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Advanced Life Science Pacing
Guide
2011-2012
Time
Frame
MP1
Topic
Scientific
Investigation
Levels of
organization and
their relationship
to life processes
The Microscope
Cell Theory
Cell Structure
Va. Standard of Learning (2010)
Core lab
See Advanced Middle School Progression Chart for SOL.1 details
Graphing Skills lab
LS.3 The student will investigate and understand that living
things show patterns of cellular organization. Key concepts
include
a) cells, tissues, organs, and systems; and
b) patterns of cellular organization and their relationship to life
processes in living things.
Experimental Design
lab using a living
organism
LS.2 The student will investigate and understand that all living
things are composed of cells. Key concepts include
a) cell structure and organelles;
b) similarities and differences between plant and animal cells;
c) development of cell theory
Microscope lab
Vocabulary
Repeated Trial
Mean
Triple Beam Balance
Electronic Balance
Thermometer
Metric Ruler
Graduated Cylinder
Dependent Variable
Independent Variable
Control
Constant
Hypothesis
Sources of Error
Cell
Cell Membrane
Cytoplasm
Nucleus
Cell Wall
Vacuole
Mitochondrion
Endoplasmic Reticulum
Chloroplast
Cell Theory
Life Processes:
Ingestion
Digestion
Removal of Waste
Stimulus/Response
Growth and repair
Gas exchange
Reproduction
MP2
Cell Processes:
Active and
Passive Transport
Mitosis
LS.3 The student will investigate and understand that living
things show patterns of cellular organization. Key concepts
include
b) patterns of cellular organization and their relationship to life
processes in living things.
LS.2 The student will investigate and understand that all living
things are composed of cells. Key concepts include
d) cell division.
Matter
Photosynthesis
and Respiration
6.4 The student will investigate and understand that all matter is
made up of atoms. Key concepts include
a)atoms consist of particles, including electrons, protons, and
neutrons;
b)atoms of a particular element are alike but are different from
atoms of other elements;
c)elements may be represented by chemical symbols;
d)two or more atoms interact to form new substances, which are
held together by electrical forces (bonds);
e)compounds may be represented by chemical formulas;
f)chemical equations can be used to model chemical changes; and
LS.5 The student will investigate and understand the basic
physical and chemical processes of photosynthesis and its
importance to plant and animal life. Key concepts include
a) energy transfer between sunlight and chlorophyll
b) transformation of water and carbon dioxide into sugar and
oxygen; and
c) photosynthesis as the foundation of virtually all food webs.
Mitosis activity
Photosynthesis/
Respiration lab
Cellular Transport
Osmosis
Diffusion
Cellular Transport
Cell Cycle
Interphase
Prophase
Metaphase
Anaphase
Telophase
Mitosis
Atom
Neutron
Proton
Electron
Element
Compound
Chemical Symbol
Chemical Formula
Chemical Bond
Chemical Equation
Photosynthesis
Respiration
Chlorophyll
Chemical Equation
CO2
H2O
C6H12O6
MP3
Genetics and
Heredity
Classification of
Living Things
LS.12 The student will investigate and understand that
organisms reproduce and transmit genetic information to
new generations. Key concepts include
a) the structure and role of DNA;
b) the function of genes and chromosomes;
c) genotypes and phenotypes;
d) characteristics that can and cannot be inherited;
e) genetic engineering and its applications; and
f) historical contributions and significance of discoveries related
to genetics.
LS.4 The student will investigate and understand how
organisms can be classified. Key concepts include
a) the distinguishing characteristics of domains of organisms;
b) the distinguishing characteristics of kingdoms of organisms;
c) the distinguishing characteristics of major animal phyla and
plant divisions; and
d) the characteristics that define a species.
Punnett Square
activity
Taxonomic Key
activity
Making a Biological
Diagram
DNA
Gene
Chromosome
Phenotype
Genotype
Punnett Square
Genetics
Mendel
Franklin
Watson
Crick
Dominant
Recessive
Genetic Engineering
(be sure to note new
classification terms)
Archaea
Bacteria
Eukarya:
Protista
Fungi
Plants
Animals
Phyla:
Cnidarians
Mollusks
Annelids
Arthropods
Echinoderms
Chordates
Important Plant Divisions:
Mosses
Ferns
Conifers
Flowering Plants
MP4
Energy flow
through an
ecosystem
Ecosystems and
Biomes
Responses of
organisms to their
environment
Changes in the
environment
LS.6 The student will investigate and understand that
organisms within an ecosystem are dependent on one
another and on nonliving components of the environment.
Key concepts include
a) the carbon, water, and nitrogen cycles;
b) interactions resulting in a flow of energy and matter
throughout the system;
c) complex relationships within terrestrial, freshwater, and
marine ecosystems; and
d) energy flow in food webs and energy pyramids.
LS.7 The student will investigate and understand that
interactions exist among members of a population. Key
concepts include
a) competition, cooperation, social hierarchy, territorial
imperative; and
b) influence of behavior on a population.
LS.8 The student will investigate and understand interactions
among populations in a biological community. Key concepts
include
a) the relationships among producers, consumers, and
decomposers in food webs;
b) the relationship between predators and prey;
c) competition and cooperation;
d) symbiotic relationships; and
e) niches.
LS.9 The student will investigate and understand how
organisms adapt to biotic and abiotic factors in an
ecosystem. Key concepts include
a) differences between ecosystems and biomes;
b) characteristics of land, marine, and freshwater ecosystems;
and
c) adaptations that enable organisms to survive within a
specific ecosystem.
Preditor/Prey lab
Adaptation lab
Food Web
Food Chain
Producer
First-order Consumer
Second-order Consumer
Third-order Consumer
Decomposer
Energy Pyramid
Carbon Cycle
Water Cycle
Nitrogen Cycle
Community
Population
Niche
Preditor
Prey
Competition
Cooperation
Social Hierarchy
Territorial Imperative
Symbiosis
Mutualisism
Commensalism
Parasitism
Biotic Factor
Abiotic Factor
Phototropism
Hibernation
Dormancy
Eutrophication
Biome
Ecosystem
Adaptation
Mutation
Natural selection
Extinction
Fossil
Evolution
LS.10 The student will investigate and understand that
ecosystems, communities, populations, and organisms are
dynamic, change over time, and respond to daily, seasonal,
and long-term changes in their environment. Key concepts
include
a) hototropism, hibernation, and dormancy;
b) factors that increase or decrease population size; and
a) eutrophication, climate changes, and catastrophic
disturbances.
Environmental
Issues
Mutation, Natural
Selection, and
Extinction
LS.11 The student will investigate and understand the
relationships between ecosystem dynamics and human
activity. Key concepts include
a) food production and harvest;
b) change in habitat size, quality, or structure;
c) change in species competition;
d) population disturbances and factors that threaten or
enhance species survival; and
e) environmental issues.
LS.13 The student will investigate and understand that
populations of organisms change over time. Key concepts
include
a) the relationships of mutation, adaptation, natural selection,
and extinction;
b) evidence of evolution of different species in the fossil record;
and
c) how environmental influences, as well as genetic variation,
can lead to diversity of organisms.
Water Quality lab