scholarly article | Q13442814 |
P50 | author | Tim Coulson | Q32291167 |
Dylan Z. Childs | Q56556743 | ||
Shripad Tuljapurkar | Q59752009 | ||
P2860 | cites work | Temporal autocorrelation and stochastic population growth | Q80227159 |
EPISTASIS AND THE EFFECT OF FOUNDER EVENTS ON THE ADDITIVE GENETIC VARIANCE | Q88198208 | ||
CAN ONE PREDICT THE EVOLUTION OF QUANTITATIVE CHARACTERS WITHOUT GENETICS? | Q88206053 | ||
THE MEASUREMENT OF SELECTION ON CORRELATED CHARACTERS. | Q22064599 | ||
Estimating heritabilities and genetic correlations: comparing the 'animal model' with parent-offspring regression using data from a natural population | Q27301829 | ||
Age, sex, density, winter weather, and population crashes in Soay sheep | Q30652796 | ||
A web resource for the UK's long-term individual-based time-series (LITS) data | Q31152788 | ||
Estimating the functional form for the density dependence from life history data. | Q31160923 | ||
Integral projection models for species with complex demography | Q33242179 | ||
The dynamics of phenotypic change and the shrinking sheep of St. Kilda | Q33477783 | ||
Genetic and statistical analyses of strong selection on polygenic traits: what, me normal? | Q33963933 | ||
The Relation between Fitness Components and Population Prediction in Drosophila. I: The Estimation of Fitness Components | Q33987296 | ||
Selection and Covariance | Q34233418 | ||
Estimating genetic parameters in natural populations using the "animal model" | Q35213997 | ||
The dynamics of a quantitative trait in an age-structured population living in a variable environment | Q35936852 | ||
Why evolutionary biologists should be demographers | Q36686226 | ||
Evolution of flowering decisions in a stochastic, density-dependent environment. | Q36802491 | ||
The many growth rates and elasticities of populations in random environments | Q39127281 | ||
Demographic Models for Subdivided Populations: The Renewal Equation Approach | Q52303974 | ||
Heritability: one word, three concepts. | Q52705231 | ||
Evolution of size-dependent flowering in a variable environment: construction and analysis of a stochastic integral projection model. | Q53640916 | ||
Evolution of complex flowering strategies: an age- and size-structured integral projection model. | Q53651062 | ||
Altered expression of hepatic cytochromes P-450 in mice deficient in one or more mdr1 genes. | Q54067076 | ||
THE MEASUREMENT OF SELECTION ON CORRELATED CHARACTERS | Q56429014 | ||
Age-dependent sexual selection in bighorn rams | Q57319204 | ||
Evolutionary consequences of indirect genetic effects | Q57943976 | ||
P433 | issue | 6 | |
P921 | main subject | demography | Q37732 |
demographics | Q2725376 | ||
population ecology | Q1049866 | ||
P304 | page(s) | 1226-1240 | |
P577 | publication date | 2010-08-12 | |
P1433 | published in | Journal of Animal Ecology | Q1709829 |
P1476 | title | Using evolutionary demography to link life history theory, quantitative genetics and population ecology | |
P478 | volume | 79 |
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