BIO 001 focuses on systematics and ecology, covering taxonomy, nomenclature, and the classification of living organisms. It explores the importance of taxonomy in organizing biodiversity and understanding ecological relationships. Key concepts include biotic and abiotic components, ecosystems, and biological interactions. This resource is essential for students studying biology, particularly in preparation for exams or coursework in ecology and systematics.

Key Points

  • Explains the principles of taxonomy and its importance in biology
  • Covers the classification of organisms based on shared characteristics
  • Discusses the roles of producers, consumers, and decomposers in ecosystems
  • Includes key concepts of ecological interactions such as mutualism and parasitism
Divine Chigozie
16 pages
Language:English
Type:Lecture Notes
Divine Chigozie
16 pages
Language:English
Type:Lecture Notes
344
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BIO 001 (For JUPEB)
Note by Dr. N. H. Chiaka-Onyemeze
1.0 Systematics: Taxonomy and Nomenclature
1.1 Taxonomy
Variation is the rule of nature. The interesting part of life is its rich diversity, and yet the uniqueness
of its components. Several species of living things (more than one million species of animals and
half a million of plants) have already been described and many more (about three to ten million)
which are yet to be described. Dealing with this host of living organisms would be very impossible
except if they are classified. Systematic biology, therefore, aims to order this diversity of living
organisms and to develop the methods and principles to make the task possible.
Definition of Taxonomy:
1. Taxonomy is the theory and practice of identifying plants and animals. grouping
individuals into species, arranging these species into larger groups and giving those groups
names, thereby producing a classification
2. It is a field of science that encompasses description, identification, naming and
classification of biological organisms
3. It is the analysis of an organism’s characteristics for the purpose of classification
Taxonomy is generally considered as a branch of science which deals with the identification,
description, naming and classification of organisms based on shared characteristics
i. Identification in taxonomy is the recognition of the identity or essential character
of an organism. It is often done using prepared descriptions of the characteristics of
similar species.
ii. Description in taxonomy is the preparation of detailed account of a newly
discovered species; and this is done usually in form a scientific paper. It is the process
of deciding whether or not two organisms are same. The purpose of description is to
give a clear account/report of the new organism and explain how it differs from species
which have been described previously or are related. Description often contains
photographs or other illustration
iii. Classification in taxonomy on the other hand is the process of assigning or
placement of like or similar organisms to recognizable groups. The ability to classify
organisms is our natural gift; and this is very important to the survival of the organisms.
The act of classification needs not be scientific; it may be artificial. Characteristics of
the anatomy, cytology, genetics and even ecology can help in classification. The
success of classification and naming has been possible due to the great diversity in
forms and structures of the organisms; and to the discontinuous variation existing
between them.
iv. Nomenclature/ naming of organisms. This in taxonomy is concerned with the
giving of a correct name to a known (identified) organism or taxon according to the
international rules for scientific nomenclature. For plant nomenclature, it is the
International Botanical Congress that approves or names them; for animals, it is the
International Commission on Zoological Nomenclature that does it; for bacterial
nomenclature it is done by the International Congress of Microbiology
The common method of naming an organism or species is giving it two names: 1)
the first name is the generic/genus name. It refers to the genus that the organism belongs
and 2) the specific/species name. Only the combination of these two names gives the
organism a personality or uniqueness. This system of assigning each organism with
two names is known as Binomial Nomenclature or Binomials. It was made popular by
the Swedish naturalist by name Carolius Linneaus (1707-1778). In this Binomials, the
names of the authority (one who identified and described the organism) is attached at
the end of the name.
1.2 Basis (Reasons/Importance) of Taxonomy
a. Organisms must be classified for effective study of them to be possible
b. It helps for easy reference to the organisms and transmission of information about
them
c. It helps to distinguish and group together organisms with similar characteristics
d. It helps to distinguish those organisms that are capable of causing harm or diseases
to man and other organisms in the environment
e. Classification facilitates and enhances scientific repeatability because of the large
size and great diversity of organisms
1.3 Rules of Nomenclature/Systematics
Systematics is taxonomy (description, identification, nomenclature and classification) with
respect to the organism’s phylogeny (i.e. ancestral origin). Systematic classification gives idea
about the origin and evolution of organisms from a complex and more advanced types.
Rules in nomenclature/systematics include:
i. In the taxonomic system for classification, organisms are assigned into different groups
based on their characteristics; and these groups are ranked, ordered or hierarchical. These
groups include
a. Domain (Prokaryota and Eukaryota; domain is the most recent)
b. Kingdom
c. Division/Phylum (Division is for plant; Phylum for animal)
d. Class
e. Order
f. Family
g. Genus
h. Species
ii. Since the system is hierarchical or ranked, it means that organisms belonging to a particular
rank or hierarchy belong to the same ranks above but not necessarily same ranks below. For
instance, all animals belonging to the Class Reptilia also belong to the Phylum Chordata but
not all animals that belong to the Class Reptilia should belong to the Order Squamata. iii. The
names in the ranks from domain to genus are treated as proper nouns; that is, they are started
with a capital letter, whether such name starts a sentence or occurs at the middle of it. Some
examples are given below
a. Prokaryota, Eukaryota NOT prokaryota or eukaryota (Domain)
b. Chlorophyta, Chordata NOT chlorophyta or chordata (Division/Phylum)
c. Chlorophyceae NOT chlorophyceae (Class)
d. Desmidiales NOT desmidiales (Order)
e. Chlorococcaceae NOT chlorococcaceae (Family)
f. Euglena and NOT euglena (Genus)
However, when these group names are used as adjectives (e.g. reptilian) or anglicized (i.e.
written as an English, e.g. chlorophyte(s), chordate(s), squamate(s)), the rule of capitalizing would
not hold except if they start a sentence. Again, it is also important to note that these groups names
are already in their plural form; so, they should take plural verbs; so it is wrong to again add the
plural marker onto them. See examples below for clarification
Chlorophyta are the green algaeCORRECT
Chlorophyta is green algaeWRONG (using singular verb for plural noun
“Chlorophyta”)
Chlorophytas are the green algaeWRONG (putting ‘s’ on an already plural form
‘Chlorophyta’) BUT chlorophytes are…, chlorophyte isare both correct (English forms) iv. As
a rule of nomenclature/systematics the generic/genus and species ranks are special because these
two names are always written in italics (or underlined when written with hand); e.g. Homo sapiens
or Homo sapiens. Note that the species name started with small letter.
v. The generic names can be written or referred to alone in a sentence but not the
specific/species names; this is because the species names are commonly adjectives and so,
many other organisms that might not even relate can share common species name. For
examples terrestris, acidophila, aquatica, tropica, indica, nigre etc. Again, the genus names
can be abbreviated when written with the species names. E.g. M. indica signifying Mangifera
indica. However, it is more appropriate to have first written the name in full before
subsequently abbreviating it. It also makes no sense trying to abbreviate the genus name when
the species name is not written together with it.
Note that the rules for naming plant are completely independent with that for animals. That is,
names for higher taxa of plants (Division, Class, Order, Family) do not have the same endings
(suffix) as those for animals. Some name ending for plants and animals are written below
Hierarchy
Plant (suffix)
Animal (suffix)
Kingdom
Plantae
Animalia
Division/Phylum
-phyta
-
Class
-opsida (higher plants)
-phyceae (algae)
-
Order
-ales
-
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FAQs

what is BIO 001 notes on systematics and ecology about

BIO 001 notes on systematics and ecology cover the classification and organization of living organisms, focusing on taxonomy and ecological interactions.

  • Systematics: The study of the diversity of life and the relationships among living organisms.
  • Taxonomy: The practice of identifying, naming, and classifying organisms.
  • Ecology: The study of interactions between organisms and their environment.

what are the key concepts in BIO 001 notes on systematics and ecology

The key concepts in BIO 001 notes on systematics and ecology include taxonomy, ecological systems, and biological interactions.

  • Taxonomy: Involves identification, description, and classification of organisms.
  • Ecological Systems: Understanding ecosystems, including biotic and abiotic components.
  • Biological Interactions: Examines relationships such as mutualism, commensalism, and parasitism.

how does taxonomy work in BIO 001 notes on systematics and ecology

Taxonomy in BIO 001 notes on systematics and ecology works by categorizing organisms based on shared characteristics.

  • Identification: Recognizing and naming organisms.
  • Description: Detailed accounts of species, often published in scientific papers.
  • Classification: Grouping organisms into hierarchical categories like domain, kingdom, and species.

what is the importance of ecology in BIO 001 notes on systematics and ecology

Ecology is crucial in BIO 001 notes on systematics and ecology as it helps understand the interactions between organisms and their environments.

  • Energy Flow: Describes how energy moves through ecosystems.
  • Nutrient Cycling: Highlights the recycling of nutrients among biotic and abiotic components.
  • Diversity Patterns: Studies the variety of life forms and their ecological roles.

what are the main components of an ecosystem in BIO 001 notes on systematics and ecology

The main components of an ecosystem in BIO 001 notes on systematics and ecology include biotic and abiotic factors.

  • Biotic Components: Living organisms such as producers, consumers, and decomposers.
  • Abiotic Components: Non-living elements like sunlight, temperature, and soil.

how do organisms interact in BIO 001 notes on systematics and ecology

Organisms interact in BIO 001 notes on systematics and ecology through various relationships that affect their survival.

  • Mutualism: Both species benefit from the interaction.
  • Commensalism: One species benefits while the other is unaffected.
  • Parasitism: One species benefits at the expense of the other.

what is binomial nomenclature in BIO 001 notes on systematics and ecology

Binomial nomenclature in BIO 001 notes on systematics and ecology is the system of naming organisms using two names.

  • Genus Name: The first part of the name, indicating the genus.
  • Species Name: The second part, indicating the specific species.
  • Example: Homo sapiens for humans.

what are the ecological pyramids in BIO 001 notes on systematics and ecology

Ecological pyramids in BIO 001 notes on systematics and ecology illustrate the distribution of energy and biomass in ecosystems.

  • Number Pyramid: Shows the number of organisms at each trophic level.
  • Biomass Pyramid: Represents the total mass of organisms at each level.
  • Energy Pyramid: Depicts the flow of energy through the ecosystem.

what are the methods of studying populations in BIO 001 notes on systematics and ecology

Methods of studying populations in BIO 001 notes on systematics and ecology include quadrat sampling and capture-mark-recapture.

  • Quadrat Sampling: Involves counting organisms in a defined area.
  • Capture-Mark-Recapture: Used for estimating wildlife populations by marking individuals and recapturing them.

what are the biogeochemical cycles in BIO 001 notes on systematics and ecology

Biogeochemical cycles in BIO 001 notes on systematics and ecology refer to the movement of nutrients through ecosystems.

  • Carbon Cycle: Involves the flow of carbon among the atmosphere, land, and oceans.
  • Nitrogen Cycle: Describes how nitrogen is converted and reused in the environment.
  • Water Cycle: Illustrates the continuous movement of water within the Earth and atmosphere.