Case Solvency

Fish escapes decimate biodiversity

1. Disease

2. Displacement

3. Exotic species

To date, promoters of domestic open-ocean aquaculture have downplayed the significant risks that could accompany the growth of such an industry in the US. A large body of peer- reviewed scientific literature has identified a host of risks and impacts, including: • Escapes: Aquaculture is known to be a major source for the introduction of exotic species, causing concern over the ecological impacts that escaped farmed species can have on wild f ish.3 Escaped fish compete with wild fish for food and habitat, transmit diseases, and prey on and breed with local fish, reducing the health of wild populations. • Diseases and Parasites: Intensive fish culture has been involved in the introduction and/or amplification of pathogens and disease in wild fish populations.’ • Nutrient and Habitat Impacts: By design, untreated wastes from open net pen systems are released directly into nearby bodies of water, which can negatively impact the surrounding environment6 Waste and uneaten food can build up on the ocean floor beneath pens, altering species abundance and community biodiversity. • Impacts on Predator Populations: The presence of captive fish held in high density attracts predators such as birds, sharks, and marine mammals. Techniques to keep some of these predators at bay can impact their natural behavior and pose entanglement and drowning risks. • Drugs and Chemicals: Aquaculture often relies on the use of chemicals including antibiotics, pesticides, and antifoulants.7 In some cases, use of antibiotics has resulted in bacterial resistance in the environment8 and has influenced antibiotic resistance in humans.9 • Increased Fishing Pressure on Wild Fish Stocks: Though counterintuitive, farming of fish can actually increase pressure to catch wild fish. Feed for many farmed species contains high percentages of fish meal and fish oil that come from wild-caught fish.1° To feed their livestock, the fish farming industry is creating pressure to remove key food sources on which economically and environmentally important wild species depend.’1 • Socioeconomic Impacts: Farmed fish compete with wild fish in the marketplace.t2 While price competition may be good for consumers, it can result in negative impacts on communities dependent on wild fish, including industry consolidation, overproduction arid elevated fishing pressure on wild fish stocks as fishermen try to catch more to make up for lower prices at market.

Impact XT

Biodiversity decline causes extinction

Mmom 8 (Dr. Prince Chinedu, University of Port Harcourt (Nigeria), “Rapid Decline in Biodiversity: A Threat to Survival of Humankind”, Earthwork Times, 12-8, http://www.environmental-expert.com/resultEachArticle.aspx?ci d=0&codi=51543)

From the foregoing, it becomes obvious that the survival of Humankind depends on the continuous existence and conservation of biodiversity. In other words, a threat to biodiversity is a serious threat to the survival of Human Race. To this end, biological diversity must be treated more seriously as a global resource, to be indexed, used, and above all, preserved. Three circumstances conspire to give this matter an unprecedented urgency. First, exploding human populations are degrading the environment at an accelerating rate, especially in tropical countries. Second, science is discovering new uses for biological diversity in ways that can relieve both human suffering and environmental destruction. Third, much of the diversity is being irreversibly lost through extinction caused by the destruction of natural habitats due to development pressure and oil spillage, especially in the Niger Delta. In fact, Loss of biodiversity is significant in several respects. First, breaking of critical links in the biological chain can disrupt the functioning of an entire ecosystem and its biogeochemical cycles. This disruption may have significant effects on larger scale processes. Second, loss of species can have impacts on the organism pool from which medicines and pharmaceuticals can be derived. Third, loss of species can result in loss of genetic material, which is needed to replenish the genetic diversity of domesticated plants that are the basis of world agriculture (Convention on Biological Diversity). Overall, we are locked into a race. We must hurry to acquire the knowledge on which a wise policy of conservation and development can be based for centuries to come.

Biodiversity is a key backstop – loss causes extinction

ScienceDaily – 8/11/11, “Biodiversity Key to Earth's Life-Support Functions in a Changing World,” http://www.sciencedaily.com/releases/2011/08/110811084513.htm

The biological diversity of organisms on Earth is not just something we enjoy when taking a walk through a blossoming meadow in spring; it is also the basis for countless products and services provided by nature, including food, building materials, and medicines as well as the self-purifying qualities of water and protection against erosion. These so-called ecosystem services are what makes Earth inhabitable for humans. They are based on ecological processes, such as photosynthesis, the production of biomass, or nutrient cycles. Since biodiversity is on the decline, both on a global and a local scale, researchers are asking the question as to what role the diversity of organisms plays in maintaining these ecological processes and thus in providing the ecosystem's vital products and services. In an international research group led by Prof. Dr. Michel Loreau from Canada, ecologists from ten different universities and research institutes, including Prof. Dr. Michael Scherer-Lorenzen from the University of Freiburg, compiled findings from numerous biodiversity experiments and reanalyzed them. These experiments simulated the loss of plant species and attempted to determine the consequences for the functioning of ecosystems, most of them coming to the conclusion that a higher level of biodiversity is accompanied by an increase in ecosystem processes. However, the findings were always only valid for a certain combination of environmental conditions present at the locations at which the experiments were conducted and for a limited range of ecosystem processes. In a study published in the current issue of the journal Nature, the research group investigated the extent to which the positive effects of diversity still apply under changing environmental conditions and when a multitude of processes are taken into account. They found that 84 percent of the 147 plant species included in the experiments promoted ecological processes in at least one case. The more years, locations, ecosystem processes, and scenarios of global change -- such as global warming or land use intensity -- the experiments took into account, the more plant species were necessary to guarantee the functioning of the ecosystems. Moreover, other species were always necessary to keep the ecosystem processes running under the different combinations of influencing factors. These findings indicate that much more biodiversity is necessary to keep ecosystems functioning in a world that is changing ever faster. The protection of diversity is thus a crucial factor in maintaining Earth's life-support functions.

A2: Plan Regs Solve

Increased regs don’t solve alien species – poor enforcement

De Silva et al 2/2009, professors from the School of Life and Environmental Sciences at Deakin University

(De Silva, S.,S., Nguyen, T. T. T., Turchini, G. M., Amarasinghe, U. S., & Abery, N. W., , writing in Ambio, an environmental research studies journal, “Alien species in aquaculture and biodiversity: A paradox in food production” Proquest, accessed 5/27/14 JH)

An alien species is defined as one that has been translocated, accidentally or deliberately, beyond its natural distribution range. In the present study, the natural distribution of the species in question was determined with reference to the database "Fishbase" (24) and also checked against the Catalogue of Fishes of the California Academy of Sciences, also commonly referred to as the Eschmeyer Catalogue. It is known that the great bulk of global fish introductions/ translocations have been carried out for aquaculture purposes (25, 26), and such introductions are a common occurrence even now (27, 28). Regrettably, there appears to be very little adherence to codes of practices (29) in affecting translocations, even though most nations are signatories to such codes (30). Needless to say, fresh concerns on the issue of translocations are being addressed widely, such as, for example, the European Union Council Regulation of 1 1 June 2007 (31). Often when attention is paid to translocations it is restricted to intercontinental introductions rather than intracontinental and between watersheds introductions, which can have an equally negative impact, particularly on biodiversity. On the other hand, even in nations where legislation exists to prevent minimizing the spread of alien species, effective implementation of such laws can often be hampered by other factors (27). Over 250 aquatic species are cultured globally. Annual production of cultured aquatic species, however, exceeds 10 000 t only for about 115 animal species, of which 67 are finfish (32). Importantly, for 6 of the top ranked 22 freshwater finfish species (produced in excess of 100 000 t per year) or species groups cultured globally, 20% or more of the production occurred outside their natural range of distribution (Fig. 1). Although not clearly seen from Figure 1, it should be noted that, from a geographical viewpoint, the most widespread alien finfish species used in aquaculture is rainbow trout. The mean yearly cultured alien freshwater finfish production from 2000 to 2004 amounted to 3.6 million t, or 16% of the global finfish aquaculture production (32). It has been shown that in Asia, the epicenter of aquaculture production and development, in the last 5 y, alien finfish species accounted for 12.2% of total cultured finfish production, and the proportion was as much as 35% when PR China is not considered (Fig. 2) (19). Moreover, it is evident that the dependence on alien freshwater finfish in aquaculture has been steadily increasing over the years. Entire national aquaculture industries have been built upon alien species, particularly in nations that have taken up aquaculture in recent times, as in the case of the freshwater crayfish and salmonid culture in Ecuador and Chile, respectively (10, 11).

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