Population Demography - Online Tutor, Practice Problems & Exam Prep

This video, we're going to briefly introduce population demography. And so demography can be defined as the statistical analysis or study of population characteristics and trends, including looking at population size, structure, and distribution, and also looking at the processes that drive population changes, such as birth rates, death rates, and even migration patterns. Now aspects of demographic information can be summarized in what are known as life tables and what are known as survivorship curves. Now moving forward, we're going to discuss each of these in their own separate videos starting with the life tables. So I'll see you all there.

This video, we're going to talk about life tables and how they display aspects of demographic information. A life table is really just a comprehensive statistical table that shows a population's survivorship and mortality and reproductive rates of a cohort. A cohort is defined as a group of same species individuals born into a population right around the same time, and so they're all about the same age. Life tables often only include data on females when they're looking at sexually reproducing organisms, since only females produce offspring, and therefore, females tend to have a greater impact on population dynamics in comparison to males. Notice down below, we're showing you an example of a life table for female fruit flies, Drosophila melanogaster.

In this life table, it's analyzing a cohort of 500 female fruit flies that are all about the same age, between 0 to 10 days of age. It analyzes and follows these fruit flies through time until all of these fruit flies are dead. Along the way, it collects and gathers all of the statistical data that you can see here in this table. It is important for you to be able to understand life tables, so let me walk you through it a little bit. Notice on the far left, we have the age interval in days, then we have the number of organisms alive at the start of the age interval, then we have the overall survivorship at the start of the interval or the proportion of organisms that are still alive at the start of that age interval, then we have the overall mortality rate or the overall death rate between age intervals, and then we have the fecundity or the capacity for the organisms to reproduce.

Here in this specific scenario, we're showing you the average number of female offspring per female, and so let me slide out of the way so that you can see these numbers here. Now what we're going to do now is fill in these interactive blanks throughout this table, so that you can again better understand this table and how the values are collected. Here we're looking at the mortality rate of this specific age group between 0 to 10 days. What we need to realize is that initially, there were 500 of these female Drosophila fruit flies, but then in the next age interval, there were only 366, which means that 134 of them died. If you calculate 134500, what you get is an answer of 0.268, or in other words, 26.8% of the 500 organisms died in this age interval.

Next, what we have over here is the survivorship at the start of the age interval 20 to 30 days, and so what we need to realize is that there are 280 organisms still alive at the start of this age interval, and so if you calculate 280500, the initial number, what you get is an answer of 0.560, or in other words, 56% of all the organisms that started are still alive at the start of this age interval, 20 to 30 days. Last but not least, we have this blank here, which is going to be the number of organisms alive at the start of this 30 to 40 day interval. Notice that the survivorship is 0.248, or in other words, 24.8 percent of the initial number of organisms are still alive here. If you calculate 0.248500, what you get is an answer of 124, and that is the number of organisms alive at the start of this 30 to 40 day interval. Really, that's all there is to these life tables.

Moving forward, we'll be able to get some practice applying these concepts, and I'll see you all there.

This video, we're going to talk about the demographic information in survivorship curves. A survivorship curve is really just a graphical representation of a life table, and it is a graph of the number of living individuals in a cohort, which we plot on the y-axis of the curve, surviving to each age group, which we plot on the x-axis of the curve. Now the y-axis of a survivorship curve is often expressed on a logarithmic scale, which is important because it allows for a wide range of values to be plotted onto the same graph. There are only 3 general shapes of survivorship curves, which we call type 1, type 2, and type 3 survivorship curves, and we can see them down below in this graph. Notice that the blue curve that we're showing you here represents a type 1 survivorship curve.

In a type 1 survivorship curve, there is very low mortality rates early on in life, allowing most individuals that are born to survive to adulthood. But then later in life, the mortality rates increase significantly. An example of a species that exhibits a type 1 survivorship curve is human beings like you and me. A type 2 survivorship curve is being shown here in red. Instead of having low and then high mortality rates, with a type 2 survivorship curve, the mortality rates are pretty similar throughout the entire species' lifetime, creating a straight line as you can see here.

An example of a species that displays a type 2 survivorship curve is the northern cardinal that you can see here. Lastly, we have a type 3 survivorship curve, which is essentially the opposite of a type 1 survivorship curve. Instead of having very low mortality rates early in life, there are very high mortality rates early in life, and so most individuals that are born will not survive to adulthood. But then once the individuals reach a certain age, the mortality rates decrease significantly, and very few of them can actually reach adulthood and, you know, older ages of life. An example of a species that displays a type 3 survivorship curve is the American bullfrog that you can see here.

Down below, we do have a very important note, which is that survivorship is actually a spectrum, and so most populations actually exhibit characteristics that fall somewhat in between these three classic types, type 1, type 2, and type 3. These are just very recognizable survivorship curves. But, again, species in reality can display all kinds of different shapes, and so they can fall in between these values. This here concludes our lesson on survivorship curves, and we'll be able to get some practice moving forward. I'll see you in our next video.

So here we have an example problem that asks, which of the following 5 species that you can see listed below exhibits a type 2 survivorship curve? And we've got these 4 potential answer options down below. Now, of course, recall from our last lesson video that a type 2 survivorship curve is when there is a similar mortality rate throughout the entire lifetime of the species. With that in mind, notice that option one says oak trees produce thousands of acorns, very few of which grow into mature oak trees. This suggests a really high mortality rate early in life, consistent with a type 3 survivorship curve.

Now, notice number 2 says rats do not have a significantly higher death rate at any specific age, which suggests very similar mortality rates throughout the entire lifetimes of this rat species. This is going to correspond with a type 2 survivorship curve. Now, number 3 says, humans living in the USA. We know that humans have a very low mortality rate early in life and higher mortality rates later in life, consistent with a type 1 survivorship curve. Next, we have number 4, which says frogs produce hundreds of tadpoles, most of whom cannot avoid predation or starvation.

This again suggests a really high mortality rate early in life, consistent with a type 3 survivorship curve. And then last but not least, number 5 says wrens, small songbirds that have approximately an equal chance of dying throughout their lifespan. This also suggests a similar mortality rate throughout their entire lifetime, so that's consistent with a type 2 survivorship curve. Notice that it's only 2 and 5 here that correspond with type 2 survivorship curves and that corresponds with answer option d which says 25. So what we can indicate is that d here is the correct answer to this example problem, and that concludes this example.

So I'll see you all in our next video.