Human-induced alteration of biogenic habitats at the landscape scale is increasing, and directly influencing local diversity and system functioning (Vitousek et al. 1997, Duarte 2002, Lozte et al. 2006 and Airoldi & Beck 2007). Alteration of natural landscapes can result in loss of entire habitats or transition of more complex to less complex habitats, for example shellfish reefs or seagrass beds to mud flats (Short and Wyllie-Echeverria 1996, Hughes et al. 2002, Ruesink et al. 2005, Thrush et al. 2006). Alterations in habitat can generate unsuitable habitat between isolated patches of contiguous habitat (MacArthur & Wilson 1967, Hanski 1994). These changes in turn, have a direct effect on the dynamics of a community (total abundance, diversity and species richness), especially the design and influence of functional roles of species occupying the system (Gray 1997, Tilman et al. 1994, Loureau et al. 2001). For example, much some of the temperate continental shelf are being homogenized from bottom trawling and dredging, resulting in loss of individuals and functional groups (Thrush and Dayton 2002, Gray et al. 2006). The synergistic effects of the loss of quantity and of quality habitat, and the timing and configuration of habitat alteration may result in threshold levels of habitat loss below which faunal diversity, abundance, and survival can be resilient.
Habitat loss has been indicated as one of the major threats to marine biodiversity (Gray, 1997), and biogenic temperate reefs are probably among the most threatened habitats globally (Coleman and William 2002, Barbera et al. 2003, Airoldi and Beck 2007, Airoldi et al. 2008). These structurally complex habitats are diminishing across marine environments, across multiple spa...
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... does the loss of kelp forest canopy, and the spatial scale over which it occurs, influence the dynamics of the associated community in the canopy? (2) How does the alternative undisturbed habitats (undisturbed canopy or the subcanopy kelp habitats) buffer the invertebrate community after a disturbance? (3) Does the timing of habitat loss influence how the dynamics of the community respond?(Moved to discussion) (3) How does the dynamics of the community recover after the loss of habitat, and if they do, (4) how long does the recovery take? To address these questions we experimentally removed canopy habitat from replicate kelp forests. Manipulations were conducted on approximately the same spatial scale at which kelp forest canopies are commonly fragmented by human-induced alteration (e.g. mechanical harvesting activities; Bodkin 1988, Foster & Donnellan 1999).
For example the canopies of kelp provide shelter for many organisms . Because the kelp is able to float, it creates a canopy. This canopy has warm temperatures and slow water currents, providing a home to defenseless young. This is important because the kelp is able to protect many organisms from predators and rough storms (6). Kelp is also the base of the food chain. Since kelp is the base of the food chain many organisms eat kelp and other animals eat them.This is important because without the kelp all the primary consumers would starve having no other food source (5). Finally each part of kelp is home to a different species. Because each part of kelp is home to a different species, many species breed in them. This is important because if the kelp where gone there would be no place for the organisms to breed downsizing their population (4). Overall kelp is providing food and shelter to many
Introduction Sea otters (Enhydra lutris) are marine mammals capable of spending their entire lives in water. Being carnivorous in nature, they feed on sea urchins, crabs, fishes, mussels and clams. They are referred to as keystone species due to their profound impact on marine ecology. The interaction between sea otters, sea urchins and kelp forests has been studied as a model for the impact of predator-prey interactions on community ecology. Sea otters are keystone predators, whose presence has a far-reaching influence on the marine food web by affecting the populations of sea urchins, which indirectly affects the populations of kelp forests & other marine organisms.
Time and time again it has been seen that human interaction with his/her environment and it’s ecosystems has shown to be increasingly arrogant and self-serving. These endless accounts are proven by the amount of important biological diversity that is being lost to the surrounding environment due to these threats of human development and population growth. There are two forms of these losses of diversity by human hand: direct and indirect. Direct losses would be the destruction of an area needed for human requirements be it social or economical. Examples of these losses would be housing, agriculture, and others. Indirect losses would be those caused by the destruction of an area also needed for the same requirements but the area’s commodities which are valued, water, food, land in general, is needed elsewhere. These losses are few in number compared with those of direct losses yet they are of the greatest importance. They are important because they involve the removal of resources of an area in which other inhabitants are dependent upon. A great example of this regrettable indirect expansion is the loss of the rich habitat of the area known as Owens Valley.
Landscape fragmentation contributes to loss of migratory corridors, loss of connectivity and natural communities, which all lead to a loss of biodiversity for a region. Conservation of biodiversity must include all levels of diversity: genetic, species, community, and landscape (CNHP 1995). Each complex level is dependent upon and linked to the other levels. In addition, humans are linked to all levels of this hierarchy. A healthy natural and human environment go hand in hand (CNHP 1995). An important step in conservation planning, in order to guarantee both a healthy natural environment as well as a healthy human environment, is recognizing the most endangered elements.
Given how important coral reefs are, the increasingly disappearance of our coral reef ecosystems will continue to have a detrimental impact on marine biodiversity with in these ecosystems. In addition to the decline of the animal species, job opportunities for many staff members that keep our parks open and healthy for everyone to enjoy, revenue be lost due to the decline in coral reefs. To help ensure this downward spiral in eliminated before it is too late, park officials and scientist conduct continuous research on the effects of ocean acidification and global warming on marine organisms and overall health and longevity of these ecosystems. Ultimately, the goal is to develop ways to intervene before it is to late in hopes that we can reverse the damage already inflicted on our coral reefs and allow these ecosystems to re grow once
Wisshak, M., Schönberg, C.H.L., Form, A. & Freiwald A (2012) Ocean Acidification Accelerates Reef Bioerosion. PLoS ONE 7(9): e45124. doi:10.1371/journal.pone.0045124
All over the world coral reefs play an important part in our environment. Not only are the reefs colorful and beautiful to look at but the coral reefs house several different types of fish and other sea creatures. Coral reefs have started to decline over the years due to “climate change, El Nino events, overfishing, pollution and other pressures” (Newnham 1). A healthy coral reef can also collapse due to a natural disaster (Newnham 2). There can be several different reasons why a coral reef has started to decline or has been destroyed.
Tundra is the coldest of all the biomes. Tundra comes from the Finnish word tunturia, meaning treeless plain. It is noted for its frost-molded landscapes, extremely low temperatures, little precipitation, poor nutrients, and short growing seasons. Dead organic material functions as a nutrient pool. The two major nutrients are nitrogen and phosphorus. Nitrogen is created by biological fixation, and phosphorus is created by precipitation. Tundra is separated into two types: arctic tundra and alpine tundra.
Oceans cover 71% of the earth’s surface. The talk of climate change can often seem to focus on what is happening in our atmosphere, but there is a lot of change going on in our oceans. The oceans have absorbed 90% of the excess heat and 28% of the carbon pollution generated by human consumption of fossil fuels (Nuccitelli 2015). The purpose of this paper is to show how the effects of climate change effect the coral reefs in our oceans, with a focus on the coral reef systems in the Caribbean and of the Great Barrier Reef. The Caribbean coral reefs are well known to have suffered more damage between the two reef systems. That’s not to say that the Great Barrier Reef has not suffered its own damage. It has and will continue to suffer in the future.
A biome, also known as life zones, consists of all plants, animals, and other organisms, as well the physical environment in a particular area. A biome is characterized by its’ plant life, climate, and location. The climate and physical features determine the boundaries of a biome. A biome is made up of many different ecosystems. The ecosystems tend to have the same pants and animals as neighboring biomes around the boundaries. The major biomes are the tundra, taiga, tropical rain forest, temperate forests, desert, grassland, savanna, chaparral, and marine. Each biome has it’s own characteristics such as the tundra.
Coral reefs are well known for their colorful array of marvelous sights including a parade of exotic flora and fauna. They are said to be the foundation for a quarter of marine species, and are a crucial support for human life as well. The coral reef ecosystem is a diverse collection of species (ranging from microscopic to larger-than-life in size) that interact with each other and their physical environment. If any piece of a coral reef is harmed or removed the entire community can be seriously affected, even to the point of collapse. Unfortunately, human impact has resulted in long-term stresses that, unlike the short-term stress of natural disasters, coral reefs are not as capable to recover from. “Approximately half of the world’s coral reef ecosystem resources are considered by scientists to be in 'poor' or 'fair' condition and have declined over time due to several anthropogenic threats” (“Status of Corals” par. 2). Through poorly administered commercial practices, carelessness and ignorance among the common people, and human aggravated natural processes coral reef destruction has become a serious issue afflicting the world’s biodiversity and it’s intricate biosphere mechanics (“Human Impact on the Great Barrier Reef” 1) (“What Are Coral Reefs?” 1).
Lotze, Heike K., Marta Coll, Anna M. Magera, Christine Ward-Paige, and Laura Airoldi. "Recovery of Marine Animal Populations and Ecosystems." Trends in Ecology & Evolution 26.11 (2011): 595-605. Print.
Walker, D. I., Kendrick, G. A., & McComb, A. J. (2006). Decline and recovery of seagrass ecosystems—the dynamics of change. In seagrasses: biology, ecology and conservation (pp. 551-565). Springer Netherlands.
We need coral reefs, and not just to make the ocean look pretty and colourful, they are more than just that…
Coral Reefs need to be preserved for many reasons. In this paper I will discuss a