"Why Meme?", A Literature Review

What's up guys? Adrian here.

As you can probably tell, we chose Meme as our adopted life because we consider her (?) an attractive case for biomimicry. Her various features make for an array of interesting engineering applications. How do we know this to be true? Well that’s what I'm here to clarify.

Based on scientific literature, I can show you why we chose Meme as our adopted life. As mentioned by my group leader Aisyah before, Meme is a plant which can trap insects as prey and digest them for energy. Did you know that engineers have already considered this amazing feature of nature for engineering applications? 

The Venus Flytrap is a monotypic genus that exhibits a carnivorous lifestyle. The Venus Flytrap uses a snap trap to catch, digest and "eat" animals. To digest its food and assimilate the nutrients, carnivorous plants have to break down their chitin-rich shield (cuticle) before additional enzymes can penetrate and degrade internal tissues. Since carnivorous plants such as Venus Flytraps commonly feed on chitin cuticle-shielded animals, the digestive fluid within these plants should contain chitin-degrading enzymes known as chitinase. The chitinase in the venus flytrap is expected to be i) functional at relatively high temperatures, ii) have an acidic pH optimum, iii) be resistant towards proteolytic degradation and iv) degrade crystalline chitin. With so many attributes to this fluid, P. Pastoza et al. notes that these peculiar characteristics could very well be used in industry for its ability to hydrolyze both soluble and crystalline chitin substrates. [1]
Besides that, Venus Flytraps are known to have incredible reaction times. Why is that? This is because when insects touch the trigger hairs of the plant, a receptor potential is triggered which sends an electrical signal that acts as an action potential. All it takes is two stimuli to activate the trap, which closes in a fraction of a second. This rapid closure has been attracting attention for its possible applications in engineering industry.  

A. Volkov et al. stated in his study that the reason why plants developed such an acute sense of reaction probably lies in environmental stress factors. The research explores the character of electrical stimuli which triggers the trap as well as discovers the presence of sensory memory within the plant. [2]

In a more recent study, A. Volkov et al. researched biomechanics and forces involved with the Venus Flytrap. It is stated that the Venus Flytrap does not crush the insect it catches but merely entraps it like a cage with the lobes of the trap changing from convex to concave. It is found that by understanding the mechanics of the trap, it is possible to design a closing mechanism with a high force that merely encaptures the small object rather than crushes it. The trap also responds quickly and can be activated through mechanical or electrical impulse. The applications for such a concept is important for industrial purposes such as creating rapid response safety mechanisms that protect the consumer upon a slight detection of stimuli. [3]

Figure 2: View of the Venus Flytrap when the trap closes shut

Mohsen Shahinpoor et al., was the first researcher to create a robotic version of the Venus Flytrap. The robot Venus Flytrap makes use of a material known as ionic polymeric metal composite (IPMC) that mimics muscle actuators. This new material in the robot works in two ways. First, because of the unique properties of the IPMC material, simply touching it causes a very small voltage to be generated. The second is the muscle type flexing or bending, exhibited by the material when given a charge. With the robot, the small strips serve as sensors, that when touched, relay a tiny charge to the voltage generator which sends a little bit bigger charge to the “leaves” causing them to bend inwardly towards one another, or in viewing it, as a mouth closing on its prey. [4]

Figure 3: Robotic Venus Flytrap responding to electrical impulses

The combination of this technology with the fluids to digest prey into energy are astounding. The future could be filled with robots who "eat" to self-sustain themselves, thus alleviating the need for an external power source.

References

[1] P. Paszota, M. Escalante-Perez, L. R. Thomsen, M. W. Risør, A. Dembski, L. Sanglas, T. a. Nielsen, H. Karring, I. B. Thøgersen, R. Hedrich, J. J. Enghild, I. Kreuzer, and K. W. Sanggaard, “Secreted major Venus flytrap chitinase enables digestion of Arthropod prey,” Biochim. Biophys. Acta - Proteins Proteomics, vol. 1844, no. 2, pp. 374–383, 2014.

[2] A. G. Volkov, H. Carrell, A. Baldwin, and V. S. Markin, “Electrical memory in Venus flytrap,” Bioelectrochemistry, vol. 75, no. 2, pp. 142–147, 2009.

[3] A. G. Volkov, S. L. Harris, C. L. Vilfranc, V. a. Murphy, J. D. Wooten, H. Paulicin, M. I. Volkova, and V. S. Markin, “Venus flytrap biomechanics: Forces in the Dionaea muscipula trap,” J. Plant Physiol., vol. 170, no. 1, pp. 25–32, 2013.

[4] K. J. Kim and M. Shahinpoor, “A novel method of manufacturing three-dimensional ionic polymer-metal composites (IPMCs) biomimetic sensors, actuators and artificial muscles,” Polymer (Guildf)., vol. 43, no. 3, pp. 797–802, 2001.  

Intoducing.. *drumroll*

.. Our beloved pet, Meme!

Thaaat's right, you got it folks! We adopted a vicious, ferocious, meat-eating Venus Flytrap and aptly named it with the most adorable nickname we could think of. As her name suggests, Meme is a plant that is able seduce an insect (or two) to venture into her alluring lips and instantly (literally, she does this within milliseconds) snap those lips shut, rendering her prey immobile.  Her lips are basically two hinged lobes at the end of two leaves.  On the inner surface of her 'lips' are hair-like follicles named trichomes which are responsible in detecting an insect when it touches them.  These insects are then trapped inside Meme, and with the help of interlocking bristles at the end of each lobe, unable to crawl or fly out.  Over a course of a few hours, Meme will slowly digest the insect and turn it into energy. That concludes the detailed description of how Meme has breakfast, lunch or dinner.  

Ah, but wait.  What if, you ask, something else touches Meme's inner hair-like bristles?  Something inedible like say, a small rock?

To ensure that Meme doesn't waste her time and energy on trying to digest that which cannot be digested, her trichomes must be activated not once but multiple times.  But if by chance this rock decides to roll about a bit inside Meme's lips and she mistakes it for food, her lips will open in twelve hours after having unsuccessfully tried to feed on it. 

Just in case you have thought of this question (like I have)... Meme is a plant, and she is a green plant.  This indicates that she is in fact, in possession of chlorophyll and is able to thrive in sunlight.  So why does Meme need to feed on insects?

Meme is a special plant that can survive and thrive in even the most nutrient-deprived soil conditions (this is an exaggeration, Meme is not as 'badass' as a cactus but you get the idea).  Meme lives in acidic soil that are usually deprived of nutrients needed by most plants to survive.  As such, Meme has adapted to her surroundings and has developed her own way to survive.  The nutrients she does not get from the soil, she gets elsewhere. *evil grin*

Meme's pretty interesting isn't she?  Here are some other unique facts about Meme that'll get you as interested in her as we are:

• Meme can live a long healthy life of approximately 20 years and more (she can probably outlive most house cats or dogs)
• Besides luring her prey in with nectar, Meme can also glow BLUE (raveee party *unst unst unst* okay sorry I'll stahp) to attract prey during the bleaker parts of the day
• Meme can even.. digest.. human flesh..

Just as a clarification, we have decided not to purchase Meme from any available nurseries that sell them as her conservation status is vulnerable with one of the main causes being over-collection.  As such we have decided to visit Meme on a weekly basis at a botanical garden nearby.  That'll be all for Meme's introduction, thanks for sticking with me until the end.

-Esah

The Crew

Hello!

We are a team of six engineering students from Taylor's University in Malaysia currently pursuing our Mechanical Engineering degree.  One of the modules in our program entitled Engineering and Biomimetics headed by our lecturer Ms. Yong Leng Chuan requires us to adopt a pet (either an animal, an insect, or a plant), observe and write weekly logs regarding the adopted plant and thus develop an idea of a technology that mimics the structure or chemical processes involved in the pet's daily life cycle. Throughout the course of the module our team, Biomimikku (coined from 'Bio' and the playful Japanese version of 'Mimic') hopes that our weekly logging and reports are as beneficial to you, the reader, as it will be to us.  We would like to remain as candid as possible in our writings and hope it will make you comfortable to share with us any comments or input that you may have in regards to our ongoing project.

Before we begin with introducing our very own adopted pet, we would first like to introduce ourselves.

Member #1

Hello everyone!  My name is Aisyah Hanis, but I prefer to be called Esah for short.  I enjoy browsing through food pictures online, scaring myself silly with horror manga and reading posts on Reddit's r/nosleep. 

Member #2

Name: Goh Kok Chong (KC)

Manchester United Fan (GGMU) and a dog lover

I Love: to eat, afternoon nap, my family and friends, shisha, watching movies, badminton, basketball, jogging, food with cheese, curry, pork noodle (@ss15), burger (beef and cheese) and most of all... my bed.

Member #3

I’m Cassandra Low. I’m studying Degree in Mechanical Engineering in Taylor’s University. I love travel as that is the only time where I free my mind and enjoy. Besides that, playing sports is a part of my life. It is a way of releasing stress that is accumulated from studies. Extreme activities do interest me as they are so exciting and it will be a once in a lifetime memories. In addition, I’m always interest in cars and planes.  

Member #4

"It isn't history that makes heroes, it is heroes that make history."
A local boy who wishes to maybe one day be a part of the frontier in technology and innovation. Aged 22, enjoys long hours of badminton and orange juice. 

Here are some of his highly rated reviews.

"A hardworking boy whose focus remains on quality over quantity. Enjoys rolling on the grass and nose poking" - His girlfriend

"He has something for pandas" - A friend

"Who??" - Another friend (?)

"He's my favourite boy" - His mom

Member #5

Hi, my name is Lee Chun Tat.  I'm from Raub, Pahang and I love engineering and drawing. 

Engineering and Biomemetics

This blog dictates the 14 week journey of the study of a Venus Flytrap which is the pet of choice in the subject ENG 61703 Engineering and Biomimetics. The reason we choose this subject is due to its features which have inspired us to study and apply its features to bring benefits to humans. In accordance to this blog, we would like to thank Dr. Yong Leng Chuan for being the ever understanding lecturer and Dr. Mushtak Al-Atabi for giving us this opportunity to embrace nature's beauty into our engineering capabilities. Hope you enjoy browsing through this enjoy as a token of our appreciation.