The Science of Birds - Competition Between Bird Species
Episode Date: September 22, 2020Episode: 2SummaryLearn about the ways that different bird species compete with each other over food and other resources.I first talk about the concept of the ecological niche, since this is so importa...nt to this episode's topic.Then, I get into the different forms of competition between bird species and present the possible outcomes of that competition. Lastly, I briefly touch on the general approaches that scientists take in studying interspecies competition in birds.Links to Some Things Mentioned in this EpisodeProject FeederWatcheBirdiNaturalistResearch CitationsCompetition among scavenging birds in Peru (Wallace and Temple. 1987. The Auk)Red-winged Blackbirds vs. Yellow-headed Blackbirds (Weller and Spatcher. 1965. Special Report)Birdfeeder dominance hierarchy among 136 bird species in North America (Miller et al. 2017. Behavioral Ecology)Competition among tits in Swedish Winter (Alatalo et al. 1987. Ecology)Errors and ClarificationsError - 23:04 min: I say that the second type of competition between species is "exploitation interference". I meant to say exploitation competition. I make this error repeatedly in this section. My apologies!Link to this episode on the Science of Birds websiteSupport the show
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In a grassy clearing in the western foothills of the Peruvian Andes, a fresh donkey carcass is beginning to attract flies.
Wormed by the tropical sun, its fetid smell is rising in the air.
A turkey vulture far overhead catches a whiff, and it too is drawn to the dead animal.
Over the next week or so, the carcass will be picked apart and eaten by several species of scavenging birds.
Turkey vultures, black vultures, king vultures, andy and condors.
and crested caracaras.
If you were to watch the process of all that tasty, tasty, tasty donkey meat being eaten,
you would not see all of these birds sitting around the carcass together,
peacefully sharing a meal.
No, what you would see are frequent squabbles or outright brawls
between members of two different species,
with much pecking, clawing, and furious wing-flapping.
The losers of these battles wait anxiously on the periphery
until the victorious birds are done stuffing their gullets with meat.
A scientific study of this exact scenario found a dominance hierarchy among these five bird species.
By documenting thousands of bird fights at carcasses,
the researchers found that larger species tend to win fights with smaller species.
The bigger you are, the more likely you are to win.
Andean condors, no surprise, are the heavyweights,
the big boys in those Peruvian foothills,
so they nearly always win against the other species.
The dominance hierarchy then goes,
King vulture, crested caracara,
turkey vulture, and black vulture.
That's the pecking order in those parts.
Dead donkeys and other animal corpses
are a precious resource for these scavenging birds.
But large carcasses aren't all that common
and they're distributed haphazardly across the landscape.
When multiple bird species are trying to use the same vital but limited resource,
It's likely they will have to compete to get what they need.
This same thing happens around elephant carcasses in Africa,
among multiple species of old-world vultures,
which, by the way, are unrelated to those living in Peru.
There is a similar dominance hierarchy among those African scavengers.
Anytime multiple species are vying for the same limited and critically important resource,
whether it's food, nesting habitat, or something else,
there's a good chance those species are competing with each other.
So you don't have to go to Peru or Africa to see brutal bird battles.
The same kind of drama is happening right there at your backyard bird feeder.
Hello and welcome.
This is the Science of Birds.
I'm your host, Ivan Philipson.
The Science of Birds podcast is a down-to-earth discussion
of fascinating topics in the wonderful world of bird by-house.
This is ornithology for lifelong learners, bird nerds, and those who are simply bird-curious.
Before we get started, I'd like to point out that many of the concepts we're talking about today are not unique to birds.
They apply to most, if not all other forms of life on Earth.
So this is some cool, widely applicable stuff.
This episode is all about competition between bird species.
In other words, interspecific competition.
Here's the plan.
Before we dive into the topic of competition itself,
we need to first talk about the concept of the niche.
Then we'll talk about the different ways bird species compete.
It's not all just kicking and biting.
We'll follow that with a discussion of how competition between species
seems to have influenced bird populations and species through time.
What has resulted from all of that competition?
Last, we will talk a wee bit about the challenges scientists face when researching competition between bird species.
So here we go.
You've probably heard the word niche before, either in the scientific biological context or in its usage as a narrowly defined but profitable market in business.
Notice that I say niche, rather than niche.
Nitch is the original standard pronunciation, and it still is the most common,
in the United States. People in Britain and elsewhere tend to say niche. Good for them, but I'm
sticking with niche, because this is the land of the free and the home of the brave. A bird's
ecological niche is the place where it lives and the resources it uses. What resources are we
talking about? Well, food is the one we most often think of, but we might also be talking
about nesting locations, shelter from predators,
perches for displaying to potential mates, and so on.
Another way of thinking about a species niche is the job it performs in an ecosystem.
Most broadly, we might think of such jobs being things like predator, scavenger, grazer,
filter feeder, and the like.
But if we get more fine-grained in our thinking, we discover that there are literally
countless niches, jobs out there in nature, whether they are currently occupied by existing species
or they are just vacant possibilities. So again, a bird's ecological niche is the place where it
lives and the resources it uses. If a bird species were unconstrained by other species,
by competitors, predators, or parasites, we would say it occupies its fundamental niche. The fundamental
niche of a species is all the places it can possibly live and all the resources that it can
possibly use. In this ideal situation, the species is limited only by its imagination. Just
kidding. It would be limited by its anatomy, physiology, behavior, and its imagination. The cold, hard
reality is that most bird species don't get to fly around fully enjoying their fundamental
niche. They're not so lucky. Instead, they operate within a subset.
of the fundamental niche, known as the realized niche.
The realized niche is the one that we observe species living in.
The actual habitats that they use, the space that they occupy,
the resources they're able to use, given the presence of other species that might be
competitors, or might be predators, or might affect them as parasites.
Most species that we know of, perhaps all, are operating within a realized niche,
not a fundamental niche.
We can also think of a niche as being broad or narrow.
Some birds are specialists with narrowly defined niches,
while others are generalists, occupying much broader swaths of niche space.
This is true for people, too, regarding our skills in life.
Some of us are generalists, jacks or jills of all trades, masters of none, that kind of thing.
People who are specialists, on the other hand, are those who have probably
put in their 10,000 hours of practice time to become true masters of one's skill. I know you could
come up with a list of pros and cons for a person being a generalist versus a specialist.
Similarly, there are pros and cons for bird species occupying broad generalist niches
versus narrow specialist niches. For example, specialists can be vulnerable to environmental
change. If a bird specializes in eating one type of fruit and that fruit isn't a
available during a prolonged drought, the bird may go extinct, at least locally.
No species is a true generalist in an absolute sense.
I mean, you might think we humans are true generalists.
As a species, we can live in almost every environment, and we eat many types of food.
But we don't live in all environments.
We're not living at the bottom of the ocean.
We're not living among the clouds in the atmosphere or five miles underground, at least not yet.
and we don't eat pine needles, wasps, or giraffe dung.
At least not yet.
Every species on earth, including us, has some kind of limited niche.
Nitches among bird species can overlap, at least in some dimensions.
And the more the niches of two species overlap, whether in one dimension or many,
the more likely they are to compete fiercely for resources.
For example, if two bird species living along the banks of a river,
eat the same type of fish of approximately the same size,
well, those two bird species will have a hard time coexisting over the long run,
at least in that particular location and habitat.
Someone or something will have to give.
This brings us to the competitive exclusion principle.
This is the concept that two species with identical niches are going to compete fiercely.
The inevitable result, according to this principle,
is that the stronger competitor of the two species,
is going to either drive the other to local extinction or force it to undergo an evolutionary
or behavioral shift. Such changes in the weaker species could end up dividing the single
shared niche into two less overlapping niches. If this principle is true, the no two species
on earth can have the exact same niche. They can't live in the same place and share the exact
same resources. One of the two will always win out in the end, excluding the other, somehow.
The competitive exclusion principle is an important concept in ecology, but there's a lot of debate about how much of the variation we see in niches results from this phenomenon.
It's an elegant idea, but its consequences are not so easy to detect in real-world examples.
Okay, so we know competition is going on out there.
It's certainly happening within each species, just like it's happening within our human species.
It's a doggy dog cutthroat world after all.
Remember, though, that in this episode we're focused on inter-specific competition among birds.
That is competition between species rather than within species.
We'll save intra-specific competition for another episode.
Competition should be highest between species with very similar niches, as I talked about earlier.
And competition should be most fierce and have more.
dire consequences at times and places where the resource being fought over is at its most limited.
For example, bird species that eat insects face the risk of starvation and hypothermia in winter
when their prey are rare. These birds must outcompete similar species in finding food if they're
going to survive those cold months. Conversely, when times are good and everyone can gorge until they
pass out? Well, competition for that particular resource during those seasons probably isn't
so important for determining which species can coexist in a given habitat. It's like when the
coronavirus pandemic began. Everyone ran to the grocery store to buy heaps of toilet paper before it was
all gone. But when the pandemic cooled off a bit, we weren't so desperate to hoard TP. We got back to
more important competitions like who can get more Instagram followers and who can eat the most
Todd dogs. Now let's talk about the ways in which bird species compete. It isn't just one bird
species pummeling the heck out of another, feathers flying everywhere and all that. There's a bit more
to it. There are two primary flavors of interspecies competition, interference competition,
and exploitation or exploitative competition. Interference competition is perhaps the more
intuitive of the two. This one includes the aforementioned pummeling,
But it's any form of direct, often, but not always aggressive, behavior that interferes with the less competitive species' ability to get resources.
Our Peruvian vultures and caracaras jostling for dead donkey meat are an example of interference competition.
Aggressive behaviors of the larger species limit access to the food resource for the smaller species.
Another classic example that I remember fondly from when I took ornithology in college long ago
is that of competition for nesting habitat between red-wing blackbirds and yellow-headed blackbirds.
In marshes of the American West, both species prefer to build their nests in cat-tail reeds growing in open water.
This is safer than building your nest along the margin of the marsh, where wily predators have easier access.
Even though red-wing blackbirds arrive first to stake out territories in spring,
the larger, more aggressive yellowheads show up and force the red wings to make do with
suboptimal nest habitat at the outer edges.
When yellow-headed blackbirds aren't present, the red wings rejoice because they get to
expand their niche by building nests in the best wetland real estate.
A really cool study published in 2017 looked at the interactions of 136 bird species
at backyard bird feeders across North America.
Aggressive behavior at feeders is a form of interference competition.
The researchers were able to construct a dominance hierarchy score for each of these species.
This is sort of like our Peruvian scavenger study on steroids.
As in the Peruvian study, body size, i.e. body mass, was the primary factor in deciding who
wins on average.
Interestingly, some bird groups were found to defy expectations.
expectations based upon the overall trend. For example, wood warblers and woodpeckers
are more dominant than expected based on their body size. Same goes for hummingbirds.
Meanwhile, doves are less dominant than expected. That makes sense to me since doves seem like
such gentle birds. Science can back that up. Another cool thing about this study is that
citizen scientists collected the data via Project Feeder Watch, which is operated by the Cornell
Lab of Ornithology.
Thousands of people contributed observations from their humble backyard feeders to make genuine science happen and for real discoveries to be made about these birds.
So as an aside, I urge you to check out Project Feeder Watch, as well as other citizen science projects or apps websites like eBird and I Naturalist.
If you're interested in making significant contributions as a citizen scientist, I'll link to the relevant websites and the show notes for this episode.
The other fundamental type of competition between species is exploitation interference.
This type is less direct. In this case, one species can out-compete the other just by being better at exploiting a particular resource.
If we're talking about a food resource, if species A gobbles up most of the food, there's not much left for species B.
So species B is the loser, even though there wasn't any direct interaction or direct competition.
One of the better-known studies providing evidence of exploitation interference was published in 1987 and took place in the frozen forests of Sweden in winter.
The birds studied were the gold crest and three species of tit.
When these birds forage for insects and seeds in the winter, they often flock together.
The coal tit and gold crest are smaller and less socially dominant than the willow tit and the crested tit.
The researchers did an experiment where they removed the smaller subordinate species from several mixed flea.
What resulted was that the larger two species expanded their foraging habitat to include parts of the forest canopy, the outer branches of conifer trees, that the smaller species usually focus on.
The best explanation here is that the diminutive gold crest and coal tit normally out-compete the larger species in collecting food from the outer branches.
The little guys win in this classic example of exploitation interference. Good for them.
So what are the possible long-term outcomes of all this competition?
What are the patterns we would expect to see out there in natural ecosystems
if bird populations have been shaped strongly by interspecies competition?
Well, at least theoretically, there are several outcomes we would expect.
Where competition is actively occurring,
where two species have strongly overlapping niches,
we would expect that the dominant species would have a population that is
increasing and the subordinate species would have a decreasing population. But this effect of
competition has been a little hard to measure and therefore demonstrate in nature. Just because there is
an apparent competition between two species doesn't mean that there are any ongoing population
or species level consequences of that competition. It's likely that in general population
fluctuations are influenced more strongly by other forces, such as predators, extreme
weather events and disease. Nevertheless, there are examples where in the absence of its apparent
competitor, a species increases in local population density. This has been seen on isolated islands
where there are subsets of species that co-occur on the nearest mainland. What we see more often
are cases where bird species seem to have worked out ways to avoid competing, such that they can
live together in perfect harmony side by side. Well, maybe not perfect harmony, but
with relatively little outright strife.
Now consider, if you will, a big mess of shorebirds on a tidal mud flat.
On this small patch of coastline, you see curlews, yellow legs, dowchers, plovers, willets,
Wimbrils, sanderlings, sandpipers, godwits, and more.
All of them seem at first glance to be foraging practically shoulder to shoulder
for what looks like the same type of food.
But paying closer attention, you see that actually no,
They have a wide variety of bill shapes and lengths, which they are using to catch different
sorts of invertebrate prey, and their legs are of wildly different lengths.
The long-legged species are out wading around in deeper water, while the little stubby guys
are zipping back and forth across the drier flats.
These shore bird species are not actually competing for the same food.
What we're seeing in this example is habitat segregation.
Millions of years of competition has presumably,
driven similar species to evolve different lifestyles such that they can now minimize competition
by exploiting different micro-habitats in the same general habitat.
A concept similar to habitat segregation is resource partitioning.
This is where similar, closely related species have evolved to divide up a resource by size or some
other dimension. For example, research on kingfishers in South America shows that five
species living in the same habitat differ dramatically by body size and bill length, such that
each species eats fish of a different size. These birds are partitioning the resource of fish
prey by size. There are many, many examples of bird species divvying up their habitats or
resources. Darwin's finches and the Galapagos Islands are another classic case. Real-time evolution
in the beak sizes of these species has been documented and strongly
linked to competition.
The overarching pattern seems to be that the more species can exist in non-overlapping niches,
the more they can occupy the same habitat.
The idea that competition between species is very important in determining what species
can coexist in a habitat comes from classical ecology, going back many decades.
But this is still a topic of heated debate among biologists.
Research is ongoing.
As I mentioned, it turns out that it's difficult to document present-day competition.
Sure, you can stake out a rotting donkey carcass to record which scavenging bird species are beating up their rivals,
but are those interactions influencing the populations of those birds such that evolutionary change results?
Hard to say.
All the lovely examples we have of habitat segregation and resource partitioning are often referred to by scientists as ghosts of
competition past. These patterns we see today are, we assume, the end result of competition among
species that was occurring a long time ago. Most of the research on this topic is observational.
Scientists use observations to develop hypotheses about bird competition. Predictions are made from
these hypotheses and then further observations in the field either support or refute the hypotheses.
Using this approach, it's often difficult to measure competition between species that has clear evolutionary or ecological consequences.
An experimental approach is better, where variables can be controlled.
One of the few examples of this approach is the study in Sweden I mentioned,
where two insect-eating bird species were removed to see what happens to the remaining two species.
But experiments like that are challenging, logistically and sometimes ethically.
which is why we don't see many of them.
Whether or not we humans can measure it,
competition is most certainly going on out there among bird species.
Through evolution, extinction, or behavioral changes,
birds have in countless cases reduced competition
such that they can coexist in remarkable, beautiful ways all across the planet.
So if you have a bird feeder filled with seeds or a hummingbird feeder,
maybe take a little time to watch the interspecies interactions you see out there.
Can you figure out the dominance hierarchy in your backyard?
Well, folks, that is it for this episode.
I hope you learned a few things and enjoyed the ride.
Thank you so much for being here.
If you love birds, like me, and you want to learn more about their biology,
please subscribe to the Science of Birds podcast.
You can also see the show notes for this episode on the website
at scienceofbirds.com.
It would be super cool if you signed up for the email newsletter,
which you can do right there on the website,
scienceofbirds.com.
I'm Ivan Philipson, and I'll catch you next time.
Peace.