Biodiversity of Fishes Sharks & Rays Rainer Froese IFM-GEOMAR Kiel
There are Six Classes of Fishes ClassesCommon ancestor (million y) Orders (n) Families (n) Genera (n) Species (n, %) Myxini (hagfishes) Cephalaspidomorphi (lampreys) Holocephali (chimaeras) Elasmobranchii (sharks and rays) Sarcopterygii (lobe-finned fishes) Actinopterygii (ray-finned fishes) ,64028, Total ,84029, Source: FishBase 09/2006
Most Fishes are Small Frequency distribution of maximum lengths in 23,685 species of fishes. Median = 15.9 cm.
Most Sharks are Large Myxini with median 49 cm; Cephalaspidomorphi with median = 22 cm; Holocephali with median = 99 cm; Elasmobranchii with median = 78 cm; Sarcopterygii with median = 125 cm; and Actinopterygii with median = 16 cm. small medium large very large
Most Fishes are Low-level Predators Frequency distribution of trophic levels for 7,500 species of fishes: median = 3.4 herblow-level predatoromnivoremidtop predator
Most Sharks are Mid-level Predators Trophic level by Class for 7,500 species with available data: Myxini with median = 4.2; Cephalaspidomorphi with median = 4.2; Holocephali with median = 3.5; Elasmobranchii with median = 4.0; Sarcopterygii with median = 3.4; and Actinopterygii with median = 3.4.
How to Estimate Productivity ParameterHighMediumLowVery low r max (1/year)> – – 0.15< 0.05 t d (years)< > 14 Interest rate (%)> 6517 – < 5 K (1/year)> – – 0.2< 0.1 Fecundity (1/year)> 10, – – 100< 10 t m (years)< 12 – 45 – 10> 10 t max (years)1 – 34 – 1011 – 30> 30 Modified after Musick (1999 )
Most Fishes have High Productivity Observed (n = 2,621) and modeled (n = 24,649) productivities of fishes. Source: FishBase 11/2004; Froese 2005
Occupation of Size-Troph Space Source: FishBase 11/2004; Froese 2005
Occupation of Size-Productivity Space Source: FishBase 11/2004; Froese 2005
Occupation of Troph–Productivity Space Source: FishBase 11/2004; Froese 2005
Occupation of size–productivity– troph-space for 20,480 species of fishes. Full cell width is 1000 species. Source: FishBase 11/2004
Occupation of size–productivity– troph-space for 620 species of sharks and rays. Full cell width is 1000 species. Source: FishBase 11/2004
Occupation of size–productivity– troph-space for 620 species of sharks and rays. Full cell width is 145 species. Source: FishBase 11/2004
Competition among Low-level Predators Length group Product.MyxCephHoloElasmoSarcoActino Medium 42,752 Low Very low3151 LargeMedium645 Low Very low Very large Very low55
Competition between Mid-level Predators Length group Product.MyxCephHoloElasmoSarcoActino Medium Low Very low55 LargeMedium368 Low Very low59161 Very largeLow61 Very low72
Competition among Top-Predators Length group ProductivityMyxCephHoloElasmoSarcoActino Medium 98 Low4779 LargeMedium188 Low Very low45244 Very largeMedium4 Low97 Very low172
Salinity Tolerance 12,889 14,091
Climate Zones 3,194 4,023 16,840
Global Species Richness of Actinopterygii Source: Nov. 2008www.aquamaps.org
Global Species Richness of Elasmobranchii Source: Nov. 2008www.aquamaps.org
Relative Brain Size 519
Reproductive Guild
Summary Elasmobranchs are the second largest Class of recent fishes They use only 16 life-history strategies compared with 49 used by ray-finned fishes They are mostly large, marine, demersal, migratory, large-brained, long-living mid-level predators of low productivity Their niches are dominated by ray-finned fishes with typically higher productivity They survived because of superb hunting capabilities (electro-sensing, large brains) and low mortality Their large size and low productivity makes them highly vulnerable to exploitation
Exercises Explore one of these three species in FishBase: –Negaprion brevirostris Lemon shark –Rhincodon typus Whale shark –Heterodontus portusjacksoni Port Jackson shark Discuss size, tropic level, productivity, reproduction and distribution