Skip to Main Content Area
Biology Curriculum
Browse Learning Outcomes
Daedalus Help:
Currently there is no help available for this page.
Tags to narrow search
(tags which would result in an empty result are excluded from display)
:
#environment
(1)
#experiment
(1)
#gene
(1)
#genetics
(4)
#heredity
(8)
#hybridization
(1)
#hypothesis testing
(1)
#natural selection
(2)
#population genetics
(1)
#predictions
(2)
#statistics
(1)
Selected tags:
#quantitative trait
Assign numeric values to qualitative traits (Lab).
[
BIOL 2040
]
Apply the breederâ€™s equation in its simplest format.
[
BIOL 2040
]
Explain the concept of heritability in terms of the genetic vs. environmental variance for a trait
[
BIOL 2040
]
Apply the breeders equation in its simple form to any set of observations (i.e. calculate any of the values if given the other values).
[
BIOL 3044
]
Comprehend the basic principles of population and quantitative genetics, and give examples of their application to real biological systems.
[
BIOL 2030
]
Describe the extension of the breeder's equation to multiple correlated characters.
[
BIOL 3044
]
Design experiments to quantify genetic variance and heritability.
[
BIOL 3044
]
Explain the principle of QTL (Quantitative Trait Locus) mapping and apply it to single locus analysis
[
BIOL 3044
]
Infer (calculate) genetic variance components for continuous traits from any of the major methods used to infer them (One way ANOVA, covariance among relatives, realized heritability)
[
BIOL 3044
]
Predict the mean and variance of a quantitative trait from allelic frequencies and effects.
[
BIOL 3044
]
Predict/interpret the outcome of a hybrid cross (inter or intraspecific) for the early generation hybrids (F1, F2, BC) in terms of additive, dominance and epistatic interactions.
[
BIOL 3044
]
Daedalus Menu
Browse
Courses
Learning Outcomes
User login
Username:
*
Password:
*
Create new account
Request new password