scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.VISRES.2019.04.006 |
P698 | PubMed publication ID | 31026466 |
P50 | author | Elke K Buschbeck | Q88194820 |
Daniel B Zurek | Q88407071 | ||
P2093 | author name string | John T Goté | |
Nathan I Morehouse | |||
Patrick M Butler | |||
P2860 | cites work | Paedomorphic facial expressions give dogs a selective advantage | Q21132392 |
A spider that feeds indirectly on vertebrate blood by choosing female mosquitoes as prey | Q24536064 | ||
Multi-modal courtship in the peacock spider, Maratus volans (O.P.-Cambridge, 1874) | Q27318358 | ||
Molecular characterization and embryonic origin of the eyes in the common house spider Parasteatoda tepidariorum | Q28646308 | ||
Fitting Linear Mixed-Effects Models Using lme4 | Q30477923 | ||
Postnatal mammalian retinal development: quantitative data and general rules | Q30566032 | ||
Eye size in geckos: Asymmetry, allometry, sexual dimorphism, and behavioral correlates | Q33264157 | ||
Pupil size in spider eyes is linked to post-ecdysal lens growth | Q33786840 | ||
Saccadic tracking of targets mediated by the anterior-lateral eyes of jumping spiders. | Q34211335 | ||
Depth perception from image defocus in a jumping spider. | Q34250077 | ||
Hyperacute motion detection by the lateral eyes of jumping spiders. | Q34285241 | ||
Homeostasis of eye growth and the question of myopia | Q35863480 | ||
The discerning predator: decision rules underlying prey classification by a mosquito-eating jumping spider | Q36012293 | ||
Building an ommatidium one cell at a time | Q36189098 | ||
Nonhuman Primate Ocular Biometry | Q36504179 | ||
Continuity versus split and reconstitution: exploring the molecular developmental corollaries of insect eye primordium evolution | Q36594259 | ||
Signal efficacy and the evolution of male dimorphism in the jumping spider, Maevia inclemens | Q36735735 | ||
Building a fly eye: terminal differentiation events of the retina, corneal lens, and pigmented epithelia | Q37801481 | ||
Genetic and developmental mechanisms underlying the formation of the Drosophila compound eye. | Q37935703 | ||
Emmetropisation and the aetiology of refractive errors | Q38177078 | ||
Rapid and step-wise eye growth in molting diving beetle larvae | Q40551977 | ||
Arthropod eye design and the physical limits to spatial resolving power | Q40882939 | ||
Visual acuity and sensitivity increase allometrically with body size in butterflies | Q42027853 | ||
A paraxial schematic eye model for the growing C57BL/6 mouse | Q44897677 | ||
The Tribolium homologue of glass and the evolution of insect larval eyes | Q45189398 | ||
Retinal neurogenesis and ontogenetic changes in the visual system of the brown banded bamboo shark, Chiloscyllium punctatum (Hemiscyllidae, Elasmobranchii). | Q46183822 | ||
Molecular Evolution of Spider Vision: New Opportunities, Familiar Players | Q46252888 | ||
Representation of different exact numbers of prey by a spider-eating predator. | Q46931294 | ||
Giving invertebrates an eye exam: an ophthalmoscope that utilizes the autofluorescence of photoreceptors. | Q47344697 | ||
The allometry and scaling of the size of vertebrate eyes | Q47419456 | ||
A Complex Lens for a Complex Eye. | Q47676754 | ||
Multitasking in an eye: the unusual organization of the Thermonectus marmoratus principal larval eyes allows for far and near vision and might aid in depth perception. | Q52771064 | ||
Spectral filtering enables trichromatic vision in colorful jumping spiders. | Q55059113 | ||
USE OF ANOPHELES-SPECIFIC PREY-CAPTURE BEHAVIOR BY THE SMALL JUVENILES OF EVARCHA CULICIVORA, A MOSQUITO-EATING JUMPING SPIDER | Q56165881 | ||
Alternative predatory tactics in a juvenile jumping spider | Q56166079 | ||
Development of prey-specific predatory behavior in a jumping spider (Araneae: Salticidae) | Q56166426 | ||
The role of numerical competence in a specialized predatory strategy of an araneophagic spider | Q56636499 | ||
Orbit orientation and eye morphometrics in giraffes (Giraffa camelopardalis) | Q57999008 | ||
Morphogenesis of a tiered principal retina and the evolution of jumping spiders | Q58975012 | ||
The principal eyes of a jumping spider have a telephoto component | Q59055671 | ||
Complex display behaviour during the intraspecific interactions of myrmecomorphic jumping spiders (Araneae, Salticidae) | Q60325492 | ||
Ontogenetic changes in the visual acuity of Sepia officinalis measured using the optomotor response | Q64032640 | ||
Fish vision and the detection of planktonic prey | Q70527980 | ||
Fine structure of the eyes of jumping spiders | Q70643782 | ||
Pentapeptide (Proctolin) Associated with an Identified Neuron | Q72479172 | ||
Scanning and route selection in the jumping spider Portia labiata | Q78162954 | ||
Predatory behavior of jumping spiders | Q79760095 | ||
Emmetropization and schematic eye models in developing pigmented guinea pigs | Q79948716 | ||
Small fruit flies sacrifice temporal acuity to maintain contrast sensitivity | Q88957556 | ||
Natural history and display behaviour of Servaea incana, a common and widespread Australian jumping spider (Araneae : Salticidae) | Q99974943 | ||
P304 | page(s) | 24-36 | |
P577 | publication date | 2019-05-13 | |
P1433 | published in | Vision Research | Q1307852 |
P1476 | title | Growing tiny eyes: How juvenile jumping spiders retain high visual performance in the face of size limitations and developmental constraints | |
P478 | volume | 160 |
Q91518427 | The astonishing diversity of vision: Introduction to an issue of Vision Research on animal vision | cites work | P2860 |