Tuesday, May 30th, 2006 Aim: How does biological
... Lots of genetic diversity more likely to survive environmental change Bottleneck Effect: Population shrinks, genetic diversity decreases ...
... Lots of genetic diversity more likely to survive environmental change Bottleneck Effect: Population shrinks, genetic diversity decreases ...
Biodiversity can simply be defined as the variation of life at a given
... genetic makeup of a species.3 Genetic diversity allows species to adapt to changing environments. This diversity aims to ensure that some species survive drastic changes and thus carry on desirable genes. The survival of individuals ensures the survival of the population. Species diversity: a ratio ...
... genetic makeup of a species.3 Genetic diversity allows species to adapt to changing environments. This diversity aims to ensure that some species survive drastic changes and thus carry on desirable genes. The survival of individuals ensures the survival of the population. Species diversity: a ratio ...
Genetic diversity
... Why do we care? Genetic diversity increases the chance that some members will survive environmental change Less likely in small and isolated populations Bottlenecking – genetic diversity in the resulting populations is severely decreased ...
... Why do we care? Genetic diversity increases the chance that some members will survive environmental change Less likely in small and isolated populations Bottlenecking – genetic diversity in the resulting populations is severely decreased ...
Conservation Biology
... Earth, many extinctions have occurred as a result of human activities. Biologists are concerned about this trend in extinctions and human presence. Which of the following choices is correct about how biologists estimate rates of extinctions? A. Biologists estimate the number of extinctions by conduc ...
... Earth, many extinctions have occurred as a result of human activities. Biologists are concerned about this trend in extinctions and human presence. Which of the following choices is correct about how biologists estimate rates of extinctions? A. Biologists estimate the number of extinctions by conduc ...
APES--- Ch_4 PPT - Pinecrest Preparatory Middle
... This phenomenon leads to resource (niche) partitioning and coexistence among functionally similar species. The narrower niche resulting from competition is called the realized niche. ...
... This phenomenon leads to resource (niche) partitioning and coexistence among functionally similar species. The narrower niche resulting from competition is called the realized niche. ...
community structure and species diversity
... minimum possible diversity would occur if there were 91 individuals belonging to 1 of the species and only 1 individual in each o f the other 9 species. High species diversity indicates a highly complex community because a greater variety of species allows for a larger array of species interactions. ...
... minimum possible diversity would occur if there were 91 individuals belonging to 1 of the species and only 1 individual in each o f the other 9 species. High species diversity indicates a highly complex community because a greater variety of species allows for a larger array of species interactions. ...
File - Brandon`s Amazing APES
... out/fund projects that would jeopardize an endangered species. The act also made it illegal for Americans to engage in commerce associated with hunting/killing and collecting endangered or threatened species. 28: What is the CITIES Treaty? The CITIES treaty (Convention on International Trade in Enda ...
... out/fund projects that would jeopardize an endangered species. The act also made it illegal for Americans to engage in commerce associated with hunting/killing and collecting endangered or threatened species. 28: What is the CITIES Treaty? The CITIES treaty (Convention on International Trade in Enda ...
Chapter 41 Reading Guide: Species Interactions
... What are two factors that determine the number of species on the island? The rate at which new species immigrate to the island and rate at which species become extinct Explain the relationship between total species and extinction and immigration rate on an island. As the number of species on the isl ...
... What are two factors that determine the number of species on the island? The rate at which new species immigrate to the island and rate at which species become extinct Explain the relationship between total species and extinction and immigration rate on an island. As the number of species on the isl ...
Evolution and Biodiversity
... Extinction Local, ecological and true extinction The ultimate fate of all species just as death is for all individual organisms 99.9% of all the species that have ever existed are now extinct To a very close approximation, all species are extinct Background vs. Mass Extinction Low rate ...
... Extinction Local, ecological and true extinction The ultimate fate of all species just as death is for all individual organisms 99.9% of all the species that have ever existed are now extinct To a very close approximation, all species are extinct Background vs. Mass Extinction Low rate ...
Origin of species
... Rates of speciation after an extinction may take about 10 my Takes time for: Ecosystems to recover Processes of speciation and adaptive diversification to begin Not all groups of organisms are affected equally during extinctions A sixth extinction is underway Estimates: 1/4th of all sp ...
... Rates of speciation after an extinction may take about 10 my Takes time for: Ecosystems to recover Processes of speciation and adaptive diversification to begin Not all groups of organisms are affected equally during extinctions A sixth extinction is underway Estimates: 1/4th of all sp ...
Lesson 1 what is biodiversity
... Lack of information for some species – e.g. bacteria and insects Variations in biodiversity in different parts of the world due to geographical factors. The greatest diversity is near the equator and it decreases towards the poles. Large areas of tropical rainforests, the poles, and deserts not y ...
... Lack of information for some species – e.g. bacteria and insects Variations in biodiversity in different parts of the world due to geographical factors. The greatest diversity is near the equator and it decreases towards the poles. Large areas of tropical rainforests, the poles, and deserts not y ...
Endangered Species
... • An endangered species is a population of organisms which is at risk of becoming extinct because it is either few in numbers, threatened by changing environmental or predation parameters, deforestation, or lack of food or water. • International and national agencies work to maintain lists of endang ...
... • An endangered species is a population of organisms which is at risk of becoming extinct because it is either few in numbers, threatened by changing environmental or predation parameters, deforestation, or lack of food or water. • International and national agencies work to maintain lists of endang ...
11.6 Patterns in Evolution
... extinction rate vastly exceeds any estimation of the background extinction rate impels many scientists to conclude that we are now on the cusp of the so-called Sixth Extinction. ...
... extinction rate vastly exceeds any estimation of the background extinction rate impels many scientists to conclude that we are now on the cusp of the so-called Sixth Extinction. ...
Chapter 4
... • Provide potential insight into cures for human diseases such as cancer • Keystone species • Hunted and killed by humans ...
... • Provide potential insight into cures for human diseases such as cancer • Keystone species • Hunted and killed by humans ...
Pre-Test Key
... life is more diverse now than it has ever been more species are extinct than alive today no species has survived for more than 1000 years new species are evolving every day niches are the same today as they were 100,000 years ago ...
... life is more diverse now than it has ever been more species are extinct than alive today no species has survived for more than 1000 years new species are evolving every day niches are the same today as they were 100,000 years ago ...
The Economics of Biodiversity
... 1998, Barbier, Burgess and Folke 1995): The number of species presently living in the biosphere is not known; 1.75 million different species are described Regarding estimates of the total number the consensus appears to be in the region of 12,5 – 13,5 million species 2,6 species can disappear each y ...
... 1998, Barbier, Burgess and Folke 1995): The number of species presently living in the biosphere is not known; 1.75 million different species are described Regarding estimates of the total number the consensus appears to be in the region of 12,5 – 13,5 million species 2,6 species can disappear each y ...
File
... Number reflects more about human interests than actual status – invertebrates make up 75% of all species, but only 9% of the list. ...
... Number reflects more about human interests than actual status – invertebrates make up 75% of all species, but only 9% of the list. ...
Unit Five
... • Biodiversity is the variety of life whether one focuses on the Earth as a whole, a somewhat smaller area known as a biome, or an even smaller area called an ecosystem • There are 3 levels of biodiversity which are from smallest to largest: – 1. genetic diversity – 2. species diversity – 3. ecosyst ...
... • Biodiversity is the variety of life whether one focuses on the Earth as a whole, a somewhat smaller area known as a biome, or an even smaller area called an ecosystem • There are 3 levels of biodiversity which are from smallest to largest: – 1. genetic diversity – 2. species diversity – 3. ecosyst ...
Lecture 17, adaptive radiation + ecology
... This diversification in such a short window of time was the most important adaptive radiation in the history of life Why did so many new body plans evolve in such a short time? ...
... This diversification in such a short window of time was the most important adaptive radiation in the history of life Why did so many new body plans evolve in such a short time? ...
Ecology - My eCoach
... the end of the Devonian Period, may or may not have been the result of global climate change. 19% of families lost. Third major Extinction (c. 245 mya): Scenarios explaining what happened at the greatest mass extinction event of them all (so far, at least!) at the end of the Permian Period have be ...
... the end of the Devonian Period, may or may not have been the result of global climate change. 19% of families lost. Third major Extinction (c. 245 mya): Scenarios explaining what happened at the greatest mass extinction event of them all (so far, at least!) at the end of the Permian Period have be ...
Population Biology Chapter 4 Section 1
... Produce many offspring. Have small bodies. Mature rapidly. Have short life spans. Can live in unstable environments. Biotic and abiotic factors fluctuate. ...
... Produce many offspring. Have small bodies. Mature rapidly. Have short life spans. Can live in unstable environments. Biotic and abiotic factors fluctuate. ...
Biodiversity increased stability
... Diversity decreases with latitude • Species diversity cline Latitudinal variation • Species richness is higher in tropical than temperate regions – Forest birds of Central and South America Altitudinal variation • Richness often declines with increasing altitude – New Guinea birds Habitat complexity ...
... Diversity decreases with latitude • Species diversity cline Latitudinal variation • Species richness is higher in tropical than temperate regions – Forest birds of Central and South America Altitudinal variation • Richness often declines with increasing altitude – New Guinea birds Habitat complexity ...
Extinction
In biology and ecology, extinction is the end of an organism or of a group of organisms (taxon), normally a species. The moment of extinction is generally considered to be the death of the last individual of the species, although the capacity to breed and recover may have been lost before this point. Because a species' potential range may be very large, determining this moment is difficult, and is usually done retrospectively. This difficulty leads to phenomena such as Lazarus taxa, where a species presumed extinct abruptly ""reappears"" (typically in the fossil record) after a period of apparent absence.The age of the Earth is about 4.54 billion years old. The earliest undisputed evidence of life on Earth dates at least from 3.5 billion years ago, during the Eoarchean Era after a geological crust started to solidify following the earlier molten Hadean Eon. There are microbial mat fossils found in 3.48 billion-year-old sandstone discovered in Western Australia. Other early physical evidence of a biogenic substance is graphite in 3.7 billion-year-old metasedimentary rocks discovered in Western Greenland. More than 99 percent of all species, amounting to over five billion species, that ever lived on Earth are estimated to be extinct. Estimates on the number of Earth's current species range from 10 million to 14 million, of which about 1.2 million have been documented and over 86 percent have not yet been described.Through evolution, species arise through the process of speciation—where new varieties of organisms arise and thrive when they are able to find and exploit an ecological niche—and species become extinct when they are no longer able to survive in changing conditions or against superior competition. The relationship between animals and their ecological niches has been firmly established. A typical species becomes extinct within 10 million years of its first appearance, although some species, called living fossils, survive with virtually no morphological change for hundreds of millions of years. Mass extinctions are relatively rare events; however, isolated extinctions are quite common. Only recently have extinctions been recorded and scientists have become alarmed at the current high rate of extinctions. Most species that become extinct are never scientifically documented. Some scientists estimate that up to half of presently existing plant and animal species may become extinct by 2100.