COMO LOBOS MUDAM RIOS (Legendado)

RiseUp Portugal

16 Sept 201504:34

Summary

TLDRThe reintroduction of wolves to Yellowstone National Park in 1995 sparked a remarkable ecological transformation. Wolves, though few in number, changed the behavior of deer, which allowed vegetation to regenerate across the park. This led to a cascade of positive effects: the return of diverse wildlife, including beavers, songbirds, and bears, as well as improved river health. The wolves' impact was so profound that they reshaped the park's physical geography, stabilizing riverbanks and reducing soil erosion. This case illustrates the far-reaching power of trophic cascades in ecosystems.

Takeaways

😀 Trophic cascades are ecological processes that begin at the top of the food chain and affect the entire ecosystem.
😀 The reintroduction of wolves into Yellowstone National Park in 1995 is a classic example of a trophic cascade.
😀 Before wolves were reintroduced, deer populations had grown uncontrollably due to the absence of predators, damaging the park's vegetation.
😀 Wolves did not just kill deer, but more significantly changed their behavior, causing them to avoid certain parts of the park.
😀 This behavioral shift allowed for the regeneration of plant life, with tree heights increasing fivefold in some areas within six years.
😀 The regeneration of vegetation in valleys and gorges attracted more wildlife, such as songbirds, migratory birds, and beavers.
😀 Beavers, as ecosystem engineers, created niches for other species by building dams, which in turn supported otters, muskrats, and other animals.
😀 The wolves’ presence led to a decrease in coyotes, causing an increase in rabbit and mouse populations, which attracted more predators.
😀 The increased food supply for predators like hawks, weasels, and eagles, as well as scavengers like bears, further impacted the ecosystem.
😀 Wolves even indirectly affected the physical geography of Yellowstone by altering river behavior, reducing erosion, and stabilizing riverbanks.
😀 The Wolves' small population had a disproportionately large effect, not only on the biological ecosystem but also on the physical landscape of Yellowstone.

Q & A

What is a trophic cascade, and how does it work?
-A trophic cascade is an ecological process that starts at the top of the food chain and cascades down to affect organisms at lower levels. It occurs when a top predator, such as a wolf, influences the behavior and populations of other species, ultimately impacting the entire ecosystem.
What is the classic example of a trophic cascade, and where did it occur?
-The classic example of a trophic cascade occurred in Yellowstone National Park, United States, when wolves were reintroduced in 1995 after being absent for seventy years.
How did the absence of wolves affect the ecosystem of Yellowstone before 1995?
-Before the wolves' reintroduction, the absence of predators allowed the deer population to grow excessively, which led to overgrazing and depletion of vegetation, especially in vulnerable areas like valleys and gorges.
What was the primary effect of the wolves' reintroduction in Yellowstone?
-The primary effect was the change in the behavior of the deer. The wolves caused the deer to avoid certain areas, particularly valleys and gorges, which allowed vegetation in these regions to regenerate.
How did the regeneration of vegetation in Yellowstone impact other species?
-As the vegetation regenerated, it provided new habitats for various species. For example, the number of songbirds and migratory birds increased, beavers began to thrive due to the availability of trees, and other wildlife such as otters, muskrats, and fish benefited from the changes.
How did the wolves' presence influence the coyote population and other smaller animals?
-The wolves killed coyotes, which led to an increase in the populations of rabbits and mice. This, in turn, attracted more predators like hawks, weasels, foxes, badgers, ravens, and bald eagles.
What was the role of bears in the ecosystem following the wolves' return?
-Bears also benefited from the wolves' reintroduction. They began to feed on the carcasses left behind by wolves, and their population grew due to the increased availability of food. Additionally, the regenerating shrubs provided more berries for the bears.
How did the wolves indirectly influence the physical geography of Yellowstone?
-The wolves indirectly influenced the physical geography by changing the behavior of the rivers. The regeneration of vegetation stabilized the banks, reducing soil erosion and causing the rivers to meander less. This created more stable river channels and improved wildlife habitats.
What impact did the wolves have on soil erosion in Yellowstone?
-By driving the deer away from certain areas and allowing vegetation to recover, the wolves helped reduce soil erosion. The plants stabilized the soil, preventing it from washing away during rainstorms or river flooding.
What was the ultimate impact of the wolves on the Yellowstone ecosystem as a whole?
-Despite being few in number, the wolves had a profound impact on the Yellowstone ecosystem. They not only influenced the populations and behavior of various species but also helped to restore vegetation and even altered the physical geography of the land, resulting in a healthier, more balanced ecosystem.