World Library  
Flag as Inappropriate
Email this Article

Blast fishing


Blast fishing

Underwater blast.

Blast fishing or dynamite fishing is the practice of using explosives to stun or kill schools of fish for easy collection. This often illegal practice can be extremely destructive to the surrounding [1] The frequently improvised nature of the explosives used also means danger for the fishermen as well, with accidents and injuries.


Fish floating immediately after the blast.

Although outlawed, the practice remains widespread in Southeast Asia, as well as in the Aegean Sea, and coastal Africa. In the Philippines, where the practice has been well-documented,[2] blast fishing was known prior to World War I, as this activity is mentioned by Ernst Jünger in his book Storm of Steel.[3] One 1999 report estimated that some 70,000 fishermen (12% of the Philippines' total fishermen) engaged in the practice.[4]

Extensive hard-to-patrol coastlines, the lure of lucrative, easy catches, and in some cases outright apathy or corruption on the part of local officials make enforcement of blast fishing bans an ongoing challenge for authorities.[5]

Explosives being prepared for blast fishing

Commercial [1]

Underwater shock waves produced by the explosion stun the fish and cause their [6][7]

Impact on coral reefs

Researchers believe that destructive fishing practices like blast fishing are one of the biggest threats to the coral reef ecosystems. Blown up coral reefs are no more than rubble fields. The long-term impact associated with blast fishing is that there is no natural recovery of the reefs. Coral reefs are less likely to recover from constant disturbance such as blast fishing than from small disturbance that does not change the physical environment. Blast fishing destroys the calcium carbonate coral skeletons and is one of the continual disruptions of coral reefs.[8] In the Indo-Pacific, the practice of blast fishing is a main cause of coral reef degradation. As a result, weakened rubble fields are formed and fish habitat is reduced.

The damaged coral reefs from blast fishing lead to instant declines in fish species wealth and quantity.[9] Explosives used in blast fishing not only kill fish but also destroy coral skeletons, creating unbalanced coral rubble. The elimination of the fish also eliminates the resilience of the coral reefs to climate change, further hindering their recovery. Single blasts cause reefs to recover over 5–10 years, while widespread blasting, as often practiced, transforms these biodiverse ecosystems into continuous unstable rubble.[10]


Community-based enforcement

In Tanzania, one of the few methods to help manage blast fishing is a joint approach between fisheries officers and village committees. Working together, they help the enforcement agencies recognize offenders by patrolling the sea as well as providing information collected in the local villages. As a result, this has assisted the enforcement agencies to reduce the occurrence of fish blasting from an average of 8 per day to zero. It has also provided sustainable funding to continue the efficient patrols, a certified planning institution, and suitable training and information to prosecutors and judges.

Similar patrols employed in Indonesia and Philippines have reduced the amount of blast fishing occurrences there. Based on dialogue with stakeholder groups in Southeast Asia and people of Tanzania and Philippines, it is evident that firmer enforcement is an effective strategy in managing blast fishing. Many countries have laws regarding blast fishing, but they are not fully implemented. Effective management of Marine Protected Areas (MPAs) is key in the patrolling of illegal fishing areas.[11]

Besides patrols, the restricting or even banning of the sale of ammonium nitrate also makes it much more difficult to produce the explosives that are needed for blast fishing.[12] Another approach is not to restrict or ban the sale of ammonium nitrate, but instead log the people buying large quantities thereof.[13]

Blast detection system

This method involves a triangulation system of hydrophones one meter apart that is capable of detecting blast events and at the same time eliminating other sources of underwater noise. The goal of the system is to improve and assist the effectiveness of fisheries patrol. Based on tests performed in Malaysia from 7 to 15 July 2002, a total of 13 blasts were recorded with a directional uncertainty of 0.2°. An electronic compass would limit the bearing uncertainty to 0.2° while correcting for the local magnetic effects of ferrous metals, therefore making sure the precision of the system is high.

Similar triangulation systems of hydrophones can potentially locate single blast events within 30 m at a range of 10 km. The detector system can be mounted on a patrol boat to help locate a probable range of blasts. Two or more patrol boats would permit accurate triangulation of blast events. Such a method is also beneficial to enforcement agencies, as it offers stronger evidence to support convictions related to blast fishing.[11]



Blast fishing in Indonesia has been around for over 50 years and continues to transform its one-of-a-kind coral reefs into desolate gray moonscapes, as fishermen continue to use explosives or cyanide to kill or stun their prey. Dive operators and conservationists say Indonesia is not doing enough to protect the waters off the Komodo Islands. They say enforcement declined following the exit of a U.S.-based conservation group that helped fight destructive fishing practices. Coral Gardens that were among Asia's most spectacular dive sites, were the latest victim of bomb blasting despite being located inside the Komodo National Park, a 500,000-acre reserve and U.N. World Heritage Site.[14] The use of bombs made with kerosene and fertilizer is very popular in the region. While previously Komodo was relatively protected by a cooperative undertaking with CI (Conservation International) since the Indonesian government has assumed responsibility for park protection, there has been an upsurge in bombing. During a recent visit to Crystal Boommie, it was found to be 60% destroyed, with freshly overturned coral tables proving recent bombing.[15] In the market in the city of Makassar, an estimated 10 to 40 percent of the fish are caught in this manner. The local fishermen find the technique to be easier and more productive than traditional methods. The goal for the country has been to implement stricter polices and fisheries management programs to limit the killing of the fish as well as the destruction to the marine ecosystem. Forty years ago, blast fishing was practiced with dynamite which was in plentiful supply after World War II. Today, fishermen mostly use homemade bombs that are made from bottles filled with an explosive mixture; weights are also added to make the bottle sink faster underwater. After the bomb explodes, the fish killed or stunned by the shock wave from the explosion are collected.[16]


A 1987 study concluded that blast fishing was then very widespread in the Philippines, estimating that 25% of all municipal fish landings (equivalent to 250,000 metric tons per year) were from blast fishing.[17] Most of the blast fishing is however done in the south, near Palawan and the south China Sea.[18] A study conducted in 2002 reported that destructive fishing methods had caused the degradation of about 70% of Philippine coral reefs and reduced annual fisheries production by about 177,500 metric tons in the 1990s.[19]

In 2010, mayor Nino Rey Boniel of Bien Unido town in the province of Bohol, Philippines, built an underwater grotto along the Danajon reef which deteriorated due to excessive dynamite and cyanide use. Through the help of Sea Knights and Boholano divers, two 14-foot statues of Mother Mary and Santo Nino (Spanish for Holy Child) were placed on 8 September and 18 October 2010 respectively, 60 feet below sea level in order to discourage fishermen from using illegal and destructive methods in fishing and hopefully remind everyone that the sea and its inhabitants are gifts from God that deserves to be treasured and taken care of.[20][21]

In 2012, the director of the Philippine Bureau of Fisheries and Aquatic Resources declared an “all-out war” against dynamite fishing and other illegal fishing practices.[22]


In northern Tanzania, blast fishing, which is illegal, has resurfaced in recent years as a key danger to its coral reefs. This has occurred even though major institutions like local communities and the district government have been put in place for enhanced fisheries management. The damage of blast fishing in the area has contributed to unstable coral reefs, discouragement of tourism investors, and a threat to the habitat of coelacanths in the region. Other impacts of blast fishing in the area include reports that citizens have died or lost limbs due to the blasting. The northern part of the country has many beautiful beaches and uninhabited islands. However, many investors feel and tourists are discouraged due to the fish blasting.[23]

In Tanzania, coral reefs are essential for both ecological and socio-economic reasons. They are full of fish, lobsters, prawns, crabs, octopuses, mollusks, and sea cucumbers. In addition, coral reefs are one of the major tourist attractions in Tanzania. The coastal tourism provides a living for the people as well as foreign currency for the country. However, there has been an increase in the people living along the coast which has led to a large demand for fisheries. It has led to overexploitation and destructive fishing practices. Blast fishing has been practised in Tanzania since the 1960s. It was during the 1980s and 1990s that blast fishing was at its peak in Tanzania. For example, in Mnazi bay, Mtwara, 441 blasts were recorded in two months in 1996, and 100 blasts were witnessed through one 6 hour period in Mpovi reef.[24]

See also


  1. ^ a b Coral degradation through destructive fishing practices
  2. ^ Blast Fishing
  3. ^ Jünger, Ernst (2004 ed) Storm of Steel Penguin Classics. Page 104. Translated by Michael Hofmann. ISBN 978-0-14-243790-2
  4. ^ A Closer Look at Blast Fishing in the Philippines
  5. ^ Destructive fishing mini symposium at the 9th International Coral Reef Symposium, Bali, Indonesia
  6. ^ Explosions In The Cretan Sea: The scourge of illegal fishing.
  7. ^ Lewis JA (1996) "Effects of underwater explosions on life in the sea" Australian Department of Defence, DSTO-GD-0080.
  8. ^ Fox, H. E., Pet, J. S., Dahuri, R., & Caldwell, R. L. (2003). Recovery in rubble fields: long-term impacts of blast fishing. Marine Pollution Bulletin, 46(8), 1024-1031. Retrieved October 25, 2009, from ScienceDirect.
  9. ^ Raymundo, L. J., Maypa, A. P., Gomez, E. D., & Cadiz, P. (2007). Can dynamite-blasted reefs recover? A novel, low-tech approach to stimulating natural recovery in fish and coral populations. Marine Pollution Bulletin, 54(7), 1009-1019. Retrieved October 25, 2009, from ScienceDirect.
  10. ^ Fox, H. E., & Caldwell, R. L. (2006). Recovery From Blast Fishing On Coral Reefs: A Tale of Two Scales. Ecological Applications, 16(5), 1631-1635. Retrieved October 25, 2009, from EBSCOhost.
  11. ^ a b Woodman, G. H., Wilson, S. C., Li, V. Y., & Renneberg, R. (2004). A direction-sensitive underwater blast detector and its application for managing blast fishing. Marine Pollution Bulletin, 49(11), 964-973. Retrieved October 25, 2009, from ScienceDirect.
  12. ^ Phillipines, Colombia and ireland banning sale of ammonium nitrate to reduce production of explosives
  13. ^ Tracking of buyers of ammonium nitrate
  14. ^ Jacob Herin (April 20, 2012). "Fishermen blast premier dive sites off Indonesia".  
  15. ^ Fishermen blast premier dive sites off Indonesia
  16. ^ Pet-Soede, L., & Erdmann, M. V. (1998). Blast Fishing in Southwest Sulawesi, Indonesia. Naga, The ICLARM Quarterly, 1-6. Retrieved October 25, 2009
  17. ^ James B. Marsh (1992). Resources & Environment in Asia's Marine Sector. Taylor & Francis. p. 153.  
  18. ^ Dynamite fishing mostly concentrated in the south
  19. ^ Mary Ann Palma; Martin Tsamenyi; William R. Edeson (2010). Promoting Sustainable Fisheries: The International Legal and Policy Framework to Combat Illegal, Unreported and Unregulated Fishing. BRILL. p. 10.  
  20. ^
  21. ^
  22. ^ "BFAR declares war vs dynamite fishing". Philippine Daily Inquirer. February 27, 2012. 
  23. ^ Wells, S. (2009). Dynamite fishing in northern Tanzania – pervasive, problematic and yet preventable. Marine Pollution Bulletin, 58(1), 20-23. Retrieved October 25, 2009, from ScienceDirect.
  24. ^ Wagner, G. M. (2004). Coral Reefs and Their Management in Tanzania. Western Indian Ocean, 3(2), 227-243. Retrieved October 25, 2009

Further reading

  • Bell J.D., Ratner B.D., Stobutzki I., Oliver J. Addressing the coral reef crisis in developing countries (2006) Ocean and Coastal Management, 49 (12), pp. 976–985.
  • Cornish, Andrew S, and McKellar, David, A History of Fishing with Explosives and poisons in Hong Kong Waters. NAGA, the ICALRM Quarterly. July–September, 1998. pp. 4–9.
  • Martin, G. (2002, May 30). The depths of destruction. Dynamite fishing ravages Philippines' precious coral reefs. (archived from the original on 2011-05-24)
  • Verheij E., Makoloweka S., Kalombo H. Collaborative coastal management improves coral reefs and fisheries in Tanga, Tanzania (2004) Ocean and Coastal Management, 47 (7-8 SPEC. ISS.), pp. 309–320.

External links

  • Coarse & Even Coarser Fishing
  • Sustainable Fishing
  • International Working Group Draft Report
  • Exploitive Fishing
  • Blast Fishing
  • Dynamite fishing and illegal fishing practices destroy ecosystem on YouTube

This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.

Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.