the abiotic factors that can cause a whooping crane's population to decrease are water, air, space, and breeding grounds.
Density-dependent limiting factors include competition for resources, predation, and disease, which become more intense as the population density increases. Density-independent limiting factors, such as natural disasters and climate events, affect populations regardless of their density.
called a limiting factor. These factors can include food availability, predation, disease, competition for resources, and habitat destruction. When limiting factors become too severe, they can lead to a decrease in population size.
Density-dependent limiting factors are factors that limit the growth of a population based on the population density. These factors become more impactful as population density increases, such as competition for resources, predation, and disease transmission. They help regulate population size by exerting stronger effects when the population is large and resources are scarce.
Whooping Cranes are not extinct, but almost were. If we haven't looked at the situation the way we did the whooping crane would probally be extinct by now. There are about 500 whooping cranes left in the North America (they only live in North America).
NO, because biotic is living or ONCE LIVING and Abiotic is nonliving and never will be
Yes, when a biotic thing dies, it undergoes decomposition and breaks down into its abiotic components, such as minerals and nutrients. These abiotic components can then be recycled back into the environment.
Abiotic factors affect an environment in many ways. For instance, if there is too much of abiotic fators in an ecosystem than there is biotic factors, the biotic factors will start to decrease due to the lack of biotic factors (food for predators). Therefore, the biotic factors will become extinct.
Density-dependent limiting factors act most strongly on populations that are large and crowded, as these factors become more influential as population density increases. Examples include competition for resources, predation, disease, and parasitism, which can limit growth and reproduction. In contrast, small or sparse populations are less affected by these factors. Thus, the impact of density-dependent factors is intensified in populations nearing their carrying capacity.
Yes, seasonal cycles can be considered a form of density-dependent limiting factor. As populations increase during certain seasons, resources may become more limited, impacting population growth and survival. This dependence on population density for resource availability is a key characteristic of density-dependent factors.
A population with a low population density would be least likely to be affected by a density-dependent limiting factor, as these factors typically become significant when populations reach higher densities.
Yes.
such as climate, average rainfall, geographical location, etc.