scholarly article | Q13442814 |
P50 | author | Anthony Herrel | Q30518178 |
P2093 | author name string | Dang PD | |
Kley NJ | |||
Vincent SE | |||
P2860 | cites work | Confidence Limits on Phylogenies: an Approach using the Bootstrap | Q26778379 |
Projecting mechanics into morphospace: disparity in the feeding system of labrid fishes | Q28765768 | ||
Phylogenetic relationships of the dwarf boas and a comparison of Bayesian and bootstrap measures of phylogenetic support. | Q30868248 | ||
Snake phylogeny based on osteology, soft anatomy and ecology | Q31109148 | ||
Higher-level relationships of snakes inferred from four nuclear and mitochondrial genes | Q31121681 | ||
New insights into the early history of snakes inferred from two nuclear genes | Q33200888 | ||
Ecological diversification in a group of Indomalayan pitvipers (Trimeresurus): convergence in taxonomically important traits has implications for species identification. | Q33205139 | ||
Studies on the morphology and function of the skull in the Boidae (Serpentes). II. Morphology and function of the jaw apparatus in Phython sebae and Python molurus | Q36580611 | ||
The functional meaning of "prey size" in water snakes (Nerodia fasciata, Colubridae). | Q38512613 | ||
Snake phylogeny: evidence from nuclear and mitochondrial genes | Q42681396 | ||
Molecular systematics and evolution of Regina and the thamnophiine snakes. | Q44168056 | ||
How snakes eat snakes: the biomechanical challenges of ophiophagy for the California kingsnake, Lampropeltis getula californiae (Serpentes: Colubridae). | Q44989060 | ||
A fossil snake with limbs | Q45282269 | ||
Molecular phylogenetics of squamata: the position of snakes, amphisbaenians, and dibamids, and the root of the squamate tree | Q48164266 | ||
PHYLOGENETIC ANALYSES OF THE CORRELATED EVOLUTION OF CONTINUOUS CHARACTERS: A SIMULATION STUDY. | Q53980055 | ||
The influence of sex and body size on food habits of a giant tropical snake, Python reticulatus | Q56114167 | ||
Perspective: Complex Adaptations and the Evolution of Evolvability | Q56432056 | ||
A novel foraging mode in snakes: browsing by the sea snake Emydocephalus annulatus (Serpentes, Hydrophiidae) | Q56601903 | ||
Plastic vipers: influence of food intake on the size and shape of Gaboon vipers (Bitis gabonica) | Q57236911 | ||
Sexual Dimorphism and Niche Divergence: Feeding Habits of the Arafura Filesnake | Q57635485 | ||
Comparisons of aquatic versus terrestrial predatory strikes in the pitviper,Agkistrodon piscivorus | Q58038283 | ||
Sexual dimorphism in head shape and diet in the cottonmouth snake (Agkistrodon piscivorus) | Q58038315 | ||
Phenotypic integration: studying the ecology and evolution of complex phenotypes | Q59409982 | ||
The Advantage of a Big Head: Swallowing Performance in Adders, Vipera berus | Q60481893 | ||
Stopping Rules in Principal Components Analysis: A Comparison of Heuristical and Statistical Approaches | Q60541803 | ||
Morphological and ecological convergence in two natricine snakes | Q60557412 | ||
Phenotypic covariance structure in tamarins (genus Saguinus): a comparison of variation patterns using matrix correlation and common principal component analysis | Q73572537 | ||
Convergence and the multidimensional niche | Q81608600 | ||
Sexual Size Dimorphism in Snakes Revisited | Q95640677 | ||
Morphology, Reproduction, and Diet of the Marine Homalopsine Snake Bitia hydroides in Peninsular Malaysia | Q95640840 | ||
Reproductive Biology and Food Habits of Horned Adders, Bitis caudalis (Viperidae), from Southern Africa | Q95666413 | ||
Evidence for Phenotypic Plasticity in Snake Body Size and Relative Head Dimensions in Response to Amount and Size of Prey | Q95666658 | ||
Diet of the Baja California Rattlesnake,Crotalus enyo(Viperidae) | Q95667338 | ||
Trophic Ecology of Lapemis curtus (Hydrophiinae) along the Western Coast of India | Q95668307 | ||
Gape size and evolution of diet in snakes: feeding ecology of erycine boas | Q101631205 | ||
The prey and predators of Homalopsine snakes | Q101631590 | ||
Dietary Correlates of the Origin and Radiation of Snakes | Q101632158 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | phylogenetics | Q171184 |
P1104 | number of pages | 10 | |
P304 | page(s) | 1545-1554 | |
P577 | publication date | 2006-09-01 | |
P1433 | published in | Journal of Evolutionary Biology | Q781831 |
P1476 | title | Morphological integration and adaptation in the snake feeding system: a comparative phylogenetic study | |
P478 | volume | 19 |
Q28604165 | Are Diet Preferences Associated to Skulls Shape Diversification in Xenodontine Snakes? |
Q51271188 | Does aquatic foraging impact head shape evolution in snakes? |
Q36061828 | Ecological specialization and morphological diversification in Greater Antillean boas |
Q90170526 | Female-biased gape and body-size dimorphism in the New World watersnakes (tribe: Thamnophiini) oppose predictions from Rensch's rule |
Q38456973 | Gape size, its morphological basis, and the validity of gape indices in western diamond-backed rattlesnakes (Crotalus atrox). |
Q91252823 | Geometric morphometric analyses of sexual dimorphism and allometry in two sympatric snakes: Natrix helvetica (Natricidae) and Vipera berus (Viperidae) |
Q101631764 | How big is too big? Using crustacean-eating snakes (Homalopsidae) to test how anatomy and behaviour affect prey size and feeding performance |
Q116206057 | Patterns of morphological variation following colonization of a novel prey environment |
Q44572278 | Snake lower jaw skin: extension and recovery of a hyperextensible keratinized integument |
Q101402487 | The relationship of head morphology and diet among three sympatric watersnake species |
Q34352919 | Viewpoints: feeding mechanics, diet, and dietary adaptations in early hominins. |
Q97529697 | What makes a fang? Phylogenetic and ecological controls on tooth evolution in rear-fanged snakes |