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Course MindMap (cross connections between chapters, found above), Ch. 22…
Course MindMap
cross connections between chapters, found above
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Ch. 16 Genetics
Monohybrid Crosses
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incomplete dominance
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neither
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example
red flowers
plus
white flowers
makes
pink flowers
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Replication of DNA
nuclear division
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DNA replicated
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DNA double helix
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free nucleotides
diffuse
ribonucleotides
polymerized
into short pieces
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Ch. 20 Nonvascular Plants: Mosses, Liverworts, and Hornworts
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Ch. 11 Energy Metabolism:Respiration relates to Ch. 3 cell structure. Respiration in plants is a complex process involving many reactions at the cellular level. Cell structure aids in the movement of the products of respiration.
Ch. 11 Energy Metabolism:Respiration relates to Ch. 10 Energy Metabolism:Photosynthesis. Both respiration and photosynthesis are examples of energy metabolism. These processes are vital for plants and other life forms.
Ch.10 Energy Metabolism:Photosynthesis relates to Ch.6 Leaves. Photosynthesis takes place in the leaves of plants.
Ch.3 Cell Structure relates to Ch.6 leaves and ch.7 Roots. The cell structure of cells in leaves and roots allow them to carry out their specialized functions of photosynthesis and nutrient transport/water absorption respectively.
Ch.3 cell structure relates to Ch.5 tissues. Tissues represent the next level of organization above cells. Multiple cells working together to form a plant tissue.
Ch.7 roots relates to Ch.12 transport processes. The primary purpose of roots is to gather nutrients, absorb water, and transport them for use in the plant. Roots play a major role in the transport process.
Ch.17 population genetics and evolution relates to ch.20 nonvascular plants, ch.21 vascular plants, and ch.22 seed plants. Genetics and evolution account for the great diversity of plant life. Vascular, nonvascular, and seed plants are a result of evolution.
Ch.16 genetics relates to ch.17 population genetics and evolution. Understanding genetics can help students understand evolution. Genetics plays a huge role in evolution. Population genetics is simply applying genetics to a population.
Ch.25 populations and ecosystems relates to ch.26 community ecology. These chapters relate because they cover different levels of ecological organization. Population, community, and ecosystems are different levels of organization.
Ch.8 structure of woody plants relates to ch.5 tissues. While primary tissues are made by an apical meristem, other meristems produce the secondary tissues in woody plants. Types of tissues like the vascular cambium, cork cambium, secondary phloem/xylem, and others help form woody plants.
