In addition to studying the functional morphology and evolution of lizards and snakes, Professor Schwenk also researches the breathing and communication mechanisms of frogs and tadpoles. Schwenk uses high-speed video to fully expose hidden details within evolution and life. Feeding and chemosensory functions are of particular interest.
Areas of Expertise
University of California - Berkeley
Nancy Gonzalez, ‘Sex and the City’ designer beloved by A-listers, busted on smuggling endangered snakeskins for handbags
New York Post online
It is unclear what species of python and caiman skin Gonzalez possessed — and would be impossible to determine from just a photo, an ecology and biology expert said. “Of course, this is exactly the problem with this issue and why it is a major concern. Without examination of every imported product by a forensic specialist, a lot of illegal material makes it through,” Dr. Kurt Schwenk of the University of Connecticut told The Post Friday night. “Furthermore, in Asia (and probably other places) there are pseudo-breeding facilities for reptiles that, in fact, collect them in the wild, bring them in the back door, hold them for a while and then claim they are ‘captive-bred,’ selling them illegally. These practices are decimating wild populations, in addition to habitat loss.”
One man's mission to find Connecticut's rarest snake: 'It's my white whale'
Hearst Connecticut print
Unlike most other snakes, the tiny reptile is an active hunter, chasing its insect prey in dense grasses. Most other snakes in New England eat small animals, like birds, salamanders and small mammals. The smooth green is the only specialized insectivore among them. “There aren’t many snakes that are insectivores,” said Kurt Schwenk a herpetologist at UConn, “Insect eating is the most common diet for lizards but it’s amazingly rare for snakes.”
Watch tiny tadpoles breathe by ‘bubble sucking’
Popular Science print
Blowing spit bubbles might seem silly or immature, but when you’re a tiny aquatic creature just trying to catch a breath, there’s a good reason for it. A few summers ago, Kurt Schwenk noticed a splashy new behavior while watching baby tree frogs shimmy around a tank. “One came to the surface and did something strange,” the University of Connecticut evolutionary biologist says. “When it swam away it left a bubble behind.” Schwenk and his graduate student Jackson Phillips had planned to feed the tadpoles to salamanders for another study, but they quickly switched course. They thought the bubble could be a clue to how young amphibians flex their developing lungs without breaching the water’s surface.
Meet the Snake That Hunts Birds With a Spider On Its Tail
“It’s one of those things that makes me feel awe in the power of natural selection,” says Kurt Schwenk, an evolutionary biology professor at the University of Connecticut, who specializes in the feeding and chemosensory systems of lizards and snakes. “The evolution of luring is more complex than contrasting color or simple shaking — the movement is precisely adapted to duplicate prey movement frequencies, amplitudes and directions, at least in specialized cases.”
There's a Scientific Reason a Snake's "Tongue Flick" Is So Creepy
Most animals with tongues use them for tasting, to clean themselves or others, or to capture or manipulate their prey. A few, including humans, also use them to make sounds. Snakes do not use their tongues for any of these things. Over the past 20 years, Kurt Schwenk, an evolutionary biologist at the University of Connecticut, has been working on understanding the function of snake tongues, and “smelling” is the closest description of what snakes do with their tongues...
Super-sticky saliva helps chameleons catch huge prey, scientists say
Los Angeles Time online
“We want to understand, down to the molecular level, how the system works,” said Kurt Schwenk, a biologist at University of Connecticut who was not involved in the new research. “This is the first study that looks at a very fine scale...”
The world's most ruthless snake has a spider-like tail. You don't want to know what it does with it.
Mashable SE Asia online
“It’s one of those things that makes me feel awe in the power of natural selection. The evolution of luring is more complex than contrasting color or simple shaking — the movement is precisely adapted to duplicate prey movement frequencies, amplitudes and directions, at least in specialized cases," University of Connecticut's evolutionary biology professor Kurt Schwenk, says.
Smelling in stereo – the real reason snakes have flicking, forked tonguesThe Conversation
As dinosaurs lumbered through the humid cycad forests of ancient South America 180 million years ago, primeval lizards scurried, unnoticed, beneath their feet. Perhaps to avoid being trampled by their giant kin, some of these early lizards sought refuge underground. Here they evolved long, slender bodies and reduced limbs to negotiate the narrow nooks and crevices beneath the surface. Without light, their vision faded, but to take its place, an especially acute sense of smell evolved.
Aquatic and semiaquatic reptilesSensory Evolution on the Threshold
2008 Vertebrate life became terrestrial about 370 mil-lion years ago when a lobe-ﬁnned ﬁsh evolved into the giant-salamander-like shape of a labyrinthodont amphibian. The transition is well documented in the fossil record, and important discoveries continue to ﬁll out its details. Over the eons subsequent to the water-to-land transition, vertebrates became more and more independent from water.
Sexual size dimorphism of the tongue in a North American pitviperJournal of Zoology
2008 Sexual dimorphisms – phenotypic dissimilarities between the sexes – are common and widespread among plants and animals, and classical examples include differences in body size, colour, shape, ornamentation and behaviour. In general, sexual dimorphisms are hypothesized to evolve by way of sexual selection acting on one sex through priority-of-access for sexual partners via mate choice and/or intra-sexual competition.
Diversity of Vertebrate Feeding SystemsPhsiological and Ecological Adaption to Feeding in Vertebrates
2005 The vertebrate gut tube can be divided into “front-end” and “back-end” components according to topology, function, and research tradition. The purpose of front-end feeding systems is to acquire food to be delivered to the back-end for chemical digestion and assimilation. In accomplishing this, the feeding system faces as many as five separate mechanical tasks recognized as “feeding stages:” capture/subjugation, ingestion, transport, processing, and swallowing.