Isle royale wolf and moose relationship memes

Isle Royale Wolf & Moose Implications

Moose arrived on Isle Royale only in the past century, after swimming from Canada. Is Bringing New Wolves to Isle Royale National Park "Restocking the Zoo"?. PDF | In Isle Royale National Park, heavy moose browsing over the past years has wolf populations on Isle Royale is tied to these vegetation changes. peu d'attention, même si l'avenir des populations d'orignaux et de loups de l' Isle Royale est lié . mining community patterns, particularly in relationship to grami-. FIVE DECADES OF FLUCTUATING WOLF AND MOOSE POPULATIONS If we pay attention, they all tell us something important about our relationship with.

Wildlife, with the exception of those species named on a Treaty i. WOW, that must be the granddaddy of all Faulknerian sentences! I seem to be incapable of editing it because any edit seems to detract from my intentions. Isle Royale National Park Island while a National Park is still just as much under the jurisdiction and authority of the State of Michigan as though you and I had purchased it.

Not only had Congress refused to authorize or fund the wolf introductions in the Upper Rockies, FWS additionally defied Congress by also shipping some of the wolves to an Indian Reservation in central Idaho for release despite the loud objections of Idaho residents and their State and Local governments.

What business does FWS have trapping wolves and helping transport them to the island? Where is the Michigan DNR in all this? The magical qualities of certain wildlife species the howl of the wolf and the honking of migrating geese are two prime examples are being dissolved by federal oversight. What was once a rare glimpse or sound to stir the soul is now a note of fear for ranchers, hunters, dog owners, parents, school teachers in rural America where these animals are forced on a populace that has no recourse under sterile State governments and gradually disappearing Local governments to represent rural American problems Trump?

He crossed on an ice bridge that occasionally forms between Isle Royale and Canada. His arrival also explains, in part, why wolves did pretty well from toduring a time when it was relatively difficult for wolves to capture moose. For several years around the turn of the century, moose seemed to be recovering. Then, a series of very hot summers struck. During hot summers moose feed less, as they spent more time resting in the shade.

Having fed less, the undernourished moose were less prepared to survive the winters. Warm temperatures also enabled severe outbreaks of moose tick. Weakened by heat and ticks, moose dropped to their lowest observed levels. Wolves took advantage of weakened moose, fueling high rates of predation. During the first decade of the 21st century, the moose population steadily slid to its lowest levels. The wolf population, with 30 individuals living in three packs, had been thriving until But with moose becoming increasingly rare, capturing food become increasingly difficult.

One wolf pack failed after another. Bythe population was reduced to 9 wolves living in one pack and another half dozen wolves, the socially disorganized remnants of Middle Pack.

DNA analysis of wolf scats collected at kill sites indicates no more than two adult females in the population. If they were to die before giving birth to new females, the wolves would be committed to extinction. One of the important lessons The wolves and moose of Isle Royale have been of interest for so long because they offer some very important, general lessons.

Here is one of the most important. Important attitudes about how we should relate to Nature, and some of our abusive relationships with Nature, are rooted in convictions that we understand Nature well, and can accurately predict how Nature will respond to our actions. For 50 years, the focused purpose of the Isle Royale wolf-moose project has been to predict and understand a relatively simple natural system.

About The Project: Overview

But the more we studied, the more we came to realize how poor our previous explanations had been. The accuracy of our predictions for Isle Royale wolf and moose populations is comparable to those for long-term weather and financial markets. Every five-year period in the Isle Royale history has been different from every other five-year period — even after fifty years of close observation.

The first 25 years of the chronology were fundamentally different from the second 25 years. And the next five decades will almost certainly be different from the first five decades. And the only way we will know how, is to continue observing. The most important events in the history of Isle Royale wolves and moose have been essentially unpredictable events — disease, tick outbreaks, severe winters, and immigrant wolves.

The lessons we learn seem to come more from explaining the past rather than predicting the future. But afterward we were able to recognize circumstances that had lead to those and other events. Natural history might be much like human history — explainable, but not predictable. Is Nature deterministic or contingent? Is ecological science like the study of physics or more like the study of human history?

Although this trend is pretty much what you might expect, there is something as subtle as it is important. There is a simple, but important idea, that the population dynamics of a top predator should be determined primarily by its food supply. This graph shows that most of the variation in wolf growth rate is not explained by variation in food supply.

There are many explanations for what might be going on here, but the list of important factors include disease, inbreeding depression, and demographic stochasticity. Predation rate is the proportion of moose each year that are killed by wolves.

It is useful to think of a population processes as a balancing act. Predation takes some moose away and the population will decline, unless for example, something like the birth or recruitment of new moose offset that loss. You might think that kill rate and predation rate would be pretty well correlated - that years of high kill rate would tend to be years of high predation rate.

You might think that a good year for wolves is a bad year for moose, and vice versa. Knowing kill rate is only half the story. You also have to investigate the predation rate.

The graph above shows that predation rate has a pretty strong tendency to be greatest during years when moose density or abundance is lowest. This trend represents an an important idea. This trend suggests that predation is inversely density-dependent. Suppose the moose population experiences a series of good years, maybe mild winters or lots of food.

Consequently, moose abundance increases and according to the trend on this graph predation rate declines. As moose abundance increases, predation becomes a less powerful force, which could allow moose abundance to increase further. Alternatively, suppose the moose population experiences some difficult years and declines, perhaps because of severe winters or lack of forage.

As the moose population declines, predation becomes according to the trend on this graph an increasingly powerful force, which can cause the population to decline even further. By this reasoning, predation would be a destabilizing force. We can expect that predation fuels much of the fluctuations we observe in moose abundance. But before we can come to this conclusion, however, we need to consider a few more ideas.

How does predation affect the moose population? This is one of the oldest questions in ecology. The simplest answer is, it depends.

On one hand, predators could focus on prey that would have died anyways - prey that are sick or old. Alternatively, a prey population might respond to increased predation with increased birth rates.

In either case, we say predation is compensated by some other process. The result is that increased predation rate has no effect on prey growth rate panel A.

Listen: Scientists turn wolf-moose relationships on Isle Royale into music

In this case, every one percent increase in predation leads to a one percent decrease in the growth rate of the prey population panel B. Other intermediate circumstances are also possible, e. So how is it on Isle Royale? Overall, predation rate is pretty variable from year-to-year. For example, predation rate is 2 to 4 times greater during years of high predation, compared to years of low predation. Moreover, predation for Isle Royale moose is strongly additive, with the slope not significantly different from negative one see graph at left.

Consequently, annual variation in predation rate has a big impact on whether the moose abundance will increase or decline. In fact, annual variation in predation rate is one of the most important influences on moose population growth rate i. Is the moose population unstable, and what does that mean? So far, it seems that predation rate is an important predictor of whether the moose population will grow or decline section 6.

And, earlier we concluded that predation is a destabilizing force section 5. All populations fluctuate in abundance. Or, for example, environmental stochasticity might, also for example, be manifest as an outbreak of disease, causing an unexpected population decline. That is, after a population increases or declines, is there a strong tendency for the population to return to its previous abundance?

If so, the population is stable. A population is stable when it tends to return to some long-term average abundance after any environmental perturbation. This kind of stability promotes long-term population persistence. Without this kind of stability a population would grow to infinity which is impossibleor risk declining to extinction which is possible.

Stable populations are also said to exhibit density dependent fluctuations.

Welcome to The Wolves and Moose of Isle Royale | The Wolves and Moose of Isle Royale

These ideas about stability and density dependence can be represented graphically by a relationship between population density horizontal axis and population growth rate vertical axis.

The red line indicates that population growth rate tends to decline with increasing abundance. Moreover, there is a certain level of abundance where growth is zero red dot. When the population is at this level of abundance the population will not grow or shrink.

This is the equilibrium abundance. If environmental stochasticity causes the population to unexpectedly increase from this equilibrium i.

Conversely, if environmental stochasticity causes unexpected population decline, the growth rate in the subsequent year would be positive and the population would tend to increase, again returning to the equilibrium.

The population is stable. This stability is also represented by the blue arrows showing how abundance is attracted to the equilibrium.

About The Project: Overview | The Wolves and Moose of Isle Royale

Any population that persists for any length of time must have density dependence - it is a mathematical consequence of persistence. This means when a population is perturbed from the equilibrium it will have a very strong tendency to return rather quickly to the equilibrium. For the broadest context, consider panel C. As before, the population would not tend to increase or decrease when it existed at its equilibrium abundance.

However, the population would tend to increase forever if some perturbation increased its abundance above the equilibrium. And the population would tend to decline to extinction if some perturbation caused the population to decline below the equilibrium. Such populations are unstable, and may be prone to extinction.

So, how does the Isle Royale moose population compare with these theoretical possibilities?

Isle Royale wolves attacking moose

For a wide range of moose abundance i. For this range of abundances, the population is unstable. But we get a different sense is if we also consider the highest density of moose ever observed on Isle Royale 4. This observation is represented by the point on the lower right portion of the graph. The collapse was caused by a combination of events - most severe winter in a century, outbreak of ticks, lack of forage, and high moose density.

When we consider this extreme observation, then the most parsimonious relationship between moose abundance and population growth rate is a complicated curve 3rd order polynomial.

That curve indicates the moose population is, overall - across the full range of possible densities - density dependent. That is, the population will tend to increase when abundance is very low and decrease when abundance is very high. So, while Isle Royale moose are density dependent, in the big picture, they are inversely density dependent, or unstable for a wide range of abundances.

This instability is manifest as wide ranging fluctuations in moose abundance see graph in section 1. Is predation driven by wolves or severe winters? So far, we know that annual fluctuations in predation rate impact on moose population growth rate Section 6predation is a potentially destabilizing force section 5and that the moose population is, in fact, quite unstable section 7. There is one more possibility to assess.

Specifically, what causes predation rate to fluctuate from year to year? One might presume it is caused by annual fluctuations in wolf abundance Scenario A. However, it is possible that severe winters are responsible. Perhaps the direct effect of a severe winter is to weaken the condition of moose, which makes it easier for wolves to kill more moose Scenario B. In this case, we might say winter weather is the ultimate cause of fluctuating predation rate i.

We can use data to test whether Isle Royale is more likely characterized by scenario A or B. To do so, we need to compare two graphs - a graph showing how predation rate is related to wolf abundance, and another showing how predation rate is related to winter severity.

  • Isle Royale Wolf & Moose Implications
  • The Population Biology of Isle Royale Wolves and Moose: An Overview

The graph to the left shows how wolf abundance has a reasonably important influence on predation rate. The next graph requires more explanation. Measuring winter severity is very complicated. Severity depends on the amount of snow, whether the snow is wet and heavy or light and fluffy, how many months the snow is on the ground, how frequently snow crusts form, etc. Ecologists have learned that a useful, overall index of winter severity for eastern North America and Western Europe is the North Atlantic Oscillation index.

For details on that click here or check out this paper, Ottersen et al. The graph to the left suggests that predation rate has only a slight tendency to be greater during severe winters.

Summing it up, so far Moose are more than merely a food supply for wolves. Wolves are more than simply a source of mortality for moose.