Diversity Of Life 1. A classification system is to: A. Sort items into smaller groups B. Groups things into similar items. What are the 5 living things kingdom. Bacteria, Fungi, Insects, Animals, Microorganism B. Bacteria, Fungi. How are arthropods classified into 5. The Diversity of Life web site is designed to be used for educational purposes. As with most web sites, the linked pages are under continuous revision, as is our understanding of the relationships of living things. If you use information from these pages, please cite them as follows: Holt, Jack R. Diversity of Life. View Diversity of Life Notes.pdf from BIOL 100 at Minnesota State University, Mankato. 1/21/2021 DIVERSITY OF LIFE 1 DIVERSITY OF LIFE Domain. 3 groups in which all organisms fit. Bacteria.

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Figure 1. Life on earth is incredibly diverse.

Biological diversity is the variety of life on earth. This includes all the different plants, animals, and microorganisms; the genes they contain; and the ecosystems they form on land and in water. Biological diversity is constantly changing. It is increased by new genetic variation and reduced by extinction and habitat degradation.

What Is Biodiversity?

Biodiversity refers to the variety of life and its processes, including the variety of living organisms, the genetic differences among them, and the communities and ecosystems in which they occur. Scientists have identified about 1.9 million species alive today. They are divided into the six kingdoms of life shown in Figure 2. Scientists are still discovering new species. Thus, they do not know for sure how many species really exist today. Most estimates range from 5 to 30 million species.

Figure 2. Click for a larger image. Known life on earth

Cogs and Wheels

To save every cog and wheel is the first precaution of intelligent tinkering.

—Aldo Leopold, Round River: from the Journals of Aldo Leopold, 1953

Diversity Of Life On Earth

Leopold—often considered the father of modern ecology—would have likely found the term biodiversity an appropriate description of his “cogs and wheels,” even though idea did not become a vital component of biology until nearly 40 years after his death in 1948.

Literally, the word biodiversity means the many different kinds (diversity) of life (bio-), or the number of species in a particular area.

Biologists, however, are always alert to levels of organization, and have identified three unique measures of life’s variation:

• The most precise and specific measure of biodiversity is genetic diversity or genetic variation within a species. This measure of diversity looks at differences among individuals within a population, or at difference across different populations of the same species.
• The level just broader is species diversity, which best fits the literal translation of biodiversity: the number of different species in a particular ecosystem or on Earth. This type of diversity simply looks at an area and reports what can be found there.
• At the broadest most encompassing level, we have ecosystem diversity. As Leopold clearly understood, the “cogs and wheels” include not only life but also the land, sea, and air that support life. In ecosystem diversity, biologists look at the many types of functional units formed by living communities interacting with their environments.

Although all three levels of diversity are important, the term biodiversity usually refers to species diversity!

Video Review

Watch this discussion about biodiversity:

You can view the transcript for “Biodiversity from ‘the Wild Classroom'” here (link opens in new window).

Biodiversity provides us with all of our food. It also provides for many medicines and industrial products, and it has great potential for developing new and improved products for the future. Perhaps most importantly, biological diversity provides and maintains a wide array of ecological “services.” These include provision of clean air and water, soil, food and shelter. The quality—and the continuation— of our life and our economy is dependent on these “services.”

Australia’s Biological Diversity

Figure 2. The short-beaked echidna is endemic to Australia. This animal—along with the platypus and three other species of echidnas—is one of the five surviving species of egg-laying mammals.

The long isolation of Australia over much of the last 50 million years and its northward movement have led to the evolution of a distinct biota. Significant features of Australia’s biological diversity include:

• A high percentage of endemic species (that is, they occur nowhere else):
  • over 80% of flowering plants
  • over 80% of land mammals
  • 88% of reptiles
  • 45% of birds
  • 92% of frogs
• Wildlife groups of great richness. Australia has an exceptional diversity of lizards in the arid zone, many ground orchids, and a total invertebrate fauna estimated at 200,000 species with more than 4,000 different species of ants alone. Marsupials and monotremes collectively account for about 56% of native terrestrial mammals in Australia.
• Wildlife of major evolutionary importance. For example, Australia has 12 of the 19 known families of primitive flowering plants, two of which occur nowhere else. Some species, such as the Queensland lungfish and peripatus, have remained relatively unchanged for hundreds of millions of years.

Contribute!

The biosphere supports between 3 and 30 million species of plants, animals, fungi, single-celled prokaryotes such as bacteria, and single-celled eukaryotes such as protozoans (Figure 1). Of this total, only about 1.4 million species have been named so far, and fewer than 1 percent have been studied for their ecological relationships and their role in ecosystems. A little more than half the named species are insects, which dominate terrestrial and freshwater communities worldwide; the laboratories of systematists are filled with insect species yet to be named and described. Hence, the relationships of organisms to their environments and the roles that species play in the biosphere are only beginning to be understood.

The organization of the biosphere

Natural groupings

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This tremendous diversity of life is organized into natural ecological groupings. As life has evolved, populations of organisms have become separated into different species that are reproductively isolated from one another. These species are organized through their interrelationships into complex biological communities. The interactions in these communities affect, and are affected by, the physical environments in which they occur, thereby forming ecosystems through which the energy and nutrients necessary for life flow and cycle. The mix of species and physical environments vary across the globe, creating ecological communities, or biomes, such as the boreal forests of North America and Eurasia and the rainforests of the tropics. The sum total of the richness of these biomes is the biosphere.

Processes of evolution

Biology Diversity Of Life Notes

This hierarchical organization of life has come about through the major processes of evolution—natural selection (the differential success of the reproduction of hereditary variations resulting from the interaction of organisms with their environment), gene flow (the movement of genes among different populations of a species), and random genetic drift (the genetic change that occurs in small populations owing to chance). (Seeevolution.) Natural selection operates on the expressed characteristics of genetic variants found within populations, winnowing members of the population who are less well suited to their environment from those better suited to it. In this manner, populations become adapted to their local ecosystems, which include both the physical environment and the other species with which they interact in order to survive and reproduce.

Diversity Of Life Book

The genetic variation that is necessary for a species to adapt to the physical environment and to other organisms arises from new mutations within populations, the recombination of genes during sexual reproduction, and the migration of and interbreeding with individuals from other populations. In very small populations, however, some of that variation is lost by chance alone through random genetic drift. The combined result of these evolutionary processes is that after many generations populations of the same species have widely divergent characteristics. Some of these populations eventually become so genetically different that their members cannot successfully interbreed, resulting in the evolution of a separate species (speciation).

Diversity Of Life Quiz

The diversification of life through local adaptation of populations and speciation has created the tremendous biodiversity found on Earth. In most regions 1 square kilometre (0.4 square mile) will harbour hundreds—in some places even thousands—of species. The interactions between these species create intricate webs of relationships as the organisms reciprocally evolve, adapting to one another and becoming specialized for their interactions (coevolution; seecommunity ecology: The coevolutionary process). Natural communities of species reflect the sum of these species’ interactions and the ongoing complex selection pressures they constantly endure that drive their evolution. The many ecological and evolutionary processes that affect the relationships among species and their environments render ecology one of the most intricate of the sciences. The answers to the major questions in ecology require an understanding of the relative effects of many variables acting simultaneously.