We use cookies to give you a better experience. Carry on browsing if you're happy with this, or read our cookies policy for more information.

Skip main navigation

Lifespans of animals

What explains the big differences in the lengths different species live?
Galapagos giant tortoise
© UNSW Australia 2015
What is the relationship between the size of an animal and how long it lives? This interesting topic raises lots of questions, many quite pertinent to our modern lives. It begs for a bit of mathematical scaffolding.
In this step we
  • look at how long different species tend to live
  • summarize various theories that have been proposed over time to explain the differences
  • try to figure out which mammal lives the longest.

Big things live longer?

It has been well known for a long time that larger species tend, on average, to live longer. However there are also some anomalies—often birds, fish or tortoises. Let’s have a look at some data.

Lifespans of some animals

This table is taken from Propel Steps.
AnimalAverage Life Span of Animal (in years)
African Grey Parrot50
Amazon Parrot80
Angleworm15
Ant (Queen)3
Ant (Worker)1.5
Asian elephant40
Cockatoo40
Bat24
Bear40
Beaver20
Bison30
Blackbird18
Boa Constrictor23
Bottlenose Dolphin20
Box Turtle123
Bull28
Bull Snake18
Canada Goose33
Carp100
Cat25
Catfish60
Chicken15
Chimpanzee40
North American Cicada13-17
Cow22
Crocodile45
Deer35
Dog22
Eagle55
Elephant70
Elk22
English Sparrow23
Fence Lizard4
Ferret12
Fox14
Galapagos Land Tortoise193
Giant Tortoise152
Goat15
Golden Hamster4
Gorilla20
Great Horned Owl68
Green Frog10
Hog18
Horse40
Human70-80
Humming Bird8
Kangaroo9
Koala8
Lion35
Lobster15
Macaw50
Mountain Lion20
Mouse4
Newt7
Opossum4
Parrot80
Polar bear20
Porcupine20
Quail6
Rhinoceros40
Salamander11
Sea Lion14
Tasmanian Tiger7
Wombat15
Wolf18
Q1 (M): Having studied the above list, you are now possibly an expert on lifespans of common animals. See if you can guess the life spans of the following: Alligator, Bee (Queen), Bee (Worker), Camel, Cow, Domestic Pigeon, Eel, Hippopotamus, Leopard, Mongoose, Ox, Platypus, Rabbit, Sheep, Tiger.
pic of India Dove India Dove By Ashish Ghosh (Own work) CC BY-SA 3.0, via Wikimedia Commons

Aristotle’s explanation

The link between size and lifespan was first remarked on by Aristotle (350 BC). He made a connection between fire and life which was interestingly prescient:
A lesser flame is consumed by a greater one, for the nutriment, to wit the smoke, which the former takes a long period to expend is used up by the big flame quickly.
Aristotle
He argued that ageing and death were linked to the process of dehydration. For a long time, Aristotle’s explanation was accepted. However in the 1800’s, people began to think of ageing more as a result of `wearing out’ the body.

The rate of living theory

In 1908 Rubner studied the energy metabolism and lifespans of five domestic animals: guinea pig, cat, dog, cow and horse, as well as man. The larger animals lived longer, and he observed that while the total metabolic rate of these animals increases with mass, it did so at a slower rate than mass (so a \(\normalsize 5000\) kilogram elephant will use less energy than \(\normalsize 5000\) kilograms of mice).
However it was also noticed that the product of energy expenditure by maximum lifespan was relatively independent of body size (with humans excluded from the comparison). So a gram of body tissue expends about the same amount of energy, over a lifetime, independent of whether the tissue is in a guinea pig, cat, dog, cow or horse.
The consequent idea that using energy up faster will hasten death is the ‘rate of living’ theory. In his 1922 book ‘The Biology of Death’, Pearl argued that genetic constitution and the rate of energy expenditure were the key factors in life expectancy. He observed that that if accidents were excluded from the statistics, the rates at which males died after the age of 45 were directly related to the levels of energy expenditure in their occupations.
However more recent experiments involving birds have cast some doubt on the universality of this thesis: lifetime expenditures of energy per gram of bird tissue are on average substantially greater than the equivalent values in mammals.

Toxicity, metabolism and free-radicals

In the 1950’s a different explanation gained traction: that ageing and death result from toxic by-products of metabolism. This idea is the `free-radical damage’ theory of ageing, in which oxidants and free radicals build up to cause damage to our system. The idea is that there is a direct relationship between oxygen consumption and generation of radical oxygen in our system.
So still there is a direct implication between metabolism and ageing, whether one favors the rate of living or the free-radical damage theory.

A billion heartbeats

Remarkably, biologists have discovered that on average most animals have a lifetime allocation of about a billion heartbeats. We might say that an elephant lives longer than a mouse because its heart beats slower, and so the elephant has more time to get its billion beats. But very possibly the increased metabolic rate of the mouse means that it is doing more living in any given day! There seems to be some glimmer of fairness in this idea.
Here is an article that explains the work: http://hep.ucsb.edu/courses/ph6b_99/0111299sci-scaling.html
Q2 (C): What mammal lives the longest? You should be able to make a pretty good guess, based on the evidence and discussion in this step. Hint: it is not on the list above, and it is not man. You know my methods, Watson.

A twist in the tail

There is an amusing twist on this theme. While it is certainly true that larger species tend to live longer, on average, it is also true that within a species, smaller individuals often live longer than bigger individuals. Perhaps it comes down once again to metabolic rate: larger individuals need a higher metabolism to keep up their energy levels, so perhaps they tend to clock through their allotted times a bit quicker??

Answers

A1. Here are the average lifespans of the animals:
AnimalAverage Life Span of Animal (in years)
Alligator68
Bee (Queen)5
Bee (Worker)1.5
Camel50
Cow22
Domestic Pigeon26
Eel55
Hippopotamus45
Leopard17
Mongoose12
Ox20
Platypus10
Rabbit9
Sheep15
Tiger22
A2. The longest living mammal is the bowhead whale, which can live up to 200 years. Also known as the Arctic whale, this animal is big, and lives in cold waters so its metabolism is slow. The record age for a bowhead is 211 years.
© UNSW Australia 2015
This article is from the free online

Maths for Humans: Linear, Quadratic & Inverse Relations

Created by
FutureLearn - Learning For Life

Our purpose is to transform access to education.

We offer a diverse selection of courses from leading universities and cultural institutions from around the world. These are delivered one step at a time, and are accessible on mobile, tablet and desktop, so you can fit learning around your life.

We believe learning should be an enjoyable, social experience, so our courses offer the opportunity to discuss what you’re learning with others as you go, helping you make fresh discoveries and form new ideas.
You can unlock new opportunities with unlimited access to hundreds of online short courses for a year by subscribing to our Unlimited package. Build your knowledge with top universities and organisations.

Learn more about how FutureLearn is transforming access to education