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hunter-gathererPerson
Comparing the effect of statistical distributions on the outcome of the “treadmill” model relating average skill level achieved through imitation to demogaphic factors is premature as the model incorporates an invalid assumption. The model incorrectly assumes that the imitation bias remains constant with increasing average skill level and is contradicted by data on hunter-gatherer and oceanic fishing groups showing that for these groups there is no relationship between the interacting population size and tool complexity
natural mortality rate can cause spurious time trends in fish stock abundances estimated by virtual ...
Catch-rate data are traditionally used to index abundance in fishery science. An objective of this r...
Errors in modeling fishery population dynamics often come in two forms, random and structured. Rando...
Comparing the effect of statistical distributions on the outcome of the “treadmill” model relating a...
A mathematical model purporting to demonstrate that the interaction population size of a group of so...
Good application of a mathematical model depends on conformity with empirical observations. Mathema...
It has long been a concern that performance measures of species distribution models react to attribu...
Archaeologists have long tried to understand why cultural complexity often changed in prehistory. Re...
Alex Mesoudi observes that the “treadmill” model for relating average skill level achieved through i...
Many decisions and assessments made by fisheries managers and researchers use estimates. The confide...
We consider stochastic differential equations to model the growth of a population ina randomly varyi...
A recent publication about balanced harvesting (Froese et al., ICES Journal of Marine Science; 73: 1...
A model is set up that yields the equation followed by world population (P), past and present: P = A...
It is known that many fisheries data sets contain several different sources of error. It is likely t...
Skill-biased technical change occupied empirical economists for much of the 1990s. The empirical lit...
natural mortality rate can cause spurious time trends in fish stock abundances estimated by virtual ...
Catch-rate data are traditionally used to index abundance in fishery science. An objective of this r...
Errors in modeling fishery population dynamics often come in two forms, random and structured. Rando...
Comparing the effect of statistical distributions on the outcome of the “treadmill” model relating a...
A mathematical model purporting to demonstrate that the interaction population size of a group of so...
Good application of a mathematical model depends on conformity with empirical observations. Mathema...
It has long been a concern that performance measures of species distribution models react to attribu...
Archaeologists have long tried to understand why cultural complexity often changed in prehistory. Re...
Alex Mesoudi observes that the “treadmill” model for relating average skill level achieved through i...
Many decisions and assessments made by fisheries managers and researchers use estimates. The confide...
We consider stochastic differential equations to model the growth of a population ina randomly varyi...
A recent publication about balanced harvesting (Froese et al., ICES Journal of Marine Science; 73: 1...
A model is set up that yields the equation followed by world population (P), past and present: P = A...
It is known that many fisheries data sets contain several different sources of error. It is likely t...
Skill-biased technical change occupied empirical economists for much of the 1990s. The empirical lit...
natural mortality rate can cause spurious time trends in fish stock abundances estimated by virtual ...
Catch-rate data are traditionally used to index abundance in fishery science. An objective of this r...
Errors in modeling fishery population dynamics often come in two forms, random and structured. Rando...
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