diversity of life in the sea it would be virtually impossible to consider the breadth of organisms...
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Diversity of Life in the Sea
• It would be virtually impossible to consider the breadth of organisms in the sea without some sort of classification system
Diversity of Life in the Sea
• Fortunately, there is a unifying concept that helps make this bewildering diversity of life comprehensible: EVOLUTION!
• Evolution describes the genetic changes in a population over time
• Organisms are adapted to their environment; a good fit (but not perfect!)
Natural Selection and Adaptation
• Evolution is descent with modification• Evolution occurs because individual organisms
have genetic differences in their ability to find food, mates, avoid being eaten, in their metabolism and in countless other attributes
• The best adapted individuals – those most successful at meeting the challenges of the environment – produce more offspring (on average) than those not so well-adapted.
Natural Selection
• Natural selection is the process by which favorable, inherited traits become more numerous in successive generations of a population of reproducing organisms
• Over time, natural selection leads to species that are well adapted (highly evolved) to their environments
• Populations either adapt to environmental changes or become extinct
The Principles of Natural Selection
King Penguin Rookery © Momatiuk - Eastcott/Corbis
• Struggle for existence/Competition – More offspring are produced than can be supported
by resources
The Principles of Natural Selection• Variation
– Some individuals, due to heredity or mutation, possess characteristics which make them better
adapted to their environment
The Principles of Natural Selection• Inheritance of Traits
– Best-suited organisms will survive to produce more individuals that share same adaptation
Population with varied inherited traits1
Elimination of individuals with certain traits2
Reproduction of survivors3
Certain individuals with a distinct, inherited characteristic will be selected against, while others with a (different) distinct, inherited trait will survive
Classifying Living Things• The adaptation of various populations to
different environments has produced a fantastic variety of life forms
• In order to properly study these organisms, it is necessary to classify them
• Must first identify what a “species” is exactly
What defines a species?
• Biological species concept: – A species consists of a population whose
members have the potential to interbreed with one another in nature to produce viable, fertile offspring, but who cannot interbreed with other such groups
– Species are based on their ability to interbreed; not on physical similarities!
Biological Species Concept• All domesticated dogs are the same species
because they can interbreed; a subspecies of the gray wolf, Canis lupus
Taxonomy
• Taxonomy is the practice and science of classification
• Taxonomy uses taxonomic units, or taxon• A taxon is a taxonomic unit at any level; for
example, Mammalia is a taxon at the Class level
• Domain Kingdom Phylum Class Order Family Genus Species
Scientific names
• Organisms are typically identified by 2 names; the name of their genus and their species = scientific name
• No two organisms can have the same scientific name and this name is the same everywhere in the world!
• Written as Genus species
Orcinus orca
Taxonomy• Scientific names are descriptive• May describe unique characteristic, region
where species is found, etc.• Ex. Humpback whale Megaptera novaeangliae
= “long-winged New Englander”• Common names
can be deceiving!!!– “dolphin”– “bear”
Phylogenetics
• Many hierarchies are being re-examined based on the results of molecular analysis (DNA, RNA)
• Binomial taxonomy does not take into account evolutionary relationships
• Enter phylogeny and systematics…• Reconstructs evolutionary relationships by
grouping organisms by their relatedness
Phylogeny and Systematics• Systematics is the reconstruction and study of
evolutionary relationships• Phylogeny – an evolutionary tree; species
grouped by how long they’ve shared a common ancestor
• Evidence for determining these relationships must come from body structure*, reproduction, embryological and larval development, and molecular characteristics
*homologous structures