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SCIENTIST. SCI COMM. ARTIST. FISHERMAN.

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A LITTLE ABOUT ME

After graduating from Cornell University in 2016 with a BS in biology and a concentration in marine biology, I started my PhD in biology at Wake Forest University in Dr. Miriam Ashley-Ross' lab where I primarily researched amphibious behaviors of invasive fish species, such as Northern Snakeheads and Walking Catfish. After receiving my PhD in May 2020, I immediately started as postdoctoral research fellow in Dr. Doug Fudge's lab at Chapman University, where I studied the biomechanical properties of hagfish slime to see how they could be used to help people, such to safely and sustainably stop boat propellers at high speeds. In the summer of 2021, I joined the biology department at Salisbury University as an Assistant Professor of Physiology on the eastern shore of Maryland. My research interests include fish biology, functional morphology, biomechanics, and behavior, with a special focus on recreationally-important fish species, how amphibious fishes navigate terrestrial environments, and the invasive fish species. In addition to being a scientist, I am an artist that uses photography, Photoshop, and a biochemical technique called clearing and staining to create skeletal images of vertebrates. I am also a competitive fisherman on a mission to catch every species of fish (currently at 454!) and a scientific blogger for the journal Integrative Organismal Biology, Integrative and Comparative Biology, The Company of Biologists through Outside JEB, and the Discovery Channel TV show, A Fishing Story.

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THE FISH THAT WALK ON LAND

TED-Ed Lesson

With the help of the TED-Ed staff and the amazing animator Anna Benner, I created a lesson to teach people about amphibious fishes and their biology, diversity, and behaviors.

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HAGFISH: THE WORLD'S SLIMIEST CREATURES

TED-Ed Lesson

With the help of  co-educator Dr. Doug Fudge, the awesome animator Denis Spolitak, and the TED-Ed staff, we created a lesson to teach people about the how cool and slimy hagfish are!

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CURRENT AND RECENT RESEARCH

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ECOLOGY, DIET, REPRODUCTION, AND HEALTH OF INVASIVE FISHES OF THE CHESAPEAKE BAY

Blue Catfish (Ictalurus furcatus) and Northern Snakehead (Channa argus) are two invasive species that recently made their way into the Chesapeake Bay, and even more recently (less than 20 years) to the eastern Shore of Maryland. However, little is known about what they are eating, how quickly they are growing and reproducing, or if they brought any diseases with them. In partnership with the MD Department of Natural Resources and USGS, graduate student Zach Crum (right) is leading the research efforts with a team of undergraduates (including Jeromy Green, left) to learn how these fish are affecting the ecosystem of the Nanticoke River, the largest and most intact river on the Delmarva Peninsula, which is home to many sensitive and threatened species. So far, we have found a wide variety of prey items in their stomach from Striped Bass to blue crabs and even a full-sized wood duck!

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EMERSION AND FUNCTIONAL TERRESTRIAL LOCOMOTION BY THE INVASIVE NORTHERN SNAKEHEAD (CHANNA ARGUS)

In collaboration with the Maryland Department of Natural Resources, I studied the terrestrial locomotion, behaviors, and emersion of the Northern Snakehead, an invasive species throughout the United States. Using a combination of EMG and high-speed video, I have described how they are able to move overland on a variety of substrates over a broad size range. Through behavioral assays, I described how poor water conditions can cause snakeheads to emerge from the water. Working with several undergraduate students, my lab is currently investigating how their slime may reduce friction to help them move overland more easily, while their scales may allow them to move forward more effectively.

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TERRESTRIAL ORIENTATION AND NATURAL HISTORY OF THE INVASIVE WALKING CATFISH (CLARIAS BATRACHUS)

Walking Catfish are an invasive species in southern Florida that can breathe air and move well on land. While many amphibious fishes only come onto land during the day and use vision to orient out of water, Walking Catfish have relatively small eyes and often come onto land at night. In collaboration with the University of Florida, I used behavioral experiments to determine the senses and cues these fish use to orient out of water. I described how these fish are the first known example of fish using chemoreception for terrestrial orientation. Additionally, I crowd-sourcing natural history data on this species by analyzing YouTube videos and interviewing Floridians about the conditions surrounding sightings of Walking Catfish on land. While they often emerge in urban areas when it is wet out (sometimes swimming out of storm drains!), they will come onto land for a variety of reasons under a variety of conditions/

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REFFLING: AN ENTIRELY NEW FORM OF TERRESTRIAL LOCOMOTION

Armored Suckermouth Catfishes (Loricariidae or "Plecos") have incredible armor and morphology that great restricts their range of motion/flexibility. Despite this, they can move quite well on land. Through high-speed video, modeling, and microCT scans, I was able to describe their unique terrestrial locomotor behavior and how it is achieved. They coordinate asymmetric tail, pelvic fin, pectoral fin, body, and mouth movements to move forward on land in a way unlike any other locomotor behavior, which is why a new word was needed to describe this behavior: reffling (or repetitive flinging, based on tail movements that move the fish forward using inertia, not ground reaction forces). This unusual behavior is likely used because their morphology physical restricts them from moving overland using any other behavior. However, by having rigid connections between the vertebral column and the pelvic girdle, these fish are likely able to transmit force extremely well to the ground to aid inertial tail movements, propelling the fish forward.

Hagfish Slime

HAGFISH SLIME PROPERTIES AND USES

Hagfish are primitive, jawless, eyeless, and boneless fishes that live in the extreme depths of the oceans. They have a unique defense against predators: slime. Their slime is unlike other fish slime in that they can produce enormous quantities of dilute slime very rapidly. This slime is also reinforced by threads that are tough like spider silk. As a member of Dr. Doug Fudge's at Chapman University, we are investigating the possible uses of hagfish slime, such as how it could be used by the US Navy to safely stop boat propellers at high speed (pictured above, credit: NAVSEA). We are also describing the unusual properties of hagfish slime and the effects it has on predatory fish.

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GALLERY

To create my artwork, I use a biochemical research technique called clearing and staining. It involves using a series of chemicals to stain certain tissues certain colors (i.e., cartilage is stained blue and bone is stained purple or red) while dissolving away everything else. While this technique is great for highlighting the anatomy that I want to focus on, it also creates cool images! I then modify the images in Photoshop to enhance or change colors and add effects. To arrange art exhibits/shows, please contact me at: noahbressman@gmail.com. To purchase artwork in a variety of sizes, colors, and media, please contact me or check out my online shop: https://fineartamerica.com/profiles/noah-bressman. All artwork here is trademarked and property of Noah Bressman.

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RECENT BLOG POSTS

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September 29th, 2021

Jun 29th, 2021

April 6th, 2021

March 31st, 2021

January 4th, 2021

November 7th, 2020

November 2nd, 2020

August 18th, 2020

August 14th, 2020

August 5th, 2020

July 28th, 2020

May 19th, 2020

May 11th, 2020

April 14, 2020

April 4th, 2020

February 25th, 2020

February 25th, 2020

February 3rd, 2020

September 24th, 2019

June 27th, 2019

February 5th, 2019

December 11th, 2018

November 11th, 2018

October 22nd, 2018

LIMITED CV

ASSISTANT PROFESSOR OF PHYSIOLOGY AT SALISBURY UNIVERSITY

Summer 2021 - Present

I recently started up my lab on eastern shore of Maryland, which focuses on invasive species, amphibious fishes, biomechanics, and fishing-related projects. Currently, I teach Fish Biology, Biology of the Vertebrates, and Human Anatomy and Physiology

LECTURER AT THE UNIVERSITY OF SAN DIEGO

Spring 2021 Semester

Natural History of the Vertebrates

POST-DOCTORAL RESEARCH FELLOW - CHAPMAN UNIVERSITY

May 2020 - May 2021

Working in Dr. Doug Fudge's lab on a Department of Defense grant to study how hagfish slime can be used to safely stop moving boat propeller, as well as mentoring undergrads while describing the properties of hagfish slime.

OUTSTANDING BIOLOGY GRADUATE STUDENT AWARD

May 2020

Awarded by the Biology Department at Wake Forest University, Winston-Salem, NC

NOMINATION TO THE MID-ATLANTIC FISHERIES MANAGEMENT COUNCIL

Spring 2017

While I ultimately did not receive the federal appointment, I was one of three nominees by NY Governor Andrew Cuomo to represent New York State on the MAFMC.

PHD PROGRAM - WAKE FOREST UNIVERSITY

August 2016 - May 2020

Received my PhD in biology at Wake Forest University, studying fish biomechanics, functional morphology, and behavior.

FISH FUNCTIONAL MORPHOLOGY COURSE - UNIVERSITY OF WASHINGTON

Summer 2016

Student in the graduate-level research course at Friday Harbor Labs, University of Washington. Researched the ossification in sculpins, and how it related to habitat and phylogeny.

NATIONAL SCIENCE FOUNDATION GRADUATE RESEARCH FELLOWSHIP

August 2016 - May 2020

Received the NSF GRFP in March 2016 to pursue my PhD at Wake Forest University, studying terrestrial locomotion and orientation in fishes.

BLINKS-NSF REU-BEACON RESEARCH INTERNSHIP - UNIVERSITY OF WASHINGTON

Summer 2015

Performed an REU at Friday Harbor Labs with Drs. Alice Gibb and Stacy Farina on the terrestrial locomotion of the Tidepool Sculpin (Oligocottus maculosus)

BACHELOR'S DEGREE - CORNELL UNIVERSITY - MAGNA CUM LAUDE

August 2012 - May 2016

Graduated from Cornell University with a degree in biology and a concentration in marine biology. Worked as an undergraduate researcher in Dr. Willy Bemis' lab while at Cornell, studying fish functional morphology, behavior, and biomechanics.

VOLUNTEER EDUCATOR

2012 - 2017

Volunteer educator and gallery guide at the Maritime Aquarium in Norwalk, CT.

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CONTACT ME

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