Title: Figure 13.x3 Human female karyotype shown by bright field G-banding of chromosomes
1Figure 13.x3 Human female karyotype shown by
bright field G-banding of chromosomes
2Figure 14.0 Painting of Mendel
3Figure 14.14 Pedigree analysis
4Figure 14.2 Mendel tracked heritable characters
for three generations
5Figure 14.4 Mendels law of segregation (Layer 2)
6Figure 14.6 A testcross
7Figure 14.7 Testing two hypotheses for
segregation in a dihybrid cross
8Figure 14.9 Incomplete dominance in snapdragon
color
9Figure 14.9x Incomplete dominance in carnations
10Figure 14.10 Multiple alleles for the ABO blood
groups
11Figure 14.12 A simplified model for polygenic
inheritance of skin color
12Figure 27.0 Bacteria on the point of a pin
13Figure 27.2 The three domains of life
14Figure 25.7 Hierarchical classification
15Figure 25.8 The connection between
classification and phylogeny
16Figure 25.12 Cladistics and taxonomy
17Figure 28.4 A model of the origin of eukaryotes
18Know how to use a dichotomous key
19Table 27.1 Major Nutritional Modes
20Figure 26.15 Whittakers five-kingdom system
21Figure 26.16 Our changing view of biological
diversity
22Characteristics of Each Kingdom
23Figure 18.1 Comparing the size of a virus, a
bacterium, and a eukaryotic cell
24Figure 18.2 Viral structure
25Figure 18.3 A simplified viral reproductive cycle
26Figure 18.5 The lysogenic and lytic reproductive
cycles of phage ?, a temperate phage
27Figure 22.12 Evolution of insecticide resistance
in insect populations
28Figure 22.7 Descent with modification
29Figure 22.9 A few of the color variations in a
population of Asian lady beetles
30Figure 22.14 Homologous structures anatomical
signs of descent with modification
31Table 22.1 Molecular Data and the Evolutionary
Relationships of Vertebrates
32Figure 22.15 Different geographic regions,
different mammalian brands
33Figure 23.4 Genetic drift
34Figure 23.5 The bottleneck effect an analogy
35Figure 23.12 Modes of selection
36Figure 24.6 Two modes of speciation
37Figure 24.8 Has speciation occurred during
geographic isolation?
38Figure 24.11 A model for adaptive radiation on
island chains
39Figure 53.10 Examples of terrestrial and marine
food chains
40Figure 53.11 An antarctic marine food web
41Figure 54.10 Energy partitioning within a link
of the food chain
42Figure 54.11 An idealized pyramid of net
production
43Figure 54.12 Pyramids of biomass (standing crop)
44Figure 54.13 A pyramid of numbers
45Figure 54.25 Biological magnification of DDT in
a food chain
46Figure 9.1 Energy flow and chemical recycling in
ecosystems
47Figure 9.6 An overview of cellular respiration
(Layer 3)
48Figure 10.2 Focusing in on the location of
photosynthesis in a plant
49Figure 10.3 Tracking atoms through photosynthesis
50Figure 10.4 An overview of photosynthesis
cooperation of the light reactions and the Calvin
cycle (Layer 3)
51Figure 10.20 A review of photosynthesis
52Figure 54.16 The water cycle
53Figure 54.17 The carbon cycle
54Figure 54.18 The nitrogen cycle
55Figure 54.19 The phosphorous cycle
56Table 53.1 Interspecific Interactions
57Figure 38.2 Review of an idealized flower
58Figure 35.19 Leaf anatomy