Arxiu d'etiquetes: longline fishing

Why are sea turtles threatened?

Last week, we saw with detail how is the life of a sea turtle. Did you miss it? So, click here to read it! This week, I am still talking about his amazing animals, but I am focusing on the dangers that are threatening them, both natural or anthropic, and which actions we can do to save them. 

NATURAL THREATS 

Sea turtles are threaten by natural and anthropic dangers. Natural threats include egg loss due to the inundation or erosion of the beach, predation at all life stages, extreme temperatures and disease.

Egg loss

High tides and storms can produce the egg loss for several reasons: the drowning of the eggs, the beach erosion or accretion or nests are washed away. Moreover, there are some animals that feed on sea turtle eggs.

seaturtleeggs
There are several reasons that explain the egg loss (Picture: PaddleAndPath).

Predation on turtles

Despite little turtles usually leave the nest at night, the risk of being eaten by a predator is not zero, since they are part of the diet of raccoons, birds, crabs, sharks and other fishes. Young and adult turtles are also feed by some animals, like sharks and other big fishes, but the impact is not as big as in the first stages. Read the post of the last week if you want to know how many turtles die of old age for each 10.000 eggs. The number will shock you!

Els crancs poden menjar-se les tortugues acabades de sortir de l'ou (Foto: Gnaraloo Turtle Conservation Program, Creative Commons).
Crabs eat the hatching turtles (Picture: Gnaraloo Turtle Conservation Program, Creative Commons).

Hypothermia

Below 8º to 10ºC, turtles become lethargic and buoyant until they float at the surface (this condition is known as cold-stunning). At temperatures below 5º to 6ºC death rate can be important.

Diseases

Parasitic infections are common in sea turtles. Up to 30% of the loggerhead sea turtles in the Atlantic ocean have trematodes that infect their cardiovascular system. These infections, at the same time, reduce their immunological defences and then may be infected by bacteria (like Salmonella or E. coli).  Dinoflagellate blooms are also a threat for them because of the poisonous content produce health problems.

ANTHROPIC THREATS

Four are the main anthropic threats for marine turtles: egg and turtle poaching, destruction of nesting beaches, pollution and fisheries by-catch. Here, we will see some more.

Poaching

Fortunately, poaching is not present all over the world, but it can be specially important in some countries. Turtles are hunted for their meat and cartilage or for their shells (used in jewellery and like a decoration). Egg collection is also present.

Tortugues marines comissades per la policia de les Filipines (Foto: Mongabay).
Sea turtles confiscated by Philippine Police (Picture: Mongabay).
Venta d'ous de tortuga marina (Foto: OceanCare).
Sale of sea turtle eggs (Picture: OceanCare).

Destruction of nesting beaches

The building of infrastructures to protect ocean front property produce that females cannot access to nesting beaches and, moreover, produce their erosion. Beach nourishment to fight against beach erosion also affect them because the new beach buries the nests, offshore dredging kills them, beaches may become too compacted for nesting and steep and sand can have different properties (what may reduce, for example, gas diffusion). Tourism also affect them.

Pollution and garbage

It is not completely known if the pollutants, such as fertilizers and pesticides, have a direct impact on sea turtles, but among indirect effects there are the habitat degradation, considering that excess nutrients increase harmful algal blooms.

Garbage is also a problem. Turtles with plastic in the stomach have been found because they confuse plastic bags with jellyfishes, what block intestines and produce their death. Not only are plastics ingested, but also do they become entangled in debris like nets, fishing line or other plastic items. This produces a growth deformation.

La ingesta de plàstics (Foto: Fethiyetimes).
The ingestion of plastic blocks their intestines and produce death (Picture: Fethiyetimes).

Fishing by-catch

Sea turtles are also threaten by fishing by-catch.

Drift fishing, although is forbidden in Spain, are still used and every year, each boat produce the death of a hundred animals.

The longline fishing has an important impact. In Spanish waters, every year, are captured between 15,000 and 20,000 individuals. Despite they return alive to the ocean, they have a hook in the mouth and produce post release death for the wounds. Here you can read a review of the methods to reduce by-catch on loggerhead sea turtle in longline fishing. 

La pesca de palangre captura entre 15.000 i 20.000 exemplars cada any en aigües espanyoles (Foto: Phys).
Longline fishing captures between 15,000 and 20,000 individuals in Spanish waters each year (Picture: Phys).

Mortality in trawling depends on trawl times: mortality increased from 0% with times less than 50 minutes to 70% after 90 minutes. This is explained by the breathing capacity of the animals.

Global change

Ocean acidification due to the continued release of carbon dioxide may have an important impact on sea turtle populations because the quality of the food will probably reduce.  The sea level rise will have a negative impact on sea turtles because endanger the existence of beaches. Moreover, the increase in the temperatures will affect the growth and the sex ratio, since sex depends on the temperature in reptiles: below 29ºC prevail males and above, females.

HOW CAN WE HELP THEM?

  • Avoid any activity or behaviour that can annoy sea turtles. In the case of feeling annoyed, you will observe that they try to leave the area, they do a fast diving and they do abrupt swimming movements.
  • Reduce the speed of the ship if you see any element that could be a sea turtle. In the case of being a turtle, avoid any manoeuvre that can endanger them.
  • Pick up fishing gear or garbage present in the water.
  • In the case of the animal being in danger, first, call the emergency phone of your country. In the case of Spain, call 112. However, there are some actions that you can do while vets arrive:
    • Turtle with a broken shell or open injuries: cover the injuries with a wet rag with iodine (never in the eyes, ears and nose).
    • Drowned turtle: maintain the animal for 5 minutes with the ventral part face up and with the body inclined (head downwards), moving its fins.
    • Turtle with plastics in the mouth: remove the plastic taking care and call the emergency number.
    • Dead turtle: don’t touch the animal and call emergencies.
    • Hooked turtle: don’t stretch the hook and cut the line with 30 cm.
  • Inform the proper authority of the location of possible nests. Some clues:
    • Tracks of turtles in the sand of the beach, with a shape of a V, with the nest in the vertex.
    • Depression in the sand, what indicates about the eclosion of eggs.
    • Observation of a turtle doing the lay.
    • Remainder of eggs or hatching animals.

REFERENCES 

  • Consejería de Medio Ambiente de la Junta de Andalucía (2014). Varamientos de Especies Marinas Amenazadas. Guías prácticas voluntariado ambiental.
  • Gray, J (1997). Marine biodiversity: patterns, threats and conservation needs. Biodiversity and Conservation 6, 153-175
  • Hamann, M et al. ‘Climate Change And Marine Turtles’. The Biology Of Sea Turtles. Volume III. Jeanette Wyneken, Kenneth J. Lohmann and John A. Musick. 1st ed. New York: CRC Press, 2013. 353-378. Print.
  • Harrould-Kolieb, E. & Savitz, J. (2009). Acidificación: ¿Cómo afecta el CO2 a los océanos? Oceana
  • Ministerio de Agricultura, Alimentación y Medio Ambiente. Guía de buenas prácticas en las Zonas Especiales de Conservación de ámbito marino de Canarias. España. http://www.magrama.gob.es/es/costas/temas/proteccion-medio-marino/201311_guia_bbpp_web_tcm7-229984.pdf
  • Oceana (2006). Las tortugas marinas en el Mediterráneo. Amenazas y soluciones para la supervivencia. 38 pp.
  • Otero, M., Garrabou, J., Vargas, M. 2013. Mediterranean Marine Protected Areas and climate change: A guide to regional monitoring and adaptation opportunities. Malaga, Spain: IUCN. 52 pages.
  • Shigenaka, G (2010). Oil and Sea Turtles. Biology, planning and response. NOAA
  • Smith, T & Smith R (2007). Ecología. Pearson Educación (6 ed.)
  • Velegrakis, A., Hasiotis, T., Monioudi, I., Manoutsoglou, E., Psarros, F., Andreadis, O. and Tziourrou, P., (2013). Evaluation of climate change impacts on the sea-turtle nesting beaches of the National Marine Park of Zakynthos Protected Area. Med-PAN North Project, Final report, 81 pp.

Difusió-anglès

How can we save marine turtles from longline fishing?

This week, in this article we discuss how can we save marine turtles from longline fishing, since many species of marine turtles are endangered due to accidental captures. 

INTRODUCTION

Loggerhead sea turtle (Caretta caretta) and leatherback sea turtle (Dermochelys coriacea) are the marine turtles most captured with superficial longline fishing (Gilman et al. 2006), but are also captured the other species (Polovina et al. 2003).  Despite accidental captures of this species are strange, the worldwide whole has an important effect (Lewison et al. 2004). Here, we are focusing in the measure to reduce these accidental captures in the loggerhead sea turtle for the huge available bibliography.

Caretta_Caretta_by_kailorLoggerhead sea turtle (Caretta caretta) (Picture from DeviantArt).

THE LONGLINE FISHING

Longline fishing is a type of fishing that consists on a main line from which puts up hooks with bait. It’s one of the most ancient fishing systems that are known. The main line can measure between some hundreds of meters to 50-60 km, with a distance between hooks from 1 meter to 50 m. Despite of being considered the most selection fishing, because depending on the bait and the hook size it is possible to catch one type of fish or another, it is not free from accidental captures, among which we can find sea birds and marine turtles.

longline-fishing-animationLongline fishing, despite of being very selection, captures marine turtles (Picture from Sea Turtle Conservancy).

HOW CAN WE SAVE MARINE TURTLES FROM LONGLINE FISHING?

Reduction of the fishing time

If fishers reduced the time in which the longline is in the water, it would be reduced the accidental captures of loggerhead sea turtle, but this doesn’t happen with leatherback sea turtle (Watson et al. 2005). The problem is that is not economically possible for the reduction in the goal species captures.

Change of the hook

Changes in the hooks are the most effective. Wider hooks reduce turtle’s captures and the proportion of the animals that swallows the hook without compromising the commercial viability the swordfish in the North Atlantic (Gilman et al. 2006), but these doesn’t happen in other fisheries. The shape determines the place where the hook gets hooked: while circular hooks gets hooked in the mandible or in the mouth, J hooks gets hooked internally. The change to a circular hook reduces the captures and the mortality after the freeing (post-release death) in the loggerhead sea turtle because they usually are captured with they bite the bait and this get hooked more externally and it is easier to free them (Gilman et al. 2006; Bolten & Bjorndal 2005; Watson et al. 2003). The change in the shape is effective in certain fisheries and areas, like for example in the swordfish (maintaining the captures (Piovano et al. 2009)) an the blue shark in Azores (Bolten & Bjorndal 2005). For this reason, circular hooks don’t reduce the captures of goal species and suppose a low-cost investment, but complicate their removal and they usually are more breakable than J hooks (Gilman et al. 2006). In conclusion, the use of circular hooks in the swordfish fishery in the Mediterranean and the Northwest Atlantic can suppose an easy and cheap technique to reduce marine turtle captures (Piovano et al. 2009; Watson et al. 2005; Gilman et al. 2006, 2007). The direct mortality produced for the hooks is reduced, so the 80% of the freed turtles are alive, but the post-release death depends on the position of the hook (Camiñas & Valeiras, 2001).

bas09_n02_ac_01Hook types. (A) Circular hook and (B) J hook(Picture from Cicmar).

Change of the bait 

Bait is another important factor. When the bait is fish, the captures of loggerhead turtles are reduced compared to the use of squid, and the captures of swordfish become bigger (Watson et al. 2005). The reason is that they feed on fish doing small bites and this prevent from being swallowed, while squid is more resistant and they swallow the bait completely (Watson et al. 2003, 2004). In the Mediterranean and Northwest Atlantic, using mackerel maintains the swordfish’s captures and reduces the captures of loggerhead sea turtles (Alessandro & Antonello 2010; Watson et al. 2005; Gilman et al. 2006, 2007), but reduces the captures of the Atlantic bluefin tuna (Rueda et al. 2006; Rueda & Sagaraminaga 2008). Using baits with different colours don’t seem to be a good measure because don’t prevent from capturing them (Swimmer et al. 2005; Watson et al. 2002).

Change of the depth of fishing and the distance to the coast 

Loggerhead sea turtles usually dive over the 40 m deep, maximum until 100 m (Polovina et al. 2003). For this reason, if the longline was placed under the depth of more abundance, the captures would be reduced (Rueda & Sagarminaga 2008). The problem is that the goal species captures would be reduced too depending on the fishery (Gilman et al. 2006) and, moreover, if they got hooked, they wouldn’t be able to breath in the surface and they would die. According to fishers, the hooks closer to the buoys capture more turtles because they are in swallower depths (Watson et al. 2002). So, these secondary lines should be longer. The turtle captures also depend on the distance to the coast (Báez et al. 2007), and the longline should be place further than 35 nautical miles and the captures of swordfish captures don’t be affected (Alessandro & Antonello 2010).

Elimination of light sticks 

Light sticks should be banned because increase their capture (Alessandro & Antonello 2010).

Change of the fishing areas 

Marine turtles gather in areas, so one capture increases a lot the probability of capturing more. For this reason, a good measure should be the communication between ships and the shift in the areas (100 km away) during a period of time (for example, one week) (Gilman et al. 2007). This would be very effective, but suppose an extra gas expense and the reduction of the time that fishers are fishing due to the journeys. Another measure could be the permanent or seasonal closure of areas, but this is economically infeasible.

Sea temperature monitoring

The capture rate of loggerhead sea turtles increases when the temperature is over 22ºC, while the capture of swordfish increases under 20ºC. For this reason, it should be better to fish in waters under 20ºC (Watson et al. 2005). However, in this case the fishing pressure on the swordfish should be controlled.

Fisher observers 

A good manage tool is the presence of observers on board a ship, like in the longline swordfish fleet in Hawaii (Gilman et al. 2007). Fisher observers record the number of fishing devices, the fishing days, the fishing position and the number of captured turtles (Álvarez de Quevedo et al. 2010).

JPE_TurtleA good manage tool is the presence of observers on board a ship (Picture from Journal of Applied Ecology).

HOW DO TURTLES HAVE TO BE FREED?

Turtles have to be freed using the right device to remove the hook and, in the case that it is not possible, the line has to be cut as closer to the hook as possible because this reduces the mortality because the line can affect the intestines (Casale et al. 2007).

Activists Free a TurtleTo free the turtles, the line has to be cut as closer to the hook as possible (Picture from Greenpeace).

CONCLUSION

The effectiveness and the commercial viability of the strategies to avoid the capture of loggerhead turtles depend on the fishery, the size of the animal, the goal species and other differences between fleets (Gilman et al. 2006, 2007). The combination of circular hooks and fish like a bait is very effective in reducing the captures of turtles without affecting the goal species. This changes, together with tools to remove the hooks and the lines, reduce the accidental captures and the post-release deaths.

REFERENCES

  • Alessandro L,  Antonello S (2010) An overview of loggerhead sea turtle (Caretta caretta) bycatch and technical mitigation measures in Mediterranean Sea. Rev. Fish Biol. Fisheries 20: 141-161
  • Álvarez de Quevedo I, Cardona L, De Haro A, Pubill E, Aguilar A (2010) Sources of bycatch of loggerhead sea turtles in the western Mediterranean other than drifting longlines. ICES Journal of Marine Science, 67: 000-000
  • Báez JC, Real R, García-Soto C, De la Serna JM, Macías D, Camiñas JA (2007) Loggerhead sea turtle bycatch depends on distance to the coast, independent of fishing effort: implications for conservation and fisheries management. Mar Ecol Prog Ser 338:249–256
  • Bolten A, Bjorndal K (2005) Experiment to evaluate gear modification on rates of sea turtle bycatch in the swordfish longline fishery in the Azores – Phase 4. Final Project Report submitted to the National Marine Fisheries Service. Archie Carr Center for Sea Turtle Research, University of Florida, Gainesville, Florida, USA.
  • Camiñas JA, Valeiras J (2001) Marine turtles, mammals and sea birds captured incidentally by the Spanish surface longline fisheries in the Mediterranean Sea. Rapp Comm Int Mer Medit 36:248
  • Casale P, Freggi D, Rocco M (2007) Mortality induced by drifting longline hooks and branchlines in loggerhead sea turtles, estimated through observation in captivity. Aquatic Conserv: Mar Freshw Ecosyst doi: 10.1002/acq. 894
  • Gilman E, Kobayashi D, Swenarton T, Brothers N, Dalzell P, Kinan-Kelly I (2007) Reducing sea turtle interactions in the Hawaii-based longline swordfish fishery. Biol Cons 139:19–28
  • Gilman E, Zollet E, Beverly S, Nakano H, Davis K, Shiode D, Dalzell P, Kinan I (2006) Reducing sea turtle bycatch in pelagic longline fisheries. Fish Fish 7:2–23
  • Lewison RL, Freeman SA, Crowder LB (2004) Quantifying the effects of fisheries on threatened species: the impact of pelagic longlines on loggerhead and leatherback sea turtles. Ecol Lett 7(3):221–231
  • Piovano S, Swimmer Y, Giacoma C (2009) Are circle hooks effective in reducing incidental captures of loggerhead sea turtles in a Mediterranean longline fishery? Aquatic conservation: marine and freshwater ecosystems. Published online in Wiley InterScience
  • Polovina JJ, Howell EA, Parker DM, Balazs GH (2003) Dive depth distribution of loggerhead (Caretta caretta) and olive ridley (Lepidochelys olivacea) turtles in the central North Pacific: Might deep longline sets catch fewer turtles? Fish Bull (Wash DC) 101:189–193
  • Rueda L, Sagarminaga R (2008) Reducing bycatch of loggerhead sea turtles in the southwest Mediterranean via collaborative research with fishermen. Poster presented to the 28th international sea turtle symposium Loreto, Baja California Sur, Mexico, 19–26 January 2008
  • Rueda L, Sagarminaga RJ, Báez JC, Camiñas JA, Eckert SA, Boggs C (2006) Testing mackerel bait as a possible bycatch mitigation measure for the Spanish Mediterranean swordfish longlining fleet. In: Frick M, Panagopoulou A, Rees A, Williams K (eds) Book of abstracts of the 26th annual symposium on sea turtle biology and conservation. Island of Crete, Greece, 3–8 April 2006
  • Swimmer Y, Arauz R, Higgins B, McNaughton L, McCracken M, Ballestero J, Brill R (2005) Food color and marine turtle feeding behaviour: Can blue bait reduce turtle bycatch in commercial fisheries? Mar Ecol Prog Ser 295: 273–278
  • Watson J, Foster D, Epperly S, Shah A (2002) Experiments in the Western Atlantic Northeast Distant Waters to Evaluate Sea Turtle Mitigation Measures in the Pelagic Longline Fishery. Report on Experiments Conducted in 2001. US National Marine Fisheries Service, Pascagoula, MS, USA
  • Watson JW, Epperly SP, Shah AK, Foster DG (2005) Fishing methods to reduce sea turtle mortality associated with pelagic longlines. Can J Fish Aquat Sci 62:965–981
  • Watson JW, Foster DG, Epperly S, Shah A (2004) Experiments in the western Atlantic Northeast Distant Waters to evaluate sea turtle mitigation measures in the pelagic longline fishery. Report on experiments conducted in 2001, pp 135
  • Watson JW, Hataway BD, Bergmann CE (2003) Effect of hook size on ingestion of hooks by loggerhead sea turtles. Report of NOAA National Maritime Fisheries Service, Pascagoula, MS, USA

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