9780521861724htl 1..2

(Jacob Rumans) #1

Law, R. (2000). Fishing, selection, and
phenotypic evolution.ICES Journal of Marine
Science, 57 , 659–668.
Lessells, C. M. (1991). The evolution of life
histories. InBehavioural Ecology. An Evolutionary
Approach, 3rd edn, ed. J. R. Krebs and
N. B. Davies. Oxford: Blackwell Scientific
Publications, pp. 32–68.
Liang, D. & Uye, S. (1997). Population dynamics
and production of the planktonic copepods
in a eutrophic inlet of the Inland Sea of
Japan. IV.Pseudodiaptomus marinus, the egg-
carrying calanoid.Marine Biology, 128 ,
415–421.
Lorenzen, K. & Enberg, K. (2002). Density-
dependent growth as a key mechanism in
the regulation of fish populations: evidence
from among-species comparisons.
Proceedings of the Royal Society of London,
Series B, 269 , 49–54.
McArdle, B. H. (2003). Lines, models, and errors:
regression in the field.Limnology and
Oceanography, 48 , 1363–1366.
McGurk, M. D. (1986). Natural mortality of
marine pelagic fish eggs and larvae: role of
spatial patchiness.Marine Ecology Progress
Series, 34 , 227–242.
Metz, J. A. J., Nisbet, R. M. & Geritz, S. A. H. (1992).
How should we define fitness for general
ecological scenarios.Trends in Ecology and
Evolution, 7 , 198–202.
Moss, B. (1998).Ecology of Fresh Waters, 3rd edn.
Oxford: Blackwell Scientific.
Mylius, S. D. & Diekmann, O. (1995). On evolu-
tionarily stable life histories, optimization
and the need to be specific about density
dependence.Oikos, 74 , 214–224.
Nee, S., Colegrave, N., West, S. A. & Grafen, A.
(2005). The illusion of invariant quantities
in life histories.Science, 309 , 1236–1239.
Ohman, M. D. & Wood, S. N. (1996). Mortality
estimation for planktonic copepods:
Pseudocalanus newmaniin a temperate fjord.
Limnology and Oceanography, 41 , 126–135.


Olsen, E. M., Heino, M., Lilly, G. R.et al. (2004).
Maturation trends indicative of rapid
evolution preceded the collapse of
northern cod.Nature, 428 , 932–935.
Reznick, D. N. & Ghalambor, C. K. (2005). Can
commercial fishing cause evolution?
Answers from guppies (Poecilia reticulata).
Canadian Journal of Fisheries and Aquatic
Sciences, 62 , 791–801.
Roff, D. A. (1992).The Evolution of Life
Histories: Theory and Analysis. London:
Chapman & Hall.
Roff, D. A. (2002).Life History Evolution.
Sunderland, MA: Sinauer.
Sakwinska, O. (2002). Response to fish
kairomone inDaphnia galeatalife history
traits relies on shift to earlier instar.
Oecologia, 131 , 409–417.
Savage, V. M., Gillooly, J. F., Woodruff, W. H.et al.
(2004). The predominance of quarter-power
scaling in biology.Functional Ecology, 18 ,
257–282.
Sibly, R. M. & Atkinson, D. (1994). How rearing
temperature affects optimal adult size in
ectotherms.Functional Ecology, 8 , 486–493.
Sibly, R. M. & Calow, P. (1983). An integrated
approach to life-cycle evolution using
selective landscapes.Journal of Theoretical
Biology, 102 , 527–547.
Stearns, S. C. (1992).The Evolution of Life Histories.
Oxford: Oxford University Press.
Stearns, S. C. (2000). Life history evolution:
successes, limitations, and prospects.
Naturwissenschaften, 87 , 476–486.
Stearns, S. C. & Koella, J. (1986). The evolution of
phenotypic plasticity in life-history traits:
predictions for norms of reaction for age-
and size-at-maturity.Evolution, 40 , 893–913.
Stibor, H. & Lu ̈ ning, J. (1994). Predator induced
phenotypic variation in the pattern of
growth and reproduction inDaphnia hyalina.
Functional Ecology, 8 , 97–101.
Stibor, H. & Navarra, D. M. (2000). Constraints on
the plasticity ofDaphnia magnainfluenced

LIFE HISTORIES AND BODY SIZE 53
Free download pdf