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= Overfishing =
= Overfishing =
<span class="floatright" style="height:216;width:288;">https://lh6.googleusercontent.com/-oMXLS2MY_2g/T19WxhII1XI/AAAAAAAAE8E/w3Fh_3T5DDo/s288/fish_trap.jpg</span><br>
<span class="floatright" style="height:216;width:288;">https://lh6.googleusercontent.com/-oMXLS2MY_2g/T19WxhII1XI/AAAAAAAAE8E/w3Fh_3T5DDo/s288/fish_trap.jpg</span><br>
The use of exploitive and destructive fishing practices on coral reefs is a globally extensive problem with a long history. Indeed, species extinction due to overfishing dates earlier than that by all other factors, including [[pollution]], water quality degradation, and [[Threats#Human-induced_Threats_Tied_to_Climate_Change|climate change]]. <ref name="Jackson et al. 2001">Jackson, J.B.C., Kirby, M.X., Berger, W.H., Bjorndal, K.A., Botsford, L.W., Bourque, B.J., Bradbury, R.H., Cooke, R., Erlandson, J.,Estes, J.A., Hughes, T.P., Kidwell, S., Lange, C.B., Lenihan, H.S., Pandolfi, J.M., Peterson, C.H., Steneck, R.S., Tegner, M.J., and Warner, R.R. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293(5530): 629-638.</ref> Despite its reputation as an early, destructive anthropogenic influence on coral reefs, overfishing is still a growing problem. The global fishing effort has steadily increased since 1970<ref name="Antimcamara et al. 2011">Anticamara, J.A., Watson, B., Gelchu, A., and Pauly, D. 2011. Global fishing effort (1950–2010): Trends, gaps, and implications. Fisheries Research 107(1-3): 131-136.</ref> with no signs of abatement in the near future.
According the UN, over 70% of the world's fisheries are classified as over exploited. Overfishing is thought to be the single biggest threat to marine ecosystems according to Green Peace. The use of exploitative and destructive fishing practices on coral reefs is a globally extensive problem. Indeed, species extinction due to overfishing dates earlier than that by all other factors, including [[pollution]], water quality degradation, and [[Threats#Human-induced_Threats_Tied_to_Climate_Change|climate change]]. <ref name="Jackson et al. 2001">Jackson, J.B.C., Kirby, M.X., Berger, W.H., Bjorndal, K.A., Botsford, L.W., Bourque, B.J., Bradbury, R.H., Cooke, R., Erlandson, J.,Estes, J.A., Hughes, T.P., Kidwell, S., Lange, C.B., Lenihan, H.S., Pandolfi, J.M., Peterson, C.H., Steneck, R.S., Tegner, M.J., and Warner, R.R. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293(5530): 629-638.</ref> Despite its reputation as an early, destructive anthropogenic influence on coral reefs, overfishing is still a growing problem. The global fishing effort has steadily increased since 1970<ref name="Antimcamara et al. 2011">Anticamara, J.A., Watson, B., Gelchu, A., and Pauly, D. 2011. Global fishing effort (1950–2010): Trends, gaps, and implications. Fisheries Research 107(1-3): 131-136.</ref> with no signs of abatement in the near future. The largest factors behind the unsustainable rate of fishing include inadequate fishing regulation and a rapid increase in the efficiency of commercial fishing vessels.


== History ==
== History ==


A variety of evidence exists for determining historical fishing pressure on coral reefs. This evidence includes paleological sedimentary records, archeological records from human coastal settlements, written historical documents, and ecological records from scientific literature. In recent times, extensive scientific studies have been conducted to further define the correlation between human fishing practices and ecological issues worldwide. Through this lens, three periods of fishery exploitation can be identified: aboriginal or subsistence exploitation,  characterized by simple technologies and a limited geographic extent; colonial or systematic exploitation, characterized by merchantile powers utilizing distant resources; and more recently, geographically pervasive global exploitation. <ref name="Jackson et al. 2001" /> This most recent period is the one that has caused the sharpest decline in fisheries habitats, starting a domino effect in marine ecosystems on a global scale. This domino effect, in particular its causes, is what this article focuses on.
A variety of evidence exists for determining historical fishing pressure on coral reefs. This evidence includes paleological sedimentary records, archaeological records from human coastal settlements, written historical documents, and ecological records from scientific literature. In recent times, extensive scientific studies have been conducted to further define the correlation between human fishing practices and ecological issues worldwide. Through this lens, three periods of fishery exploitation can be identified. First,  aboriginal or subsistence exploitation,  characterized by simple technologies and a limited geographic extent. Second, colonial or systematic exploitation, characterized by mercantile powers utilizing distant resources.  The last and most recent period involves geographically pervasive global exploitation, <ref name="Jackson et al. 2001" /> which has caused the sharpest decline in fisheries habitats.
 
This incredible decline in fish populations in recent history has been driven in part by increased efficiency of commercial fishing equipment. Fishermen have become more and more skilled at killing more and more fish because their livelihoods have depended on it, but this dramatic uptick in innovative fishing practices has pushed the fishing rate past the point of unsustainable. The second factor worth mentioning is the inadequacy of fishing regulation and law enforcement. Fishing is inherently a difficult practice to regulate. It is difficult to keep tabs on fishing vessels and monitor exactly how much fish each vessel catches. With the current system in place for reporting catches, it is very easy for a fisherman to forge information about the number of fish caught in a given season.


== Causes ==
== Causes ==


The exploitation of coral reef fisheries is largely due to increased demand on the global market for reef fish.<ref>Cinner, J.E., and McClanahan, T.R. 2006. Socioeconomic factors that lead to overfishing in small-scale coral reef fisheries of Papua New Guinea. <i>Environmental Conservation</i> 33(1): 73-80.</ref>  The issue of overfishing is therefore difficult to mitigate as it is intertwined with global economic and population growth and increasing demand on a global scale.  With such a pervasive driver, a range of twenty to fifty years would be necessary to change the culture and trend of overfishing, even if strong efforts to stop the issue were to begin immediately. Alternate sources of income would need to be provided and incentivized in order to convince lifelong fishermen to change their habits.<ref name=nat>Overfishing.  National Geographic.  Web.  http://ocean.nationalgeographic.com/ocean/critical-issues-overfishing/</ref>  Even as fish populations are depleted and global catch declines, fishing pressure continues to increase. This decline in fish only serves to raise the price for the few that are so effectively sought out and caught. <ref>Bradbury, R. 2012. A World Without Coral Reefs. <i>The New York Times</i>. Web. <http://www.nytimes.com/2012/07/14/opinion/a-world-without-coral-reefs.html?_r=0>.</ref>  Based on catch data and estimates for increasing rates of fishing pressure, it is estimated that if overfishing continues without intervention, the world's fisheries will collapse by 2048.<ref name=nat>Overfishing.  National Geographic.  Web.  http://ocean.nationalgeographic.com/ocean/critical-issues-overfishing/</ref>
The exploitation of coral reef fisheries is largely due to increased demand on the global market for reef fish. Fish grow scarcer, prices for fish grow higher, fishermen grow more desperate and destitute. <ref>Cinner, J.E., and McClanahan, T.R. 2006. Economic and environmental issues are irrevocably intertwined in the fishing industry because of this cycle. <i>Environmental Conservation</i> 33(1): 73-80.</ref>  The issue of overfishing is therefore difficult to mitigate as it is intertwined with global economic and population growth and increasing demand on a global scale.  With such a pervasive driver as the economy, a range of twenty to fifty years would be necessary to change the culture and trend of overfishing, even if strong efforts to stop the issue were to begin immediately. Alternate sources of income would need to be provided and incentivized in order to convince lifelong fishermen to change their habits. Beyond the issue of income, however, is culture. For overfishing to cease to be the dire issue it currently is, entire cultures would need to be shifted. For some peoples, fishing is an integral part of the way of life. Attempting to get fishermen to change the technique and frequency of fishing is a long-term and difficult task. <ref name=nat>Overfishing.  National Geographic.  Web.  http://ocean.nationalgeographic.com/ocean/critical-issues-overfishing/</ref>  Even as fish populations are depleted and global catch declines, fishing pressure continues to increase. This decline in fish only serves to raise the price for the few that are so effectively sought out and caught. <ref>Bradbury, R. 2012. A World Without Coral Reefs. <i>The New York Times</i>. Web. <http://www.nytimes.com/2012/07/14/opinion/a-world-without-coral-reefs.html?_r=0>.</ref>  Based on catch data and estimates for increasing rates of fishing pressure, it is estimated that if overfishing continues without intervention, the world's fisheries will collapse by 2048.<ref name=nat>Overfishing.  National Geographic.  Web.  http://ocean.nationalgeographic.com/ocean/critical-issues-overfishing/</ref>
 
==Methods==


'''Methods'''
The recent use of technology in fishing practices has also accelerated the rate at which fish are removed from reefs.  Modern fishing instruments such as sonar and GPS make it much easier for fishermen to locate and catch huge schools of fish.  The use of huge, industrial fishing vessels, with the capacity to access a larger area and hold great amounts of fish on board, has also increased the rate at which fish are removed from the environment. Scientific research has also benefited fishermen in raising the effectiveness of fishing tactics. Knowledge of the breeding habits of certain species allows fishermen to catch a large amount of fish in a short period of time with little effort. Unfortunately, fishermen often catch fish before they have the chance to spawn and reproduce, which hurts both the species and the fishermen in the long term. <ref>Fishing Technology.  Saving the Oceans.  MIT.  Web.  http://web.mit.edu/12.000/www/m2011/finalwebsite/problem/present/tech.shtml</ref>  As overfishing continues to lower fish population sizes, there is an increasing need for more efficient technology and greater fishing pressure, which creates a cycle of destructive fishing that is difficult to stop.<ref name=pic>Human Impact on the Great Barrier Reef. <i>University of Michigan</i>. Web. <http://sitemaker.umich.edu/gc2sec7labgroup3/over-fishing>.</ref>  
The recent use of technology in fishing practices has also accelerated the rate at which fish are removed from reefs.  Modern fishing instruments such as sonar and GPS make it much easier for fishermen to locate and catch huge schools of fish.  The use of huge, industrial fishing vessels, with the capacity to access a larger area and hold great amounts of fish on board, has also increased the rate at which fish are removed from the environment. Scientific research has also benefited fishermen in raising the effectiveness of fishing tactics. Knowledge of the breeding habits of certain species allows fishermen to catch a large amount of fish in a short period of time with little effort. Unfortunately, fishermen often catch fish before they have the chance to spawn and reproduce, which hurts both the species and the fishermen in the long term. <ref>Fishing Technology.  Saving the Oceans.  MIT.  Web.  http://web.mit.edu/12.000/www/m2011/finalwebsite/problem/present/tech.shtml</ref>  As overfishing continues to lower fish population sizes, there is increasing need for more efficient technology and greater fishing pressure, which creates a cycle of destructive fishing that is difficult to stop.<ref name=pic>Human Impact on the Great Barrier Reef. <i>University of Michigan</i>. Web. <http://sitemaker.umich.edu/gc2sec7labgroup3/over-fishing>.</ref>
One of these destructive methods is blast fishing- the dropping of explosives into shallow marine habitats to indiscriminately shock and or kill fish for harvest. Though it is an effective way for fishermen to secure a large catch, it often results in a significant amount of by catch and destruction to the surrounding reef. Fishermen that have a more specific catch in mind employ a different tactic: cyanide fishing. This strategy takes advantage of divers with bottles of cyanide that can be squirted into areas identified as hiding spots for large fish, generally grouper. <ref>Valentine, J.F, and Heck, K.L. 2005. Perspective review of the impacts of overfishing on coral reef food web linkages. Coral Reefs 24(2): 209-213</ref> The poison shocks the fish, slowing their reflexes and allowing the fishermen to bring them to market while still alive.


  [[File:Screen_Shot_2013-04-17_at_1.54.01_PM.png|thumb|right|400x360px|Source: <ref name="pic" />]]
  [[File:Screen_Shot_2013-04-17_at_1.54.01_PM.png|thumb|right|400x360px|Source: <ref name="pic" />]]
It can also be difficult for both [[GovernmentalUnits|governments]] and [[NGOs]] to effectively manage and regulate reef fisheries, which in many places may allow for unsustainable fishing practices to occur on a large scale, resulting in overfishing of the reefs. The sheer size of marine habitats can also present a significant challenge to regulatory bodies. Countries facing the most devastating overfishing problems can often ill afford to hire and maintain a conservation body.<ref>Overfishing.  World Wildlife Fund.  Web.  http://worldwildlife.org/threats/overfishing</ref>


== Effects ==
== Effects ==
Line 35: Line 37:
== Recent Findings ==
== Recent Findings ==
* A quarter of the world’s sharks and rays are threatened with extinction according to The IUCN Red List of Threatened Species™, with ray species found to be at a higher risk than sharks. The findings are part of the first ever global analysis of these species carried out by the IUCN Shark Specialist Group (SSG).<ref name="IUCN">http://www.iucn.org/?uNewsID=14311</ref>
* A quarter of the world’s sharks and rays are threatened with extinction according to The IUCN Red List of Threatened Species™, with ray species found to be at a higher risk than sharks. The findings are part of the first ever global analysis of these species carried out by the IUCN Shark Specialist Group (SSG).<ref name="IUCN">http://www.iucn.org/?uNewsID=14311</ref>
* Armed patrols in fishing waters serve to reduce the amount of illegal fishing activity that occurs in those regions.
*It can also be difficult for both [[GovernmentalUnits|governments]] and [[NGOs]] to effectively manage and regulate reef fisheries, which in many places may allow for unsustainable fishing practices to occur on a large scale, resulting in overfishing of the reefs. The sheer size of marine habitats can also present a significant challenge to regulatory bodies. Countries facing the most devastating overfishing problems can not afford to hire and maintain a conservation body.<ref>Overfishing.  World Wildlife Fund.  Web.  http://worldwildlife.org/threats/overfishing</ref>
* A study performed in 2014 sought to find a proper estimate for the amount of fish caught annually in the Australia Indian Ocean Territories. This region usually ha no reported catches from fishermen. It was estimated that in the 1950s, 80 tons of fish per year were caught. In recent years, that number has risen to 250 tons per year. That is, needless to say, an incredible increase. <ref>Greer K, Harper S, Zeller D. 2014. Evidence for overfishing on pristine coral reefs: reconstructing coastal catches in the Australian Indian Ocean Territories. Journal of the Indian Ocean Region (**Edition**) [Internet]. [2014 Jun, cited 2015 Feb 22] 10(1):67-80. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=4&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=95755527</ref>
* A study published in 2013 sought to increase the accuracy of global fishing estimates. While this new method proves to be hopeful, there is still no completely accurate method to measure the scale of this issue. <ref>Teh L, Teh L, Sumaila U. 2013. A Global Estimate of the Number of Coral Reef Fishers. PLoS ONE (**Edition**) [Internet]. [2013 Jun, cited 2015 ] 8(6):1-10. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=12&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=88908473</ref>
* Overfishing is reducing the number of natural predators that consume algae, which has led to a 300 to 500 fold increase of algae in coral reef ecosystems in some cases. <ref>Jessen C, Roder C, Villa Lizcano J. 2013. In-Situ Effects of Simulated Overfishing and Eutrophication on Benthic Coral Reef Algae Growth, Succession, and Composition in the Central Red Sea. PLoS (**Edition**) [Internet]. [2013 Jun, cited 2015 Feb 23] 8(6):1-13. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=14&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=88909875</ref>


==2015 Group Outline==
== Additional Resources ==
 
First we would expand on the history section. It currently mentions the three periods, but doesn't go in depth about what they are or what they mean. We would expand on this and talk about the latter two to give context to the one we are currently in. The next thing we plan to do is split the causes section in two separate sections: causes and methods. The causes section will discuss the cultural reasons overfishing occurs, such as the overcapacity of fishing vessels and rising food demands that accompany population growth. The methods section will go further into detail about the techniques fishers use to overfish, such as blast fishing and the sonar systems already mentioned. We also plan to expand the recent findings sections, considering it's only 2 sentences. We'll discuss the the future outlook of coral reefs and implications of that on a global scale.
 
Sources
 
 
Greer K, Harper S, Zeller D. 2014. Evidence for overfishing on pristine coral reefs: reconstructing coastal catches in the Australian Indian Ocean Territories. Journal of the Indian Ocean Region (**Edition**) [Internet]. [2014 Jun, cited 2015 Feb 22] 10(1):67-80. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=4&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=95755527
 
Maynard J, Anthony K, Afatta S. 2010. Making a Model Meaningful to Coral Reef Managers in a Developing Nation: a Case Study of Overfishing and Rock Anchoring in Indonesia. Conservation Biology  (**Edition**) [Internet]. [2010 Oct, cited 2015 Feb 23] 24(5):1316-1326. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=5&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3Qt
 
 
Liu P, Shao K, Jan R. 2009. A trophic model of fringing coral reefs in Nanwan Bay, southern Taiwan suggests overfishing. Marine Environmental Research (**Edition**) [Internet]. [2009 Sep, cited 2015 Feb 22] 68(3):106-117. Available from: https://docs.google.com/document/d/1qbnybk6xiRVXPgXzLXAbSyn9lwd4FGPxPghdLqCtW-0/edit
 
Teh L, Teh L, Sumaila U. 2013. A Global Estimate of the Number of Coral Reef Fishers. PLoS ONE (**Edition**) [Internet]. [2013 Jun, cited 2015 ] 8(6):1-10. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=12&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=88908473
 
Jessen C, Roder C, Villa Lizcano J. 2013. In-Situ Effects of Simulated Overfishing and Eutrophication on Benthic Coral Reef Algae Growth, Succession, and Composition in the Central Red Sea. PLoS (**Edition**) [Internet]. [2013 Jun, cited 2015 Feb 23] 8(6):1-13. Available from: http://web.b.ebscohost.com/ehost/detail/detail?vid=14&sid=3ff90a1b-e093-427e-916a-2b3b35c74345%40sessionmgr115&hid=106&bdata=JnNpdGU9ZWhvc3QtbGl2ZSZzY29wZT1zaXRl#db=aph&AN=88909875
 
2014 Nov 11. Overfishing- emptying our seas [Internet]. Greenpeace [2014 Nov 11, cited 2015 Feb 24] . Available from: http://www.greenpeace.org.uk/oceans/problems/overfishing-emptying-our-seas


The Causes of overfishing [Internet].World Ocean Review; [cited 2015 Feb 24] . Available from: http://worldoceanreview.com/en/wor-1/fisheries/causes-of-overfishing/
[[Media:Overfishing.pdf]]
A handout describing the different methods used to overfish in St. John and the Caribbean


End of group sources
[[Media:OverfishingSong.pdf]] Lyrics to an original song by Klio Stroubakis about invasive species and overfishing. [https://youtu.be/dFaJE-FlLwE Watch the video here!!!]


== References ==
== References ==


  <references/>
  <references/>

Revision as of 13:32, 21 April 2016

Overfishing

fish_trap.jpg
According the UN, over 70% of the world's fisheries are classified as over exploited. Overfishing is thought to be the single biggest threat to marine ecosystems according to Green Peace. The use of exploitative and destructive fishing practices on coral reefs is a globally extensive problem. Indeed, species extinction due to overfishing dates earlier than that by all other factors, including pollution, water quality degradation, and climate change. [1] Despite its reputation as an early, destructive anthropogenic influence on coral reefs, overfishing is still a growing problem. The global fishing effort has steadily increased since 1970[2] with no signs of abatement in the near future. The largest factors behind the unsustainable rate of fishing include inadequate fishing regulation and a rapid increase in the efficiency of commercial fishing vessels.

History

A variety of evidence exists for determining historical fishing pressure on coral reefs. This evidence includes paleological sedimentary records, archaeological records from human coastal settlements, written historical documents, and ecological records from scientific literature. In recent times, extensive scientific studies have been conducted to further define the correlation between human fishing practices and ecological issues worldwide. Through this lens, three periods of fishery exploitation can be identified. First, aboriginal or subsistence exploitation, characterized by simple technologies and a limited geographic extent. Second, colonial or systematic exploitation, characterized by mercantile powers utilizing distant resources. The last and most recent period involves geographically pervasive global exploitation, [1] which has caused the sharpest decline in fisheries habitats.

This incredible decline in fish populations in recent history has been driven in part by increased efficiency of commercial fishing equipment. Fishermen have become more and more skilled at killing more and more fish because their livelihoods have depended on it, but this dramatic uptick in innovative fishing practices has pushed the fishing rate past the point of unsustainable. The second factor worth mentioning is the inadequacy of fishing regulation and law enforcement. Fishing is inherently a difficult practice to regulate. It is difficult to keep tabs on fishing vessels and monitor exactly how much fish each vessel catches. With the current system in place for reporting catches, it is very easy for a fisherman to forge information about the number of fish caught in a given season.

Causes

The exploitation of coral reef fisheries is largely due to increased demand on the global market for reef fish. Fish grow scarcer, prices for fish grow higher, fishermen grow more desperate and destitute. [3] The issue of overfishing is therefore difficult to mitigate as it is intertwined with global economic and population growth and increasing demand on a global scale. With such a pervasive driver as the economy, a range of twenty to fifty years would be necessary to change the culture and trend of overfishing, even if strong efforts to stop the issue were to begin immediately. Alternate sources of income would need to be provided and incentivized in order to convince lifelong fishermen to change their habits. Beyond the issue of income, however, is culture. For overfishing to cease to be the dire issue it currently is, entire cultures would need to be shifted. For some peoples, fishing is an integral part of the way of life. Attempting to get fishermen to change the technique and frequency of fishing is a long-term and difficult task. [4] Even as fish populations are depleted and global catch declines, fishing pressure continues to increase. This decline in fish only serves to raise the price for the few that are so effectively sought out and caught. [5] Based on catch data and estimates for increasing rates of fishing pressure, it is estimated that if overfishing continues without intervention, the world's fisheries will collapse by 2048.[4]

Methods

The recent use of technology in fishing practices has also accelerated the rate at which fish are removed from reefs. Modern fishing instruments such as sonar and GPS make it much easier for fishermen to locate and catch huge schools of fish. The use of huge, industrial fishing vessels, with the capacity to access a larger area and hold great amounts of fish on board, has also increased the rate at which fish are removed from the environment. Scientific research has also benefited fishermen in raising the effectiveness of fishing tactics. Knowledge of the breeding habits of certain species allows fishermen to catch a large amount of fish in a short period of time with little effort. Unfortunately, fishermen often catch fish before they have the chance to spawn and reproduce, which hurts both the species and the fishermen in the long term. [6] As overfishing continues to lower fish population sizes, there is an increasing need for more efficient technology and greater fishing pressure, which creates a cycle of destructive fishing that is difficult to stop.[7] One of these destructive methods is blast fishing- the dropping of explosives into shallow marine habitats to indiscriminately shock and or kill fish for harvest. Though it is an effective way for fishermen to secure a large catch, it often results in a significant amount of by catch and destruction to the surrounding reef. Fishermen that have a more specific catch in mind employ a different tactic: cyanide fishing. This strategy takes advantage of divers with bottles of cyanide that can be squirted into areas identified as hiding spots for large fish, generally grouper. [8] The poison shocks the fish, slowing their reflexes and allowing the fishermen to bring them to market while still alive.

Source: [7]

Effects

Overfishing of reef environments has significant impacts on ecosystem function. The removal of top predators leads to explosions in the populations of lower level consumers. These consumers then overgraze on corals and coralline algae and cause coral abundance to decrease. Eventually, as more slow growing corals are removed, fast-growing seaweeds and macro algae can overtake the environment, replacing coral [9] . However, a stable population of herbivorous fish is necessary for healthy ecosystem function and overfishing of herbivorous fish can also have profound ecosystem effects. Sufficiently dense populations of grazing fish and sea urchins are necessary because they abate non-coralline algae growth, which in can hinder coral growth when in excess.[9][10] A recent study published in Fish and Fisheries, focused on parrotfish, found that a divided management strategy could protect diversity in complex reef areas and increase overall numbers of fish. The study suggested that fishing for parrotfish should be prohibited on areas of the reef with massive and branching corals, where they play an important role of algae-grazer. Fishing could then be allowed on flat areas of the reef dominated by soft corals, where algal grazing is not as crucial. [11]

Heavy fishing and harmful fishing techniques also have the capacity to do great damage to reef structures. The use of explosives or chemicals as well as some netting and trapping techniques damage coral substrate. Dynamite fishing and cyanide fishing are predominantly used in reefs in Southeast Asia. It is estimated that 56% of reefs in Southeast Asia are at risk as a result of these destructive fishing practices.[12] The damage done to the coral substrate and the habitats of coral fish and creatures also continues to make them more vulnerable to stresses such as overfishing or destructive fishing.[1]

Source: [7]

Management

Generally, coral reefs exhibit an inverted biomass pyramid, made possible by the external recruitment of a number of larval fish species. In the past, management efforts have predominantly focused on bottom-up processes, including the importance of herbivorous fish populations on abating harmful algae growth. However, increased fishing pressure has altered trophic level interactions,[13] necessitating the additional consideration of top-down processes when developing management strategies and practices. Some even advocate for management practices that have goals other than maximizing predatory and herbivorous fish stocks, focusing instead on higher cover of settlement-inducing crustose coralline algae to maintain the ecological and structural integrity of reefs.[14] However, the most widely recommended policies are those that advocate for management with multiple goals on an ecosystem scale to predict and avoid possible cascading effects.[1][15] In contrast, small-scale management practices are often made difficult and ineffective by the large-scale connectivity inherent in coral reef ecosystems, necessitating an increase in the scale of management, and specifically a network of interdependent reserves to maintain biodiversity.[16]

For more, see the Fisheries Management page.

Recent Findings

  • A quarter of the world’s sharks and rays are threatened with extinction according to The IUCN Red List of Threatened Species™, with ray species found to be at a higher risk than sharks. The findings are part of the first ever global analysis of these species carried out by the IUCN Shark Specialist Group (SSG).[17]
  • Armed patrols in fishing waters serve to reduce the amount of illegal fishing activity that occurs in those regions.
  • It can also be difficult for both governments and NGOs to effectively manage and regulate reef fisheries, which in many places may allow for unsustainable fishing practices to occur on a large scale, resulting in overfishing of the reefs. The sheer size of marine habitats can also present a significant challenge to regulatory bodies. Countries facing the most devastating overfishing problems can not afford to hire and maintain a conservation body.[18]
  • A study performed in 2014 sought to find a proper estimate for the amount of fish caught annually in the Australia Indian Ocean Territories. This region usually ha no reported catches from fishermen. It was estimated that in the 1950s, 80 tons of fish per year were caught. In recent years, that number has risen to 250 tons per year. That is, needless to say, an incredible increase. [19]
  • A study published in 2013 sought to increase the accuracy of global fishing estimates. While this new method proves to be hopeful, there is still no completely accurate method to measure the scale of this issue. [20]
  • Overfishing is reducing the number of natural predators that consume algae, which has led to a 300 to 500 fold increase of algae in coral reef ecosystems in some cases. [21]

Additional Resources

Media:Overfishing.pdf A handout describing the different methods used to overfish in St. John and the Caribbean

Media:OverfishingSong.pdf Lyrics to an original song by Klio Stroubakis about invasive species and overfishing. Watch the video here!!!

References

  1. 1.0 1.1 1.2 1.3 Jackson, J.B.C., Kirby, M.X., Berger, W.H., Bjorndal, K.A., Botsford, L.W., Bourque, B.J., Bradbury, R.H., Cooke, R., Erlandson, J.,Estes, J.A., Hughes, T.P., Kidwell, S., Lange, C.B., Lenihan, H.S., Pandolfi, J.M., Peterson, C.H., Steneck, R.S., Tegner, M.J., and Warner, R.R. 2001. Historical overfishing and the recent collapse of coastal ecosystems. Science 293(5530): 629-638.
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