What is the difference between toxin, venom and poison?

What is the difference between toxin, venom and poison?

Toxin, venom and poison… are they just different words for the same thing? The answer is… sometimes yes, and sometimes no.

You see a venom can be a toxin, which can be a poison but not always.

I looked to the Oxford English dictionary, to see if it could shed some light on the issue;

Poison… A substance that is capable of causing the illness or death of a living organism when introduced or absorbed

Venom… A poisonous substance secreted by animals such as snakes, spiders, and scorpions and typically injected into prey or aggressors by biting or stinging

Toxin… A poison of plant or animal origin, especially one produced by or derived from microorganisms and acting as an antigen in the body

Has that made it any clearer for you? I can’t say it was much help to me. There has to be a more simple explanation. The truth is that these words are often used to mean the same thing, sometimes all three words can be interchanged, sometimes not. They do all tend to have a similarly negative effect on the body, by one means or another, they impact or disrupt the biological function of the affected organism.

Sometimes we need the right question, in order to get the right answer, or in this case, the right series of question. Hopefully, these questions will help define what each is, and the differences between them.

IS IT NATURAL OR MAN-MADE?

If it is man-made (synthetic) then it is a poison!

Toxins and venoms are always organic (biologically produced chemicals), but sometimes poisons are as well. Time for another question.

WAS IT TRANSFERRED BY TOUCHING OR BITTING?

If it was transferred by touch then it is a toxin (which could also be called a poison, in more general terms). Toxins are usually small biological chemicals that can enter the body by absorption through the skin. They can be accumulated through the food chain, so, the organism with the toxin may not have produced it itself, but most likely accumulated it from something it ate, or something that it ate, ate… (we could keep going back the food chain here but you get the idea?).

Just to confuse the matter slightly, organisms that produce toxins are referred to as poisonous organisms.

Here is just one example… the poison dart frog, considered one of the deadliest animals on earth. The poisonous dart frog stores its toxin in glands just below the skin. The toxin is called Batrachotoxin and, when agitated, the frog can literally sweat the toxin onto its skin. The level of danger to humans depends on the species of dart frog; the small golden poison dart frog (Phyllobates terribilis), for example, is only 5cm long but harbours enough toxin to kill 10 grown men.

golden poison dart frog

Image credit: Wilfried Berns

It is thought that most species of poison dart frogs accumulate their toxins from the food chain, most likely the toxins originate in plants, eaten by insects that are then eaten by the frog.

Transferred by biting not touching? We have another question for that.

DID YOU BITE IT OR DID IT BITE YOU?

If you bite it and suffer the consequences, then it is a poison (which could also be called a toxin, depending on what you ate!); if it bites you and you suffer the consequences, then it is a venom!

I use the term ‘bite’ loosely here as venom can be administered by bite, spike or sting. Basically, venom has to be ‘injected’ into the skin in some manner.

Venom is usually a biological compound that is produced by the organism that administers it. It is also usually a large compound and therefore cannot enter the body through absorption through the skin.

Time for another example…  we all know the classic snake scenario but sometimes nature is a little more inventive; None more inventive that the Iberian ribbed newt (Pleurodeles waltl). This animal has evolved some amazing defence mechanisms – it literally extends its spiny ribs out through warts in its body. At the same time the newt secretes venom onto its skin, covering the ribs so they deliver the toxin into the body of their assailant, as they pierce their skin.

Iberian ribbed newt

Image credit: Pengo

Sounds like the stuff of science fiction, doesn’t it… but sometimes fact is more amazing that fiction.

Of course, many venoms contain neurotoxins that are of course toxins, which can be referred to as poisons, which brings us back to the start of this post that sometimes a venom is a toxin, is a poison; but not always.

I hope you found this helpful, maybe you have a few tips of your own? Leave them in the comments below, I always love the feedback. 

Netflix Stream Team – our top Science and Nature viewing

Netflix Stream Team – our top Science and Nature viewing

Sometimes it is hard to agree on what to watch when we finally sit down and someone gets hold of the controls. I love that Netflix gives everyone their own profile, a glimpse into what we are each watching, and a look at how different each family member is! So, there is often a bit of conflict about who gets to pick their favourite.

When we reach an impasse we always have a solution, everyone loves a good science or nature programme, and there are always plenty to choose from. Here are five that we recommend:

1. Cooked:

This one is top of my ‘must watch’ list, and brand new to Netflix UK; it combines cooking and science, two of my favourite things;

Each of the series’ four episodes examines one of the physical elements used throughout the ages to transform raw ingredients into delicious dishes: fire, water, air, and earth. Cooked takes viewers on a visually stunning journey to meet, among others: an Aboriginal tribe in Western Australia that fire-roasts Australian monitor lizards, a Connecticut Benedictine nun and microbiologist who makes traditional French cheese, Peruvian brewers who use human saliva to ferment a traditional beverage, and an ancient Moroccan granary powered by rivers. Each episode also returns to Pollan cooking in his Berkeley, California, kitchen, appetizingly delivering his core message that, surrounded as we are by fast food culture and processed foods, cooking our own meals is the single best thing we can do to take charge of our health and well-being.

 

2. TED Talks: Let your mind wonder

I love TED talks and there are plenty to watch on Netflix but this one, in particular, has caught my eye, it seems to have STEM covered with this lovely visual and animated series. Each episode is short and consise and covers diverse topics from “is there really aliens?” to “should we eat bugs?”. It is great for dipping into for five minutes, or sharing with the children, often answering a question they may have already asked!

TEDEd-let your mind wonder

 

3.Maiden Trip

To sail around the world is quite a feat, to do it solo is even more impressive, but to be just 14 years old is an amazing achievement. Maiden Trip is an inspiring documentary charting the two-year voyage of Laura Dekker as she followed her dream and became the youngest person to sail around the world.

 

4. Blackfish

If you haven’t seen this one yet it is definitely worth watching. This documentary follows the real life drama of an orca in captivity in Sea life and the devestating effect captivity has on his life and the lives of others.

 

5. AntarticEdge – 70 degrees South

A sobering but interesting documentary charting the research carried out at the Antartic by a varied group of scientists, shedding a realistic light on the real levels od global warming!

******

Disclosure: As a member of the Netflix Stream Team I have received a years subscription to Netflix, free of charge, and an Apple TV, for streaming purposes. As part of Netflix Stream Team I will be posting monthly updates on what we are watching and what is on offer.  All opinions expressed will be my own.

Mystery Creature of the week – it is a mammal with an unusual ability

Mystery Creature of the week – it is a mammal with an unusual ability

This week’s Mystery Creature is a very unusual mammal… can you name it?

MCAug17

Image credit: Lip Kee Yap.

 

If you know what it is let me know here or on social media. If you don’t why not do a bit of research or, better yet, entertain the kids for an hour by setting them the challenge!

Remember to check back at the end of the week to find out all about this very interesting creature.

***

And a little something else … The Boot’s Maternity and Infant Parenting Blog Awards 2015 are still open for voting. If you like what I do here and have a minute to spare I’d really appreciate your vote; You just need to click the image below and scroll down to the “Best Parenting Blog” section under “For the Family”; Many thanks! 

MI-Boots-Button_-Vote-for-me_256
Click here to vote
Mystery Creature revealed – Guianan Cock-of-the-rock (Rupicola rupicola)

Mystery Creature revealed – Guianan Cock-of-the-rock (Rupicola rupicola)

How did you do with this week’s Mystery Creature? A pretty extravagant bird don’t you think? It was the Guianan cock of the rock (Rupicola rupicola), a native South American passerine.

Guianan Cock-of-the-rock; Image credit: Allan Hopkins
Guianan Cock-of-the-rock; Image credit: Allan Hopkins

 

Here are ten interesting facts about this beautiful bird:

  1. The colours are amazing, aren’t they? But as is common in the world of birds, these bright colours are just for the men (sexual dimorphism). The females are adorned with more muted colours and lack the large orange plumage of the lower back. However they do have the very distinctive, fan-like crest that makes these birds so easy to identify.
  1. Not surprisingly… the males are brightly coloured to attract a mate. They participate in a Lek, and gather with many other males in a display of feather pluming and vocal calling in order to be noticed by a female.
  1. Although they usually prefer the safety of the dense forest vegetation, for lekking, the males claim their space in an open area of the forest.
  1. When the females pick their suitor they do so by pecking him on the back. Very romantic!
  1. These are solitary birds, only coming together for breeding purposes. The female nests and rears the young hatchlings alone. They prefer high rocky terrain and caves for breeding, hence the name ‘cock of the rock’.
  1. The female will build a saucer like nest out of mud, twigs and other forest foliage on the sheer face of a cliff, cave or bolder. This extreme nesting area helps protect the nest from predation. She lays two eggs.
  1. Although these birds have a diet rich in fruit, they are also thought to occasionally supplement their diets with insects, small frogs and possibly small reptiles.
  1. They themselves are preyed on primarily by Harpy Eagles, Hawk Eagles and Forest Falcons. Snakes and owls are also a common threat.
  1. They make some very interesting sounds, from the crow, cat and chicken like mating calls of the males, to the unusual foraging sounds of both sexes that is apparently likened to ‘a rubber duck being strangled’.
  1. The wings of the male produce a whistling sound in flight.

***

And a little something else … The Boot’s Maternity and Infant Parenting Blog Awards 2015 are still open for voting. If you like what I do here and have a minute to spare I’d really appreciate your vote; You just need to click the image below and scroll down to the “Best Parenting Blog” section under “For the Family”; Many thanks! 

MI-Boots-Button_-Vote-for-me_256

The flying ant invasion

The flying ant invasion

The flying ant invasion of 2015 is upon us, at least in Dublin anyway. It seems they are everywhere and people are naturally a bit put out; but is there an advantage to all of this, and what exactly is the reason for this infestation?

Ants with wings… is this something new?

Not really. There is no one species of winged ants but many species will produce wings during a certain stage of the life cycle of the colony. As we all know, ants like to be busy so if all the chores are done, the larder is full, the young are being tended to and the queen is happy, well there is really only one job left to do…. procreate!

And it is a lot easier to get out there and find the right ant for you if you can grow a pair of wings for a while!

To put it a little more scientifically… in mature, thriving colonies, some eggs, treated under the right conditions, will produce winged ants, both male and female. The females are virgin queens with the potential to start a new colony of their own. The males, well, they have only one thing on their mind!

Carpenter_ant_drone_wiki
Image credit: Bruce Marlin;

Why so many?

The newly produced winged ants will remain in the colony until conditions are right for what is referred to as the Nuptial flight. These flights are very weather dependant, requiring warm temperatures with little chance of strong wind or rain. The ants will all leave the colony together in one coordinated flight. This is also synchronised with the flight of ants for neighbouring colonies.

The large numbers serve two purposes….

  • firstly, they increase the chances of a significant number of ants surviving predation and successfully mating and starting new colonies
  • secondly, where reproduction is concerned, it is always a good idea to widen the gene pool. The large swarms of flying ants from many different colonies allows cross breeding and the creation of a stronger genetic line.

 

What happens to the winged ants after the “deed is done”?

After mating both the male and female ants lose their wings.

The female will often mate with several males during the mating process but this will be the only time in her life that she will mate. She stores the male sperm in a pouch in her body called the spermatheca. After mating she will dig a nest to start her own colony… the sex on her offspring is decided by her. All fertilised eggs are female, all non fertilised eggs are male.

When she starts a colony she will produce only female ants, each of which will be infertile and wingless. The queen tends to the first set of eggs on her own but once the worker ants are reared they will tend to her every need and the needs of the colony.

The males? Well they actually die soon after mating… it is their sole purpose.. tough job but what a noble one!

 

And why is this of any interest to us?

I agree that it is not so pleasant having a face full of crawling ants every time you step out the door but if we look closely at these tiny creatures we have a lot to learn from them; from their engineering mastery to their incredible social networking, ants definitely deserve a second look.

 

From engineering to traffic control

Firstly, ants are known for their impressive architectural skills. In a very short space of time they can build incredible structures from just a pile of dirt. What is even more impressive is how they seem to work as a unified “machine”, without an apparent hierarchy of “foreman” and “worker”.  We have much to learn by cracking to simple “rules” that they follow and we could apply this knowledge to such diverse areas as engineering, traffic control, cell biology and robotics.

 

Strengthening our social standing

Ants are incredibly social creatures. Without their social interaction, they face a much shorter life span and even seem to lose the ability to digest food. Working together they can achieve the unthinkable.


They are eusocial creatures, along with termites and some bees, wasps and aphids. A eusocial society usually expressed division of labour, an overlap of generations to help with care of the young and adults sharing living space. The advantages of such living arrangements include better protection (safety in numbers) and a more likely chance for a regular food supply. It can be argued that we humans are also eusocial creatures in a somewhat fragile existence and can better address any precarious imbalances with a greater understanding of how eusocial insects, such as the ant, sustain and strengthen their social system.

 

Learning how our brain works

Science shines a spotlight on the similarities between the communication within an ant colony and the workings of the human brain.  It seems both operate very efficiently without any one direct control centre and, just like no two brains are exactly alike this is also true for each ant colony.

Maybe all this will show these tiny creatures in a new light and make their hair tangling flightless frustrating at this time of year.

Have you spotted them en mass in your area? Don’t despair, it doesn’t last long and, for the ant it is a life or death event, for us humans, it is a small inconvenience.

***

And a little something else … I am delighted to see my blog listed among some favourite bloggers in the Boots Maternity and Infant Parenting Blog Awards 2015. If you like what I do here and have a minute to spare I’d really appreciate your vote; You just need to click the image below and scroll down to the “Best Parenting Blog” section under “For the Family”; Many thanks! 

MI-Boots-Button_-Vote-for-me_256

 

Mystery Creature of the week – an orange extravagance!

Mystery Creature of the week – an orange extravagance!

This week I am returning to the somewhat neglected Mystery Creature series, this feathered one is very bright and… orange; Do you know what it is?

MysteryCreature10Aug2015

 

End of week update: Did you guess it? You can see what it was here and find out ten interesting facts about this beautiful bird.

***

And a little something else … I am delighted to see my blog listed among some favourite bloggers in the Boots Maternity and Infant Parenting Blog Awards 2015. If you like what I do here and have a minute to spare I’d really appreciate your vote; You just need to click the image below and scroll down to the “Best Parenting Blog” section under “For the Family”; Many thanks! 

MI-Boots-Button_-Vote-for-me_256

New chicks and a new look

New chicks and a new look

Nearly half way through the Summer holidays and it has been busy. We have had work and weddings and adventures and even hosted a barbeque in the Sun (it may have been the only sunshine we have seen this Summer but I’m not complaining). One big adventure so far this Summer is our new brood of chicks!

We decided to test out an incubator this year and somehow the five eggs we had planned to hatch turned into a little more.

Eggs

 

I am glad to report that the incubator worked to great success… as our kitchen turned into a chick maternity ward. This little one was looking a bit dazed after his arrival!

NewBorn

 

 

Some of the chicks seemed to want to get to grips with some life skills from a very young age. I think this one has aspirations to be a writer…

Chick on laptop

 

And this one has a more adventurous side!

Chick on a skateboard

 

They are all destined to be stars though as they had their very own camera crew right in our kitchen. To see their tv debut you’ll have to tune in to the “Is Eolaí Mé” series on Cúla 4 (TG4) in early 2016.

Chicks on film

 

In total twelve chicks hatched and we finally managed to watch and record the event, it was really beautiful.

 

Looking at that it is not hard to accept that birds are the living relatives of dinosaurs! Especially now that we know that dinosaurs had feathers.

Chickens are thought to be the descendants of a class of dinosaurs called Maniraptorans, three-toed meat-eaters that walked upright, had shorter forearms, hollow bones and fused collarbones just like the birds wishbone.

Now all we need to work out is which came first, the chicken or the egg?

 

On a completely different note, there have been some changes around here as the website finally got a well needed revamp. I hope you like the new look, let me know what you think!

Aurora borealis and Aurora australis – how are they formed?

Aurora borealis and Aurora australis – how are they formed?

Aurora borealis and Aurora australis, also known as the Northern and Southern lights, are amazing displays of light in the sky, most often seen towards the polar regions. The colour displays range from green, to reds to purples and vary from small wisps to large dramatic streaks through the sky.

Aurora2

To understand how these light displays happen we need to understand a little about solar winds. The surface of the sun is constantly bubbling and boiling. Sometimes particles of plasma are released from the sun’s surface at areas called sun spots. This plasma escapes the pull of the sun’s magnetic field and is released into space as solar winds.

These solar winds can travel to Earth where they are attracted to the Earth’s magnetic fields, particularly at the north and south poles. When particles from the solar winds enter the Earth’s atmosphere they collide with particles of oxygen and nitrogen giving off these wonderful displays of colour.

The colour of the Auroras depends on the particles that interact with the solar wind and their altitude. Green and yellow colours are typically associated with collisions with oxygen, while red, violet or blue colours result from interactions with nitrogen. While these displays are best seen in regions closer to the poles we are sometimes lucky enough to catch site of them right here in the skies over Ireland.

Have you ever seen them? Next time you hear of a lot of solar flares it might be worth remembering to look to the skies in the hope of catching these spectacular light shows.

The Science of Soil

The Science of Soil

What is Soil?

Soil is the outermost part of the Earth’s surface, where plants grow. Without it we could not survive! Soil is made up of rock material of various sizes (from powdered rock to sand, pebbles and stones). Soil also contains minerals, rotting plants and animals and living organisms. It contains all the nutrients required for plants to grow and survive!

Why is soil so important?

Plants need soil to grow, not just for the nutrients that the soil provides but also as an anchor, a stable place where the plant can place its roots and support its growing structure.

The soil has many other important functions too…

  • Soil acts as a natural water filter, cleaning water as it passes through it
  • The soil provides billions of organisms with a place to live
  • The soil is very important in the cycling of nutrients – especially carbon and nitrogen

How is soil made?

There are a lot of factors that influence how soil is made. The first of these is what type of material the soil is being made from… the type of rock that the soil is made from is called the parent material.

Other factos that influence how soil is made are…

  • the weather,
  • the topography of the land,
  • what living organisms are around and….
  • time!

Did you know… it can take up to 1,000 years for just one inch of soil to form?

 

Soil is made when the parent material (rock) is broken down by the weather (wind, rain, sun, snow) eventually forming fine powder, sand and small rocks. The decomposition of organic matter and the activity of a variety of organisms help to improve the soils nutritional quality.

The soil is like a big recycling plant

Soil is not just for growing plants. It contains billions of other living organisms too… some can be very small like bacteria, fungi and algae and some can be very large like insects and even mammals.

All of these inhabitants help to break down dead plants and animals so that all the nutrients contained within them are returned to the soil.

Did you know… that in a tablespoon of good soil there are as many as 50 billion bacteria?

SpoonfulofSoil

The earthworm plays a vital role is maintaining healthy soil and is often called “nature’s plough”.

Did you know… there are approximately 3000 species of earthworm in the world?

worm

Learn more at home… make a wormery

You will need…

A large see-through container, sand, soil, worms, leaves and other vegetation, card or paper.

What to do…

  • Fill a large, see-through container with alternative layers of soil and sand.
  • Put a layer of leaves on the top.
  • Add enough water to keep the soil damp.
  • Collect some earthworms from your garden and add them to the wormery.
  • Cover the outside of your container with a large piece of card or paper to block out the light.
  • Put the wormery in a safe place and check on it every day- remember to keep adding water to keep the soil moist.
  • You should soon notice that the different layers of soil and sand are getting mixed together.

What is happening?

The earthworms mix the layers of sand and soil as they move through the wormery. This helps to distribute nutrients throughout the soil, making it more fertile.

Remember to return the worms safely back into the garden once you have finished.

Or you can watch the “how to” video…

 

 

A version of this article originally appeared in Science Spin, Issue 63, March/April 2014