Introduction to Biology Lesson 1 PDF

Summary

This document is a lesson on Introduction to Biology, covering basic concepts like the characteristics of life, the definition of biology, and some biological processes. It also explores the classification of living things, including the different kingdoms and how organisms are organized and named. It includes multiple-choice questions to help assess understanding.

Full Transcript

The science that studies life.
 All living things contain cells
All living things contain DNA
All living things obtain and use energy
All living things reproduce
All living things respond to stimuli
All living things maintain an internal balance
All living things grow and develop
 a. All living things contain cells
b. All living things contain DNA
c. All living things obtain and use energy
d. All living things reproduce

A
_______1. The basic unit of life is cell.
e. All living things respond to stimuli
f. All living things maintain an internal balance
g. All living things grow and develop
D
_______2. Hydra produce their offspring through budding.

E
_______3. A dog is salivating at the smell of food.
B
_______4. Identical twins have 99.9% similar genes.
F
_______5. When you are too warm, you sweat to release heat.

C
_______6. Green plants produced their food through photosynthesis.
Complex Molecular Hierarchical Organization
Organization
Molecular Level Cellular Level Tissue Level

Organ System
Organ Level Organism Level
Level
Population Level Community Level Ecosystem Level

Biosphere
 ORGANISMS POPULATIONS
ORGAN SYSTEMS

ORGANS
COMMUNITIES

TISSUES

CELLS ECOSYSTEMS

CELL ORGANELLES

MOLECULES
BIOSPHERE
ATOMS
EVOLUTION - the process of gradual change during which new species
arise from older species.

In the 18th century, a scientist named Carl Linnaeus first proposed organizing
the known species of organisms into a hierarchical taxonomy.
 Change in the heritable characteristics of biological populations
over successive generations. These characteristics are the
expressions of genes that are passed on from parent to offspring
during reproduction.

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 The central idea of biological evolution is that all life on
Earth shares a common ancestor.

Through the process of descent with modification, the common
ancestor of life on Earth gave rise to the fantastic diversity that we see
documented in the fossil record and around us today.

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1. Natural Selection - Individuals with the best adapted phenotypes will
survive and pass on their genes to the next generation

2. Mutation - A mutation in a parent’s DNA could result in offspring with
different alleles, changing the allele frequency of the population

3. Genetic Drift - Genetic drift occurs when the allele frequency of a population
changes by chance.

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4. Gene Flow (Migration) - Gene flow is any movement of genes from one
population to another

5. Non – Random Mating - If organisms can choose their mating partners,
then the more desirable alleles will have a higher frequency in future
populations

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1. Natural selection

2. Artificial selection

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TAXONOMY
the science of classification and it involves
the naming of organisms (nomenclature).

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SYSTEMATICS
the science of classification and
identifying evolutionary relationship among
phylogenies

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Binomial System of Nomenclature

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 According to this system, each organism is known my two names
– the genus name and the species name.
These names are all written in Latin.
The name of the genus always begins with a capital letter.
The species name begins with a small letter.
The scientific names are always italicized.
When handwritten, the genus name and species name have to
be underlined.

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A few examples of names of organisms written in
this system
Homo sapiens ( Human Beings)
Helianthus annuus ( Sunflower Plant)
Panthera tigris (Tiger)
Mangifera indica (Mango Plant)
Canis familiaris (Dog)

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DOMAIN
three domains of life, the Eukarya, the Archaea, and the Bacteria.

Eukarya
Archaea
Bacteria
are
contains organisms
single-celled
different group that
organisms
of single-
have cells
without
celled with that
nuclei
organismsnucleiwithout
live in
harsh
nucleienvironments
Examples:
Examples:
Examples:
fungi, plants, animals, protist gram (+/-) bacteria
proteobacteria, cyanobacteria,
extremophiles, thermoacidophiles, hyperthermophiles
KINGDOM
Carolus Linnaeus two kingdom of classification: Plantae, Animalia
Robert Whittaker five kingdom of classification: Plantae, Animalia, Monera,
Protista, Fungi
Complexity of
organisms

Mode of Organisms
nutrition KINGDOM lifestyle

Relationship
Kingdom Monera

Prokaryotic and unicellular organisms (bacteria)
Can be heterotrophic or autotrophic
They possess a cell wall, reproduce via binary fission and they form colonies
Divided into Archaebacteria and Eubacteria
Archaebacteria – inhabitants of extreme environments

Eubacteria – comprises of “true” bacteria, having simple cells with rigid walls
Kingdom Protista

Eukaryotic organisms which includes unicellular protozoans, and unicellular and
multicellular algae
Divided into animal protist, plant protist, and fungus like protist
Animal protist : rhizopods, ciliates, sporozoans, zooflagellates

Plant-like protist: dinoflagellates, diatoms
Fungus-like protist: slime molds, water molds
Kingdom Fungi

Eukaryotic, heterotrophic, spore-forming organisms that usually lacks flagella
Most are multicellular, parasitic and saprophytic
The figure are composed of long-thread like constructions
called hyphae
Categorized into groups: Club fungi
Conjugation fungi
Sac fungi
Imperfect fungi
Kingdom Plantae

Eukaryotic, multicellular, and autotrophic
Cell wall is made up of cellulose.
Exhibit alternation of sexual and asexual reproduction
Classified into two main groups:
Tracheophytes (vascular plants) Example: trees, clubmosses, grasses, ferns

Bryophytes (non-vascular plants)
Example: mosses, liverworts
Kingdom Animalia

Eukaryotic, heterotrophic, and multicellular organisms that produced from the
fertilization of gametes
Classification: Invertebrates (without notochord)
Vertebrates (with notochord)
 Porifera body have pores called ostia (entry) and oscular (exit). They
usually lived in saltwater or attached to the sea bottom

Cnidarians surround by tentacles that contains stinging cells

segmented worms with a tubular body and a specialized
Annelids digestive system with a terminal mouth and an anus

Platyhelminthes soft body flattened invertebrates

Mollusca soft body animals which often live in hard shells

Echinoderms radially symmetrical animals

have segmented bodies supported by hard external skeleton
Arthopods and jointed appendages
 Fishes breathe through their gills and live in water

Amphibians lives on water or land, do not have scales but skin
is permeable

Reptiles covered in scales and breathe with lungs, most lay eggs

Birds have feathers and wings

Mammals have hair on their bodies, produce milk and give birth
to their youngs
 Eukaryotic/ Unicellular/ Mode of Autotrophs/
KINGDOMS Major Groups
Prokaryotic Multicellular Reproduction Heterotrophs

Asexual Autotrophic Archaebacteria
Monera Prokaryotic Unicellular
Heterotrophic Eubacteria
Unicellular Animal-like
Eukaryotic Asexual Autotrophic
Protista Multicellular Plant-like
Heterotrophic
Fungus-like
Unicellular Basidiomycetes
Eukaryotic Asexual Heterotrophic
Fungi Multicellular Zygomycetes
Sexual
Ascomycetes

Asexual Tracheophytes
Plantae Multicellular Autotrophic
Eukaryotic Sexual Bryophytes

Asexual Vertebrates
Animalia Eukaryotic Multicellular Heterotrophic
Sexual Invertebrates