General

Question 1

Hearing organs are specialised structures that serve the following primary physical functions:

Answer 1

The coupling of sound to the organism
The conversion of sound into mechanical energy
The conversion into useful nerve signals

Question 2

Physical dimensions of sound

Answer 2

Frequency range
Frequency resolution
Temporal resolution
Amplitude range
Amplitude resolution

Question 3

Human amplitude threshold

Answer 3

1000 Hz (1dB)

Question 4

Minimal energy detectable for a human at threshold

Answer 4

4zJ

Question 5

Tool to estimate the frequency composition of a waveform

Answer 5

Fast Fourier Transform (FFT)

Question 6

Sound graphs:
Amplitude over time
Frequency over time
Frequency and relative amplitude / overall frequency composition

Answer 6

Amp - oscillogram
Freq - sonogram
Freq and amp - power spectrum

Question 7

Proximal adaptations for hearing

How

Answer 7

Directionality
High sensitivity
Frequency selectivity

Question 8

Ultimate adaptations for hearing

Why

Answer 8

Mate detection
Predator detection
Prey detection

Question 9

Transmission - object size to wavelength ratio

Answer 9

1:10

Question 10

Diffraction - object larger than …… of the wavelength

Answer 10

1/10

Question 11

Water depth where sound transmits well

Answer 11

600 - 800 m

Question 12

Resolutions and ranges humans can detect:
Frequency range
Dynamic range
Frequency resolution
Temporal resolution
Amplitude resolution
Angular resolution

Answer 12

Frequency range = 20 Hz - 20 kHz
Dynamic range = 0 dB - 140 dB
Frequency resolution = 1%
Temporal resolution = 1 us
Amplitude resolution = 1 dB
Angular resolution = 1 degree

Question 13

Two types of hearing organs and what they respond to

Answer 13

Pressure receivers - pressure

Particle velocity receivers - particle velocity

Question 14

Number of mechanosensory cells at pedicel of chironomid fly antennae

Answer 14

16,000

Question 15

Directional hearing acoustic cues

Answer 15

Interaural time difference
Interaural amplitude difference
Spectral information (frequency content)

Question 16

Types of systems for hearing directional information

Answer 16

Independent pressure receivers
Pressure difference receivers
Mechanically coupled pressure receptors

Question 17

Ormia ochracea mechanical ITD

Delay measured by microphone

Answer 17

50 us

1.4 us

Question 18

Frequencies associated with coupled tympanal membrane modes

Answer 18

Mode 1 - low frequency (4 kHz)
Mode 2 - intermediate
Mode 3 - high

Question 19

Arachnoscelis / Ultrasonus frequency of communication

Answer 19

153 kHz

Question 20

Who discovered Ampullae of Lorenzini and when?

Answer 20

Stefano Lorenzini (1678)

Question 21

% overall energy some flowers invest into nectar production

Answer 21

37%

Question 22

Charge density unit

Answer 22

Volts per meter

Question 23

What do we need to ask when looking at a sense?

Answer 23

Cues, physical quantities
Behavioural evidence
Detection, perception
Thresholds
Sensory substrate
Adequate stimulus, information

Question 24

Chemical formula of magnetite

Answer 24

Fe3O4

Question 25

What is the significance of H vector?

Answer 25

Points to magnetic N

Question 26

What is angle D?

Answer 26

Declination angle

Between geographic and magnetic north

Question 27

What is angle I?

Answer 27

Inclination angle

Angle of the horizontal plane

Question 28

Field intensities information
Ambient field
Local variations
Behavioural thresholds

Answer 28

Ambient field = 30,000 - 60,000 nT
Local variations = 1,000 nT
Behavioural thresholds = 25-50 nT

Question 29

The successive phases of long-distance navigation

Answer 29

Long-distance phase - celestial, magnetic, landmarks
Homing phase - compasses, landmarks, olfaction, soundscapes
Pinpointing the goal phase - cues

Question 30

Speed of light

Answer 30

300 x 10^6 ms^-1

Question 31

Irradiance levels in different light levels and types
Photopic
     Sunlight
     Sunrise / set
Mesopic
     Twilight
     Full moon
Scotopic
     Starlight

Answer 31

Sunlight = 10^20
Sunrise / set = 10^18
Twilight = 10^16
Full moon = 10^14
Starlight = 10^12

Question 32

Threshold irradiance for human vision

Answer 32

10^10 Ph m^-2 s ^-1

Question 33

What can happen when a molecule absorbs a photon?

Answer 33

Vibrate
Electrons excited and jump to higher energy state
Ionized

Question 34

What can excited molecules do?

Answer 34

Fluoresce / phosphoresce
Change shape
React with another molecule
Break apart

Question 35

Spectroscopy measurements

Answer 35

Transmission
Absorptance (P)
Absorbance (A)

Question 36

% space in rod outer segment occupied by rhodopsin

Answer 36

50%

Question 37

Chromophore molecule name
Rhodopsins
Porphyropsins

Answer 37

Retina

3,4-dehydroretinal

Question 38

How long does the cis trans isomerisation of retinal take

Answer 38

500 femtoseconds

Question 39

Rod maximum absorbance and absorption range

Answer 39

498 nm

350 - 580 nm

Question 40

Blue pigment maximum absorbance

Answer 40

420 nm

Question 41

Green pigment maximum absorbance

Answer 41

534 nm

Question 42

Red pigment maximum absorbance

Answer 42

564 nm

Question 43

Visible light wavelength

Answer 43

400 - 700 nm

Question 44

Types of heat sensor

Answer 44

Convective

Radiant

Question 45

Forest fire temperature and wavelength

Answer 45

425 - 1,000 degreesC

2 - 3 um

Question 46

How many mya was the Cambrian explosion?

Answer 46

530 mya

Question 47

Duration of the Cambrian explosion

Answer 47

5 my

Question 48

Number of facets in anomalocaris

Answer 48

15,000

Question 49

When was Haikouichthys around?

Answer 49

500 - 550 mya

Question 50

Stages of the evolution of the eye

Answer 50

Detect light
Screening pigment
Membrane stacking
Lens system / focusing optics

Question 51

What is non-directional photoreception used for?

Answer 51

Monitoring light intensity
Depth control
Entrainment for a circadian clock
Shadow response

Question 52

Characteristics of non-directional photoreception

Answer 52

Typically slow response
Large dynamic change
No adaptation

Question 53

How many degrees does each photoreceptor in the eye of a nautilus sample?

Answer 53

25 degrees

Question 54

Where colour vision has evolved and how many times

Answer 54

Twice
Vertebrates
Ecdysozoa

Question 55

Who won Nobel prize in 1920s about how animals see colour?

Answer 55

Karl von Frisch

Question 56

Why is colour vision important to the ecology of animals?

Answer 56

Signals
Camouflage
Communication

Question 57

3 mechanisms of colour vision

Answer 57

Changes to the opsin
Using a different chromophore
Filters

Question 58

Vertebrate and invertebrate rhodopsin types

Answer 58

V - C-type (ciliary)

I - R-type (rhabdomeric)

Question 59

Position chromophore attached to

Answer 59

296

Question 60

Bond of chromophore to opsin

Answer 60

Covalently

Question 61

Residue chromophore bonded to

Answer 61

Lysine

Question 62

Order of signal transduction cascade - vertebrates

Answer 62

Chromophore
Rhodopsin
Transducin
PDE
cGMP
cGMP gated channels closed
Hyperpolarisation

Question 63

Order of signal transduction cascade - invertebrates

Answer 63

Chromophore
Opsin
Gq
trp channels opened
Depolarisation

Question 64

Full name for A2

Answer 64

3,4-dihydroretinal

Question 65

Chromophores invertebrates use

Answer 65

A1 and A3

Question 66

A1 sensitivity

Answer 66

630-640 nm

Question 67

A2 sensitivity

Answer 67

Up to almost 770 nm

Question 68

When did stomatopods split from other crustaceans?

Answer 68

280 - 300 mya

Question 69

How many stomatopod species and superfamilies?

Answer 69

Over 500 species

9 superfamilies

Question 70

3 parts of the stomatopod eye

Answer 70

Dorsal hemisphere
Ventral hemisphere
Mid band

Question 71

Number of stomaptopod UV visual pigments

Answer 71

6

Question 72

What is polarisation created by?

Answer 72

Scattering
Reflection
Polarisers

Question 73

Stages in polarisation sensitivity

Answer 73

Molecular
Cellular
Neural / behaviour

Question 74

Who studying Saharan ants and polarisation?

Answer 74

Rudiger Wehner

Question 75

Degree of polarisation in light polluted vs rural

Answer 75

16% vs almost 50%

Question 76

Crustacean angle of polarisation resolution

Answer 76

10-15 degrees

Question 77

Stomatopod group that uses polarisation and structural colour

Answer 77

Haptosquillids

Question 78

SWS bird cone sensitivity

Answer 78

Ultraviolet or violet

When maximally sensitive to UV = 360 nm

Question 79

Who studied sexual dimorphism in bird UV reflectance?

Answer 79

Ben Sheldon

Question 80

Why high contrast patterns as aposematism / what do they increase?

Answer 80

Saliency, memorability, consistency

Question 81

Irradiance spectrum at 1500 m compared to surface

Answer 81

12 orders of magnitude less

Question 82

Maximum transmission at 1500 m

Answer 82

460 nm

Question 83

Maximum transmission for water vs fish (marine)

Answer 83

Water - 460 nm

Fish - 480 nm

Question 84

Deep sea red sensitive visual pigment species

Changing chromophore from A1 to A2 can give opsin maximally sensitive to:

Answer 84

520 and 551 nm

588 and 669 nm

Question 85

Methods of fiddler crab communication

Answer 85

Vibrations
Colour
Movement

Question 86

Action-perception cycle

Answer 86

Sensory transduction
Sensory processing
Multi-sensory integration
Sensorimotor tranformation
Motor activity

Question 87

Who asked how insects detect directional motion and when?

Answer 87

Hassenstein and Reichardt (1953, 1956)

Question 88

Layers in insect brain that visual inputs pass through (in order)

Answer 88

Lamina
Medulla
Lobula

Question 89

Which photoreceptive cells are an exception to the order visual inputs pass through in the insect brain? Why?

Answer 89

R7 and R8

Skip lamina

Question 90

Where is optic flow processed and used in the insect brain?

Answer 90

Lobula plate