diving into the issue of overfishing

The Way We Fish

Hello everyone!

Previously, I wrote about the extent of overfishing in our seas. This led me to think: How are all these fishes being caught? Let’s look at some commercial fishing methods!

Fishing in Pokémon – my childhood game! Different rods catch different Pokémon, depending on their quality. (Source: Pokémon Wiki Fandom)

You probably know how the recreational angler fishes – with a fishing line and hook. It’s sort of like that in longline fishing too.

Illustration of longline fishing (Source: Marine Stewardship Council (MSC))

As the name implies, a long fishing line with baited hooks attached at regular intervals is left in the water, and fishing vessels wait till fishes are caught – hook, line and sinker! – before reeling it in. Unfortunately, non-targeted species can get hooked by accident, also termed as bycatch – creatures unintentionally caught by fishing gear in use. Longline fishing in pelagic waters (midwater section of the sea) are especially prone to high turtle bycatch, thus posing a threat to sea turtle populations, such as leatherbacks (Swimmer et al., 2017).

 

Fortunately, efforts have been taken to address this issue, such as replacing J hooks with circle hooks, which is effective in reducing turtle bycatch (WWF, 2011).

Circle hooks vs J Hooks: Turtles are less likely to swallow the wider circle hook. (Source: YouTube thumbnail)

For instance, in the Coral Triangle, this change has seen rates of turtle bycatch dropping by 80% (WWF, 2011)! That’s awesome news, but wait! The bigger picture is yet to be seen.

Digging deeper, I found that while benefiting turtles, circle hooks were actually more likely than J hooks to catch sharks (Gilman, 2016). Given their low reproduction rate and slow maturation, shark populations are particularly vulnerable to this threat (Ocean Portal, 2018). This goes to show that there’s no one-size-fits-all solution towards reducing (or dare I hope… towards eliminating?) bycatch – as it would be for all environmental issues – and nuances would have to be made for different fisheries.

 

Illustration of driftnet fishing (Source: MSC)

Moving on, nets are commonly employed in fishing, such as in seine fishing and trawling. But let’s look at driftnet fishing, in which huge nets are hung vertically underwater. With the nets being virtually undetectable, unsuspecting fish swim right into them and become hopelessly entangled. Driftnets are tremendously efficient in catching fish, given the low effort needed. Nevertheless, their non-selectivity leads to massive amounts of bycatch. The California Driftnet Fishery exemplifies the indiscriminate nature of driftnetting (Karpa, Steiner & Fugazzotto, 2015):

  • For every 8 animals caught, only 1 is its targeted species – swordfish.
  • Over the past ten years, close to 900 marine mammals were killed, including dolphins, whales and seals.
  • 99% of blue sharks caught over the past ten years were discarded.
The ugly BTS in the fish we eat is demonstrated by this harrowing photo – an unlucky soul ensnared in the death trap that is driftnets. (Source: SeaLegacy)

This is absolutely unacceptable, to me at least. For the sake of the marine ecosystem, such destructive fishing practices ought to be banned.

And indeed, in recognition of the detrimental effects of driftnetting, the UN banned the use of large driftnets (longer than 2.5km) in international waters in the early 1990s (L.A. Times, 1991). Over the years, more driftnetting regulations seem to be forming, such as the EU proposing in 2014 to forbid the usage of driftnets in their waters (EU, 2014), and since about a year ago, California has been set to prohibit commercial driftnetting (Green, 2018)! Surely that’s a step in the right direction, but really, I wonder how effective these regulations would be in improving the sustainability of our fishing practices? Stay tuned next week when I address this question!

Sea ya!

 

References:

EU. (2014, May 14). Fisheries: European Commission proposes full ban on driftnets. Retrieved fromhttps://europa.eu/rapid/press-release_IP-14-563_en.htm

Gilman, E. (2016, May 9). Accounting for Conflicts between Species Groups. Retrieved from https://iss-foundation.org/mitigating-problematic-bycatch-in-tuna-fisheries/

Green, M. (2018, August 31). California passes bill to ban controversial drift net fishing. Retrieved from https://thehill.com/policy/energy-environment/404553-california-passes-bill-to-ban-controversial-driftnet-fishing

L.A. Times. (1991, Dec 21). “U.N. Adopts Global Drift-Net Ban.” Los Angeles Times. https://www.latimes.com/archives/la-xpm-1991-12-21-mn-624-story.html.

Karpa, D., Steiner, T., & Fugazzotto, P. (2015).California Driftnet Fishery: The True Costs of a 20th Century Fishery in the 21st Century. Retrieved from https://seaturtles.org/wp-content/uploads/2016/01/Driftnet-Overview-Turtle-Island.pdf

Ocean Portal. (2018, December 20). Sharks. Retrieved from https://ocean.si.edu/ocean-life/sharks-rays/sharks

Swimmer, Y., Gutierrez, A., Bigelow, K., Barceló, C., Schroeder, B., Keene, K., Shattenkirk, K., & Foster, D. G. (2017). Sea Turtle Bycatch Mitigation in U.S. Longline Fisheries. Frontiers in Marine Science4. Retrieved from https://www.frontiersin.org/articles/10.3389/fmars.2017.00260/full

WWF. (2011, Jan).Towards the Adoption of Circle Hooks to Reduce Fisheries Bycatch in the Coral Triangle Region.

 

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