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Growth in Length and Weight Rainer Froese SS 2008.

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Presentation on theme: "Growth in Length and Weight Rainer Froese SS 2008."— Presentation transcript:

1 Growth in Length and Weight Rainer Froese SS 2008

2 Why is Growth Important? Determines increase in body mass Determines maturation and generation time Determines population increase Determines sustainable yield

3 Fish Grow Forever

4 von Bertalanffy Growth Von Bertalanffy’s (1934) Growth Function (VBGF) dW/dt = H * W 2/3 – B * W where W=weight, H ~ metabolism, B ~ catabolism Solving the differential equation results in W t = W inf (1 – e -K * t ) 3 L t = L inf (1 - e -K * t )

5 Using VBGF L t = L inf (1 – exp(-K * (t – t 0 ))) Where L t = length (cm) at age t (years) L inf = asymptotic length if t = infinite K = parameter indicating how fast L inf is approached (1/year) t 0 = hypothetical age at L = 0

6 Using VBGF W t = W inf (1 – exp(-K * (t – t 0 ))) b Where W t = weight (g) at age t (years) W inf = asymptotic weight if t = infinite b is the exponent of the length-weight relationship W = aL b K and t 0 same as with VBGF for length

7 Age at Length In species with indeterminate growth there is a unique relationship between age and length, and vice versa: t L = -LN(1 – L / L inf ) / K + t 0

8 Understanding K K describes the steepness of the growth curve, i.e., how fast L inf is reached: K <= 0.05 in large, long-lived fishes K > 1 in small, short-lived fishes

9 Understanding L inf L inf is similar to maximum size ( e.g. mean of three largest specimens ) reached in an unfished population L inf = L max / 0.95 = L max + 0.05L max

10 L inf as a Function of L max Froese, R. and C. Binohlan 2000. Empirical relationships to estimate asymptotic length, length at first maturity and length at maximum yield per recruit in fishes, with a simple method to evaluate length frequency data. J. Fish Biol. 56:758-773. log10L  = 0.044 + 0.9841 * log10(L max ) (n = 551, r 2 = 0.959)

11 Understanding t 0 Length at birth t=0 is larger than zero t 0 is used to correct for that and improve the fit of the curve by moving it to the left t 0 is thus the hypothetical age at L=0 if VBGF would apply to larvae t 0 does not change K or L inf Growth curves without t 0 give length at ‘relative’ age

12 Growth and Maturity VBGF in weight has an inflection point at 0.296 W inf ~ 2/3 L inf = L opt

13 Fish Grow Forever

14 Growth and Maturity VBGF in weight has an inflection point at 0.296 W inf ~ 2/3 L inf = L opt At L opt production of tissue and gonads is fastest Semelparous fish mature at L opt Iteroparous fish mature so that L opt is reached within the average duration of the reproductive phase, typically between 1/3 and ½ L inf

15 Length at Maturity vs Linf Relationship between length at first maturity and asymptotic length for all records representing 265 species of fish. Regression lines are for females (----) and males (  ). Froese, R. and C. Binohlan 2000. Empirical relationships to estimate asymptotic length, length at first maturity and length at maximum yield per recruit in fishes, with a simple method to evaluate length frequency data. J. Fish Biol. 56:758-773. Log10L m = 0.8979 * log10L inf -0.0782 r 2 = 0.888 n=467

16 Grow Fast, Die Young

17 Interrelationship between K and L inf K and L inf are inversely correlated -> FishBase, Micropterus salmoides, Growth, Auximetric graph K is NOT a growth-per-time indicator: Anchovy K >1.0 reach 20 cm in second year Cod K ~ 0.13 reaches 30 cm in second year Size reached in 1 or 2 years is better growth indicator

18 Growth within Species is similar(e.g. Cod)

19 Growth across Species

20 Maximum Size is a function of Lifespan

21 Maximum age as function of K The age corresponding to 95% L inf is a good predictor of maximum age t max t max = - LN(1-0.95) / K + t 0 ~ 3/K

22 Maximum age as function of K

23 VBGF Fits Many Species

24 Whale shark vs Fin whale The largest fish, the Whale shark (Rhincodon typus) needs about 9 years to reach maturity at about 5.5 m and 750 kg, and about 60 years to reach a maximum length of 14 m and 12 tons. The fin whale (Balaenoptera physalus) needs about 7 years to reach maturity at a size of about 20 m and about 36 tons, with a maximum size of about 25 m and 70 tons.

25 Whale shark vs Fin whale

26 White shark vs Killer whale The Great white shark females take about 12 years to reach maturity at 4.5-5 m and about 0.8 tons; they need 36 years to reach a maximum size of 7.2 m and 3.4 tons; Killer whales (Orcinus orca) reach maturity in 6-10 years at 5-6 m length and about 1.8 tons, with the typical size of about 7 m and 3.8 tons reached a few years later.

27 Great white shark vs Killer whale

28 What You Need to Know L t = L inf (1 - e -K * (t - to) ) L inf ranges from 1 cm to 20 m K ranges from 0.05 to 2.0 L inf and K are inversely related 3/K is a good predictor of maximum age

29 Thank You

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