South African sardine

 

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Official Common Name: South African sardine 

Common names:pilchard, sardine monterrey (Spanish), sardine du Pacifique (French)

 

Sardines are small pelagic fish of the order Clupeiformes found in the upper layers (0 - 200m depth) of the ocean. Sardines are particularly abundant in upwelling regions because of high nutrient production that stimulates phytoplankton and zooplankton growth, which is the food source of these and other small pelagic fish. They are short–lived, fast growing and have high levels of natural mortality (large scale death) (Barange et al., 2009). Sardines occur in temperatures of 13-22°C around the South African coast, can live up to six or eight years (van der Lingen et al., 2006), and can reach close to 25 cm standard length which is measured from the tip of the head to just before the tail/caudal fin (van der Lingen et al., 2009; Hampton, 2014). Sardines are the main target of the country’s small pelagic fishery which has been in operation since the 1940s (Crawford et al., 1987). The term sardine was first used in English during the early 15th century and may come from the Mediterranean island of Sardinia, where sardines were once abundant.

 

How to recognise sardine

Pilchard by Yonela Geja

The body of a sardine is long and cylindrical with a series of 1-3 dark spots along the side. On the lower part of the gill cover there is a clear cut bony groove radiating downwards. The belly is rounded with specialized scales called scutes, and the back is a blue green colour. Sardines have one fin on the back called a dorsal fin, and a fin located underneath close to the anal pore (anal fin) usually with 12 to 29 rays (Nelson, 1994). Sardinops sagax was previously known as Sardinops ocellatus, Clupea ocellatus and Sardinops occelata (Beckley and van der Lingen, 1999).

Getting around

 

The cylindrical body form with fins of the sardine enables it to swim easily up and down the water column. Sardines are migratory species; they migrate to specialized grounds for spawning and migrate back to their usual grounds after spawning (van der Lingen et al. 2010). Spawning is the process of releasing gametes (sperm and/or egg) into the water column.

Communicating

 

Sardines are schooling fish found swimming together in large groups. They don’t have a certain mode of communication except that vibration in the water column can alert the other fish about what is happening during their schooling activity.

  

Distribution

 

Southern African distribution of Sardinops sagax extends from southern Angola (14°S and 10°E) off the west coast of South Africa, to north of Durban off the east coast of South Africa (Beckley and van der Lingen, 1999). Sardinops sagax is only found off the east coast during the ‘sardine run’, which is a migration where sardines leave the Agulhas Bank and move to the east coast in late May/early June every year (van der Lingen et al., 2010a; 2010b). Sardinops is found distributed in five upwelling regions globally; the Kuroshio-Oyashio current system off Japan, California current system, Humboldt Current system from the south of Peru to the north of Chile, European Bay of Cadiz to the North Sea and western Baltic Sea, and the Benguela current system off the west coast of Southern Africa (Checkley et al., 2009).

 

Habitat

 

Sardines inhabit temperate coastal and shelf waters around most of South Africa’s coasts.

Sardines usually occupy the sea water depth of up to 200m. Sardines undergo diurnal vertical migration which is a phenomenon where fish migrate to the surface water at dusk and move to the deeper ocean at dawn (Giannoulaki et al., 1999), driven by the presence of light.

 

Food

 

Sardines are planktivores that feed on both phytoplankton and zooplankton but derive most of their dietary input from small zooplankton such as copepods (van der Lingen, 2002). They filter-feed by swimming slowly with their mouths wide open and operculae flared and use their finely-meshed gill rakers to strain their food from the water.

 

SEX and LIFE CYCLES


Sex:

 

Spawning of the west and south coast S. sagax occurs in spring and late summer (Beckley and van der Lingen, 1999; van der Lingen and Hugget, 2003; Miller et al., 2006). Sardinops sagax in the west coast system spawn on the western Agulhas Bank and off the west coast, and recruit (larval settlement until juvenile stage) on west coast nursery grounds, while S. sagax in the Agulhas Bank system spawn on the central and eastern Agulhas Bank and recruit on south coast nursery grounds (Miller et al., 2006). Eggs and larvae are transported by currents from spawning areas to the nursery grounds (van der Lingen & Huggett, 2003; Coetzee et al., 2008). Juveniles then migrate from the nursery grounds to the south and/or west coast where they reach sexual maturity after two years. Female S. sagax spawn repeatedly and can release up to 27,500 eggs per spawning event (Beckley and van der Lingen, 1999; Hampton, 2014).

 

There is a possibility of a third S. sagax stock occurring off the east coast of KZN during the annual winter migration of S. sagax (van der Lingen et al., 2010a). Sardinops sagax eggs occur in winter during the sardine run off Park Rynie (70 km south of Durban) (Connell, 2010; Fréon, et al., 2010), but are not found there during the remainder of the year (Connell, 2010).

 

Family life:

Sardine by Yonela Geja

Sardines are found throughout the entire coast of Southern Africa. They tend to occur in large schools. There is evidence of three discrete sardine stocks in South Africa; western, southern and the eastern stock with different morphological characteristics.  The western and southern stocks are separated by Cape Agulhas; the western stock occurs from the west of Cape Agulhas, and the southern stock from the east of Cape Agulhas. The third stock occurs off the east coast of KZN during the annual winter migration of S. sagax (van der Lingen et al., 2010a).

 

THE BIG PICTURE

 Pilchard by Yonela Geja DAFF

Friends and Foes

 

Sardinops sagax are commercially harvested in upwelling and other regions around the globe and together with other small pelagic fish such as anchovy (Engraulis spp.) and round herring (Etrumeus spp.) account for around ¼ of the world’s marine fish catch (Barange et al., 2009; Checkley et al., 2009).  Sardines are the main prey of a variety of predators including other fish such as yellowtail, hakes, tuna, and sharks; marine mammals such as seals, dolphins and whales; and seabirds such as African penguin and Cape gannet (Beckley and van der Lingen, 1999).  

 

Smart Strategies

 

Sardines use diurnal migration as protection from predators. Sardines scatter as they migrate to the surface and concentrate to form shoals when they descend to the ocean depth. Also, sardines have a light colored abdomen and dark colored back which acts as camouflage from predators. When sardines are approached by predators, they gather together to form what is called a swarming. Swarming helps to confuse predators into thinking that the prey is bigger and they struggle with targeting one fish from the group. There are better chances of survival when sardines swim in groups than as individuals.

 

Poorer world without me

 

Pelagic fish form an important link in the marine food web where they transfer energy produced by plankton to large-bodied predatory fish, seabirds, and marine mammals (Barange et al., 2009).

 

People & I

 

Sardines form part of a big fishery and are important to the country for several reasons. The purse-seine fishery in which they are caught is South Africa’s largest fishery in terms of landed mass (the amount and the weight of fish caught) and second only to the hake fishery in terms of value (Barange et al., 2009).  This fishery employs a large workforce in fishing and related industries. Also, pelagic fish are an important and high-quality source of protein. They are used as food source for humans and pets, and as bait (Beckley and van der Lingen, 1999; van der Lingen, 2002).

 

 Conservation status and what the future holds

 

In South Africa, the fishery for S. sagax has been initially managed assuming a single stock using an operational management procedure (OMP) to set total allowable catch levels (TACs). Recently, there has been evidence for the occurrence of three sardine stocks (Coetzee et al., 2008; van der Lingen et al., 2015; Weston et al., 2015) which has management implications. The current fishing pressure and stock status of sardine is assessed as being optimal (DAFF, 2014); meaning that current rates of fishingare sustainable.

 

Sardines have been exploited by purse-seine fisheries in the Benguela system off Namibia and South Africa (Lluch-Belda et al., 1989) for several decades. Catches of S. sagax by the purse-seine fishery have fluctuated between 15 000 tonnes and 400 000 tonnes per annum with periods of high catches followed by rapid declines. In 2012 the S. sagax catch was about 98 000 tonnes which was the highest catch since 2007. There was a reduction of the total allowable catch (TAC) in 2013 to 90 000 tonnes which is the minimum allowed catch under the current operational management procedure (OMP) used to manage this resource (DAFF, 2014).

 

RELATIVES

 

Within the Clupeiformes, the suborder Clupeoidei consists of 397 species which are classified into five families (Lavoué et al., 2013), namely the Clupeidae with 55 genera and 205 species, the Engraulidae with 145 species from 17 genera, the Pristigateridae with nine genera and 38 species, the Sundasalangidae with one genus consisting of 7 species and the Chirocentridae with two species from one genus. The Clupeidae is divided further into four subfamilies, namely the Alosinae, Clupeinae, Ehiravine and Dorosomatinae. A temperate sub-family Alosinae is divided into four genera; Sardinops and Sardina are more closely related than are Alosa and Brevoortia. Sardinops sagax is one of 13 species in the family Clupeidae occurring in Southern African waters (Beckley and van der Lingen, 1999).

 

References and further reading

 

Barange, M., Bernal, M., Cergole, M.C., Cubillos, L.A., Daskalov, G.M., de Moor, C.L., DeOliveira, J.A.A., Dickey-Collas, M., Gaughan, D.J., Hill, K., Jacobson, L.D., Koster,F.W., Masse, J., Niqen, M., Nishida, H., Oozeki, Y., Palomera, I., Saccardo, S.A.,Santojanni, A., Serra, R., Somarakis, S., Stratoudakis, Y., Uriarte, A., van der Lin-gen, C.D., Yatsu, A. 2009. Current trends in the assessment and management ofstocks. In: Checkley, D.M., Alheit, J., Oozeki, Y., Roy, C. (Eds.), Climate Change and Small Pelagic Fish. Cambridge University Press, New York, pp191–255.

 

Beckley, L. & van der Lingen, C. 1999. Biology, fishery and management of sardines (Sardinops sagax) in Southern African waters. Marine and Freshwater Research, 50(8): 955-978.

 

Bowen, B.W. and Grant, W.S. 1997. Phylogeography of the sardines (Sardinops spp.): assessing biogeographic models and population histories in temperate upwelling zones. Evolution, 51(5): 1601-1610.

 

Checkley, D. M., Ayon, P., Baumgartner, T. R., Bernal, M., Coetzee, J. C., Emmett, R., Guevara-Carrasco, R., L. Hutchings, L., Ibaibarriaga, L., Nakati, H., Oozeki, Y., Planque, B., Schweigert, J., Stratoudakis, Y. and van der Lingen, C. D. 2009. Habitats. In: Climate Change and Small Pelagic Fish. Checkley, D. M., Roy, C., Alheit, J. and Oozeki, Y. (Eds). Cambridge University Press, Cambridge. 372pp.

 

Coetzee, J.C., van der Lingen, C., Hutchings, L. and Fairweather, T.P. 2008. Has the fishery contributed to a major shift in the distribution of South African sardine? ICES Journal of Marine Science 65(9): 1676-1688.

 

Connell, A.D. 2010. A 21-year ichthyoplankton collection confirms sardine spawning in KwaZulu-Natal waters. African Journal of Marine Science, 32(2): 331-336.

 

Crawford, R.J.M., Shannon, L.V. and Pollock, D.E., 1987. The Benguela ecosystem. Part IV. The major fish and invertebrate resources. Oceanography and  Marine  Biology: An annual Review Vol. 25: 353-505.

 

Department of Agriculture, Forestry and Fisheries. 2014. Status of stocks Report, available from http://www.nda.agric.za/doaDev/sideMenu/fisheries/03_areasofwork/pdf . 

 

Fréon, P., Coetzee, J.C., van der Lingen, C.D., Connell, A.D., O’Donoghue, S.H., Roberts, M.J., Demarcq, H., Attwood, C.G., Lamberth, S.J. and Hutchings, L. 2010. A review and tests of hypotheses about causes of the KwaZulu-Natal sardine run. African Journal of Marine Science, 32(2): 449-479.

 

Giannoulaki, M., Machias, A. and Tsimenides, N., 1999. Ambient luminance and vertical migration of the sardine Sardina pilchardus. Marine ecology progress series Vol.178: 29-38.

 

 Hampton, S. 2014. Multidisciplinary investigation into stock structure of small pelagic fishes in Southern Africa (Doctoral dissertation, University of Cape Town).

 Lavoué, S., Miya, M, Musikasinthorn, P., Chen, W. and Nishida, M. 2013. Mitogenomic evidence for an Indo-West Pacific Origin of the Clupeoidei (Teleostei: Clupeiformes). Plos One 8(2): 1-15.

 

Levy DA (1990) Sensory mechanism and selective advantage for diel vertical migration in juvenile sockeye salmon, Oncorhynchus nerka. Canadian Journal of Fisheries and Aquatic Sciences 47: 1796−1802.

 

Lluch-Belda, D., Crawford, R., Kawasaki, T., MacCall, A., Parrish, R., Schwartzlose, R. and Smith, P. 1989. World-wide fluctuations of sardine and anchovy stocks: the regime problem. South African Journal of Marine Science, 8(1): 195-205.

 

Miller, D.C.M., Moloney, C.L., van der Lingen, C.D., Lett, C., Mullon, C. and Field, J.G. 2006. Modelling the effects of physical–biological interactions and spatial variability in spawning and nursery areas on transport and retention of sardine Sardinops sagax eggs and larvae in the southern Benguela ecosystem. Journal of Marine Systems, 61(3–4): 212-229.

 

Nelson, J. S. 1994. Fishes of the World 3rd edition. New York: John Wiley & Sons.

 

van der Lingen, C.D. 2002. Diet of sardine Sardinops sagax in the southern Benguela upwelling ecosystem. South African Journal of Marine Science, 24: 301–316.

 

van der Lingen, C.D. and Huggett, J. 2003. The role of ichthyoplankton surveys in recruitment research and management of South African anchovy and sardine. The Big Fish Bang: Proceedings of the 26th Annual Larval Fish Conference. Bergen, Norway.

 

van der Lingen, C.D., Fréon, P., Fairweather, T.P. and van der Westhuizen, J.J. 2006. Density-dependent changes in reproductive parameters and condition of southern Benguela sardine Sardinops sagax. African Journal of Marine Science, 28: 625–636.

 

van der Lingen, C.D., Durholtz, M.D., Fairweather, T.P. and Melo, Y. 2009. Spatial variability in biological characteristics of southern Benguela sardine and the possible existence of two stocks. Unpublished report, MCM/2009/SWG-PEL/39. Cape Town: Marine and Coastal Management, Department of Environmental Affairs and Tourism.

 

van der Lingen, C.D., Coetzee, J.C. and Hutchings, L. 2010(a). Overview of the KwaZulu-Natal sardine run. African Journal of Marine Science, 32(2): 271-277.

 

van der Lingen, C.D., Hendricks, M., Durholtz, M.D., Wessels, G. and Mtengwane, C. 2010(b). Biological characteristics of sardine caught by the beach-seine fishery during the KwaZulu-Natal sardine run. African Journal of Marine Science, 32(2): 309-330.

 

Weston, L.F., Reed, C.C., Hendricks, M., Winker, H. and van der Lingen, C.D. 2015. Stock discrimination of South African sardine (Sardinops sagax) using a digenean parasite biological tag. Fisheries Research 164: 120-129.

 Your name: Nwabisa Malongweni

Organization /Cost Centre: SANBI Marine Programme

Date: 19 July 2016 

Contact details
Phone number: 073 965 9815

 Email:n.malongweni@sanbi.org.za

Official Common Name: South African sardine 


Scientific Name and Classification:

Kingdom: Animalia

Phylum: Chordata

Subphylum: Vertebrata

Class: Actinoptergyii

Order: Clupeiformes

Family: Clupeidae

Genus:  Sardinops

Species: S. sagax (Jenyns, 1842)

 

Derivation of scientific name

 

Common names: pilchard, sardine monterrey (Spanish), sardine du Pacifique (French) 

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