9780521861724htl 1..2

(Jacob Rumans) #1

Berrigan, D. & Charnov, E. L. (1994). Reaction
norms for age and size at maturity in
response to temperature: a puzzle for life
historians.Oikos, 70 , 474–478.
Berrigan, D. & Koella, J. C (1994). The evolution
of reaction norms: simple models for age
and size at maturity.Journal of Evolutionary
Biology, 7 , 549–566.
Blanckenhorn, W. U. (2000). The evolution of
body size: what keeps organisms small?
Quarterly Review of Biology, 75 , 385–407.
Bonsall, M. B., Jansen, V. A. A. & Hassell, M. P.
(2004). Life history trade-offs assemble
ecological guilds.Science, 306 , 111–114.
Brommer, J. E. (2000). The evolution of fitness in
life-history theory.Biological Reviews, 75 ,
377–404.
Brommer, J. E., Merila, J. & Kokko, H. (2002).
Reproductive timing and individual fitness.
Ecology Letters, 5 , 802–810.
Brommer, J. E., Gustafsson, L., Pietiainen, H. &
Merila, J. (2004). Single-generation
estimates of individual fitness as proxies
for long-term genetic contribution.
American Naturalist, 163 , 505–517.
Brooks, J. L. & Dodson, S. I. (1965). Predation,
body size and composition of plankton.
Science, 150 , 28–35.
Brown, J. H. & Sibly, R. M. (2006). Life-history
evolution under a production constraint.
Proceedings of the National Academy of Sciences of
the USA, 103 , 17595–17599.
Brown, J. H. & West, G. B. (ed.) (2000).Scaling in
Biology. Oxford: Oxford University Press.
Brown, J. H., Gillooly, J. F., Allen, A. P., Savage, V. M. &
West, G. B. (2004). Toward a metabolic
theory of ecology.Ecology, 85 , 1771–1789.
Bunker, A. J. & Hirst, A. G. (2004). Fecundity of
marine planktonic copepods: global
rates and patterns in relation to
chlorophyll a, temperature and body
weight.Marine Ecology Progress Series, 279 ,
161–181.
Caswell, H. (1989).Matrix Population Models.
Sunderland MA: Sinauer.


Charnov, E. R. (1993).Life History Invariants.
Oxford: Oxford University Press.
Conover, D. O. & Munch, S. B. (2002). Sustaining
fisheries yields over evolutionary time
scales.Science, 297 , 94–96.
Conover, D. O. & Schultz, E. T. (1995). Phenotypic
similarity and the evolutionary significance
of countergradient variation.Trends in
Ecology and Evolution, 10 , 248–252.
Daan, S. & Tinbergen, J. M. (1997). Adaptation of
life histories. InBehavioural Ecology: An
Evolutionary Approach, ed. J. R. Krebs and
N. B. Davies. Oxford: Blackwell Science,
pp. 311–333.
Day, T. & Rowe, L. (2002). Developmental
thresholds and the evolution of reaction
norms for age and size at life-history transi-
tions.American Naturalist, 159 , 338–350.
De Jong, G. (2005). Is invariance across animal
species just an illusion?Science, 309 ,
1193–1195.
Doughty, P. & Reznick, D. N. (2004). Patterns and
analysis of adaptive phenotypic plasticity.
InPhenotypic Plasticity, ed. T. J. DeWitt and
S. M. Scheiner. Oxford: Oxford University
Press, pp. 126–150.
Ernande, B., Dieckmann, U. & Heino, M. (2004).
Adaptive changes in harvested populations:
plasticity and evolution of age and size at
maturation.Proceedings of the Royal Society of
London,Series B, 271 , 415–423.
Gardmark, A., Dieckman, U. & Lundberg, P.
(2003). Life-history evolution in harvested
populations: the role of natural
predation.Evolutionary Ecology Research, 5 ,
239–257.
Gillooly, J. F., Charnov, E. L., West, G. B.,
Savage. V. M. & Brown, J. H. (2002). Effects of
size and temperature on development time.
Nature, 417 , 70–73.
Gillooly, J. F., Charnov, E. L., Brown, J. H., Savage,
V. M. & West, G. B. (2003). Reply.Nature,
424 , 270.
Glazier, D. S. (2005). Beyond the ‘3/4-power law’:
variation in the intra- and interspecific

LIFE HISTORIES AND BODY SIZE 51
Free download pdf