Biology is the study of all living organisms (plants, animals, microorganisms) and how they interact with each other and their environment. It examines the structure, classification, function, growth, origin, evolution, and distribution of all living things. Show
Biodiversity, abbreviated from the terms 'biological' and 'diversity', encompasses the variety of lifeforms found at all scales of biological organisation, ranging from genes to species to ecosystems. The greatest biodiversity is found in the tropical regions of the world, particularly among tropical rainforests and coral reefs. Biodiversity is increased by genetic change and evolutionary processes and reduced by habitat destruction, population decline and extinction. There is a growing recognition that the level of biodiversity is an important factor in influencing the resilience of ecosystems to disturbance. Biodiversity is a complex term that includes not only the variety of different animals (species diversity) but also the difference between animals of the same species (genetic diversity) and between ecosystems (ecosystem diversity). Genetic Diversity is the diversity of genetic characteristics (expressed or recessive) within a species (i.e. between individuals and populations of the same species). This component of biodiversity is important because it allows populations to adapt to environmental changes through the survival and reproduction of individuals within a population that have particular genetic characteristics that enable them to withstand these changes. The maintenance of high genetic diversity within populations is therefore a conservation and management priority as this provides the greatest capacity for any population to adapt to a broad range of environmental changes. Conversely, failure to maintain genetic diversity limits the capacity for a population to adapt, making it vulnerable to even small changes in the environment and increasing the likelihood of extinction. Species Diversity is simply the number and relative abundance of species found in a given biological organisation (population, ecosystem, Earth). Species are the basic units of biological classification and hence, this is the measure most commonly associated with the term 'biodiversity'. Worldwide, about 1.75 million different species have been identified. However, many environments and groups of organisms are not well studied and estimates of species numbers range from 3 to 100 million. Diversity in species is important for economic, biological, social and cultural reasons. Major threats to species diversity are loss of habitat and fragmentation, over exploitations (fishing, hunting, extraction), pollution, the introduction of invasive species (e.g Asian Green Mussels) and global climate change. In order to conserve species diversity, natural resource management and habitat protection are vital. Ecosystem Diversity can be defined as the variety of different habitats, communities and ecological processes. A biological community is defined by the species that occupy a particular area and the interactions between those species. A biological community together with its associated physical environment is termed an ecosystem. Partly due to its complexity, biodiversity can be extremely difficult to measure. However, there are a few key indicators of biodiversity that we can accurately and efficiently monitor. For coral reefs these indicators include: seafloor diversity, seagrass, mangroves, seabirds, species of conservation concern and species richness and community structure of hard corals on the GBR. Even a fully constructed food web, however, can provide only a superficial and static view of the structure of biological communities. Not all the relationships between species are of equal importance in the
dynamics and evolution of populations and the organization of communities. Food webs include both strong and weak interactions between species, and these differences in interaction strength influence the organization of communities. Some species, called keystone
species, have a disproportionately large effect on the communities in which they occur. They help to maintain local diversity within a community either by controlling populations of species that would otherwise dominate the
community or by providing critical resources for a wide range of species. The starfish Pisaster ochraceus is a keystone species in the rocky marine intertidal communities off the northwest coast of North America. This predatory starfish feeds on the mussel Mytilus californianus and is responsible for maintaining much of the local diversity of species within certain communities. When the starfish have been removed experimentally, the mussel populations have expanded rapidly and covered the rocky intertidal shores so exclusively that other species cannot establish themselves. Consequently, the interaction between Pisaster and Mytilus supports the structure and species diversity of these communities. In other communities in which Pisaster occurs, however, the starfish has little overall effect on the structure of the community. Therefore, a species can be a keystone species in some communities but not in others. In some forest communities in tropical America, figs and a few other plants act as keystone species but in a very different manner from the starfish Pisaster. Figs bear fruit year-round in some of these forest communities, and a large number of birds and mammals rely heavily on this small group of plant species during the times of the year when other food resources are scarce. Without figs, many species would disappear from the community. Guilds and interaction websMost communities contain groups of species known as guilds, which exploit the same kinds of resources in comparable ways. The name “guild” emphasizes the fact that these groups are like associations of craftsmen who employ similar techniques in plying their trade. Guilds may consist of different insect species that collect nectar in similar ways, various bird species that employ corresponding insect-foraging techniques, or diverse plant species that have evolved comparable floral shapes with which they attract the same group of pollinators. Guilds often are composed of groups of closely related species that all arose from a common ancestor. They exploit resources in similar ways as a result of their shared ancestry. Hence, several species within a single genus may constitute a guild within a community. A less common but not unknown occurrence is for unrelated species to make up a guild. Because members of a guild engage in similar activities, it is not surprising that they are often competitors for the resources they share, especially when those resources are scarce. This competition among guilds emphasizes the fact that, in addition to food webs, the structure of the community is built on other types of interaction. Species not only eat one another; they compete for resources, forging a variety of interspecific interactions. Many species also interact cooperatively to search for food or avoid predators. These and other nontrophic relationships between species are as important as food chains and food webs in shaping the organization of biological communities (see below Interspecific interactions and the organization of communities). Patterns of community structureEcological successionThe structure of communities is constantly changing. All communities are subject to periodic disturbances, ranging from events that have only localized effects, such as the loss of a tree that creates a gap in the canopy of a forest, to those that have catastrophic consequences, which include wildfires that sweep across vast landscapes or storms that pound immense stretches of shoreline. Each new disturbance within a landscape creates an opportunity for a new species to colonize that region. New species also alter the character of the community, creating an environment that is suitable to even newer species. By this process, known as ecological succession, the structure of the community evolves over time. Types of successionTwo different types of succession, primary and secondary, have been distinguished. Primary succession occurs in essentially lifeless areas—regions in which the soil is incapable of sustaining life as a result of such factors as lava flows, newly formed sand dunes, or rocks left from a retreating glacier. Secondary succession occurs in areas where a community that previously existed has been removed; it is typified by smaller-scale disturbances that do not eliminate all life and nutrients from the environment. Events such as a fire that sweeps across a grassland or a storm that uproots trees within a forest create patches of habitat that are colonized by early successional species. Depending on the extent of the disturbance, some species may survive, other species may be recolonized from nearby habitats, and others may actually be released from a dormant condition by the disturbance. For example, many plant species in fire-prone environments have seeds that remain dormant within the soil until the heat of a fire stimulates them to germinate. What species has the greatest impact upon an ecosystem?Every ecosystem has certain species that are critical to the survival of the other species in the system. The keystone species could be a huge predator or an unassuming plant, but without them the ecosystem may not survive.
What type of species has an impact on the ecosystem?A keystone species is an organism that helps define an entire ecosystem. Without its keystone species, the ecosystem would be dramatically different or cease to exist altogether.
Which species have the greatest influence on community structure?A keystone species is a species that has a disproportionately large effect on community structure relative to its biomass or abundance.
What are the types of species in a community?There are three main types of species that serve as the basis for a community. These include the foundation species, keystone species, and invasive species. Each of these has a specific role in how communities are formed.
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Which type of species is a species that has a major impact on a community and helps to maintain the diversity of the community?
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