor am I doctor – this is NOT a diagnosis! Also,

Today Last lecture Monday 4/28: no class Wednesday 4/30: You present, morning in class, plus evening. Friday May 2-Monday May 4 th -Exam. Would later be.

Evolution of colour vision After J Neitz, J Arroll, M Neitz Optics & Photonics News, pp , Jan 2001.

Sensory systems: Transduction Sensory cells are either 1. epithelial cells that are induced to specialize in performing some type of sensory transduction.

Psychology 4051 The Retina and LGN. Retino-Geniculate-Cortical Pathway.

© 2011 The McGraw-Hill Companies, Inc. Instructor name Class Title, Term/Semester, Year Institution Introductory Psychology Concepts Vision.

Structure of the Human Eye Cornea protects eye refracts light Iris colored muscle regulates pupil size Pupil regulates light input Lens focuses images.

Do Now Try to label the diagram of the eye Use your textbook and the terms on the right to help you Optic nerve Pupil Lens Retina Vitreous Iris Cornea.

AP Biology Discussion Notes Wednesday 4/29/2015. Goals for the Day Understand how we influence the environment & organisms around us Be able to tie together.

Color Vision By Andrew J Pakchoian Psych 159 Prof Macleod.

Vision Structure of the Eye We only use light energy to see.

CHAPTER 49 SENSORY AND MOTOR SYSTEMS Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section C: Photoreceptors And Vision 1.

What is your nervous system? YOUR VISUAL SYSTEM.

RECEPTORS IN ANIMALS RICHARD LLOPIS GARCIA Adapted by MH A2 BIOLOGY.

The Special Senses Vision - 3

Communication Topic 7: Visual Pigments

1 Computational Vision CSCI 363, Fall 2012 Lecture 5 The Retina.

Color Vision Dr Taha Sadig Ahmed MBBS. PhD MAANEM.

GENE THERAPY FOR RED- GREEN COLOR BLINDNESS Mary Ellen Sweeney, Biomedical Engineering, University of Rhode Island Sophomore, BME 281 First Presentation.

Mind, Brain & Behavior Wednesday February 19, 2003.

1 Psychology 304: Brain and Behaviour Lecture 31.

How the eye sees 1.Properties of light 2.The anatomy of the eye 3.The cells that transmit light information from the retina to the brain 4.Visual pigments.

Sensory Receptor Cells of the Eye Sensory Neural Systems 22 January 2008 Rachel L. Leon.

Color Blindness Katie Shutler Psychology How we see: Cones- Detect color, operate under normal daylight conditions and allow us to focus on fine.

Perception of stimuli Option A.3. Receptors detect changes in the environment. List and describe the types of specialized receptors in humans. a. Mechanoreceptors-

Student : Chen–Fung Tsen Advisor : Sheng-Lung Huang.

Psychological dimensions:

Light Sensing and Vision

Teaching Workshop: Color Vision in Primates and Other Mammals

Department of Psychology - FSU

Visual Sensory System.

Review: Vision.

Vision – 4 Color Vision Dr. Salah Elmalik.

Outline Of Today’s Discussion

Color Vision by King Saud University Physiology Dept

Journal #3: Which 3 cranial nerves monitor the tongue?

Wednesday, 19 September Organisms respond to changes in their internal and external environments Eye Receptors • identify the pigments.

The Eye and the Nervous System

The trichromatic hypothesis of color perception:

Structure of the Human Eye

THE EYES AND VISION.

Prof. Kathy T. Mullen McGill Vision Research (H4.14)

A.3 Perception of Stimuli

Sensation & Perception

Computational Vision CSCI 384, Spring 2004 Lecture 4 The Retina

Fatima Balsharaf, Rahaf Alshammari

Color Vision Fundamentals

Presentation transcript:

Box 6.3 Evolutionary Psychology

Fig 6.17 Bowerbird Nests

Animals exhibit different degrees of color vision. Four categories of color vision capabilities among mammals: Minimal color vision with only a single kind of cone pigment and must rely on interactions between rods and cones to discriminate wavelength found in raccoons Feeble dichromatic color vision with two kinds of cone pigments but very few cones found in cats Robust dichromatic color vision with two kinds of cones and lots of cones found in dogs Excellent trichromatic color vision Certain primates such as humans and old world monkeys have good trichromatic color vision based on three classes of cone photopigments However, unlike mammals most birds and reptiles have tetrachromatic color vision

Mammalian Color VisionMammalian Color Vision

Color Vision Almost Reason Enough for Having Eyes Jay Neitz, Joseph Carroll and Maureen Neitz Optics & Photonics News, January 2001, page 28

Transduction

Evolution of vertebrate visual pigments. James K. Bowmaker, Vision Research 48 (2008) 2022–2041-0

Humans and Old World monkeys have three different cone classes short (S) wavelength sensitive cells with maxima near 415–430 nm middle (M) with maxima at 530–537 nm long (L) with maxima at 555–565 nm New World primates have variable cone phenotypes spider monkey are trichromats Cebus and squirrel monkeys, the males and some females are dichromats, while other females are trichromats owl monkey are monochromats New World monkeys have only one cone pigment gene per X- chromosome trichromatic variation in females is based on the presence of allelic diversity at the X-chromosome opsin gene locus only heterozygous females have two genes that encode two different middle-to-long wavelength photopigments Primate Cone Variation

The Evolution of Primate Color Vision by Gerald H. Jacobs and Jeremy Nathans Scientific American April 2009 page 60

The Evolution of Primate Color Vision by Gerald H. Jacobs and Jeremy Nathans Scientific American April 2009 page 61

The Evolution of Primate Color Vision by Gerald H. Jacobs and Jeremy Nathans Scientific American April 2009 page 62

The Evolution of Primate Color Vision by Gerald H. Jacobs and Jeremy Nathans Scientific American April 2009 page 62

Organization of the Human Trichromatic Cone Mosaic. Heidi Hofer, The Journal of Neuroscience, (42):9669 –9679

The Evolution of Primate Color Vision by Gerald H. Jacobs and Jeremy Nathans Scientific American April 2009 page 63

Gene therapy in colour Robert Shapley Replacing a missing gene in adult colour-blind monkeys restores normal colour vision. How the new photoreceptor cells produced by this therapy lead to colour vision is a fascinating question.

Having three cones types does not produce trichromatic vision Cones need to be connected in an opponent system +L/-M -L/+M This requires special circuits from Cones to Bipolar to Ganglion cells Primates have an additional class of “midget” retinal ganglion cell receives its input from a single cone cell midget ganglion cells encode fine spatial detail first evolved to connect single cones to the brain enabled the detection of separate M and L opsins when they appeared in primates Midget ganglion cells are not present in other mammals. Color Vision Requires Opponent Processing