Fish Systematics: How does this stuff work??

Slides:



Advertisements
Similar presentations
Fish Systematics: How does this stuff work?? Study of fish diversity and the evolutionary relationships among populations, species and higher taxa Chapter.
Advertisements

Ch. 26 – Phylogeny and the Tree of Life
Reconstructing and Using Phylogenies
Fish Systematics: How does this stuff work?? Study of fish diversity and the evolutionary relationships among populations, species and higher taxa Chapter.
Systematics, Genetics and Speciation Fundamentals of Fish Biology September 10, 2008.
Population Change n Speciation is the outcome of isolation and divergence. Isolation is created by reductions in gene flow. Divergence is created when.
Species Concepts. Species in Theory and Practice Biologists have not been able to agree on exactly what a species is, or how species should be abstractly.
THE ORIGIN OF SPECIES. HOW DOES EVOLUTION LEAD TO THE FORMATION OF ALL THE DIFFERENT ORGANISMS, OR SPECIES, WE SEE ON THE PLANET? FIRST WE MUST DEFINE.
Chapter 24 ~ The Origin of Species
Chapter 18 Speciation. What is a Species? The morphological species concept expresses the following: – Species, in its simplest interpretation means “kind”
Chapter 24 Macroevolution and Speciation. Macroevolution Macroevolution refers to any evolutionary change at or above the species level. Speciation is.
Copyright © 2009 Pearson Education, Inc.  A species can be defined as a group of organisms whose members can breed and produce fertile offspring, but.
How classification works
Systematics Study of pattern and processes associated with biological diversity and diversification Taxonomy – study of classification (hierarchy, naming.
Copyright © 2009 Pearson Education, Inc. PowerPoint Lectures for Biology: Concepts & Connections, Sixth Edition Campbell, Reece, Taylor, Simon, and Dickey.
Chapter 14 The Origin of Species Lecture by Joan Sharp.
Speciation SJCHS. Evolution Microevolution: Change in a population ’ s gene pool from generation to generation Speciation: When one or more new species.
The Species in Conservation. Taxonomy- the science of classification.
CHAPTER 24 THE ORIGIN OF SPECIES 1.
Speciation Chapter 18.
Chapter 24. Microevolution: change in allele frequencies in a population over time Macroevolution: broad pattern of evolution above the species level.
Underlying Principles of Zoology Laws of physics and chemistry apply. Principles of genetics and evolution important. What is learned from one animal group.
Systematics and the Phylogenetic Revolution Chapter 23.
Chapter 14 Table of Contents
Speciation. (1) Geographic Mechanisms of Speciation (What circumstances lead to the formation of new species?) (2) Species Concepts ( How are Species.
Copyright © 2013 Pearson Education, Inc. All rights reserved. Exploring Biological Anthropology: The Essentials, 3 rd Edition CRAIG STANFORD JOHN S. ALLEN.
David Sadava H. Craig Heller Gordon H. Orians William K. Purves David M. Hillis Biologia.blu B – Le basi molecolari della vita e dell’evoluzione The Origin.
Darwin’s only figure in “The Origin of Species” (1859)
Phylogeny & the Tree of Life
Fish Taxonomy and Systematics Lecture 4: Cladograms & Speciation.
Classification and Phylogenetic Relationships
The most basic category of biological classification is species. There is no single,universally applicable species concept that can defain,identify,and.
Systematics and Phylogenetics Ch. 23.1, 23.2, 23.4, 23.5, and 23.7.
Chapter 24: Speciation Objectives -Importance of reproductive isolation in the biological species concept -Speciation can take place with or without geographic.
PHYOGENY & THE Tree of life Represent traits that are either derived or lost due to evolution.
Chapter 22 The Origin of Species
Classification Biology I. Lesson Objectives Compare Aristotle’s and Linnaeus’s methods of classifying organisms. Explain how to write a scientific name.
How Biologists Classify Organisms Section What Is a Species? In 1942, the biologist Ernst Mayr of Harvard University proposed the biological species.
{ Evolution & Speciation Mechanisms & Models Quizlet:
CHAPTER 4: THE FORCES OF EVOLUTION AND THE FORMATION OF SPECIES.
Chapter 19 Evolutionary Patterns, Rates and Trends.
Lesson Overview Lesson Overview Modern Evolutionary Classification 18.2.
Speciation. What is a species? Biological species concept – a population or group of populations whose members have the potential to interbreed in nature.
{ Evolution & Speciation Mechanisms & Models.  Broad definition: species = one or more populations that share a trait derived from a common ancestor.
15.3 Shaping Evolutionary Theory 7(E) Analyze and evaluate the relationship of natural selection to adaptation and to the development of diversity in and.
Classification, Taxonomy and Patterns of Organization Unit 1.4.
Darwin’s only figure in “The Origin of Species” (1859)

Phylogeny & the Tree of Life
Biogeography--study of the distributions of organisms on the earth
Origin of Species Chapter 14.
Speciation Chapter 14 March 2014.
The Origin of Species Chapter 24.
The Origin of Species.
Phylogeny and the Tree of Life
Chapter 5 The Forces of Evolution And The Formation of Species
Darwin’s only figure in “The Origin of Species” (1859)
Chapter 24 ~ The Origin of Species
Warm-Up Contrast adaptive radiation vs. convergent evolution? Give an example of each. What is the correct sequence from the most comprehensive to least.
Chapter 24 The Origin of Species.
What sort of Biological Entity is it?
Chapter 24: The Origin of Species
Warm-Up Contrast adaptive radiation vs. convergent evolution? Give an example of each. What is the correct sequence from the most comprehensive to least.
CHAPTER 24 THE ORIGIN OF SPECIES.
Speciation, Macroevolution, and Microevolution
The Origin of Species Chapter 24.
Chapter 24 Notes The Origin of Species.
Chapter 18: Evolution and Origin of Species
Presentation transcript:

Fish Systematics: How does this stuff work?? Study of fish diversity and the evolutionary relationships among populations, species and higher taxa Chapter 2 (Helfman, Collette & Facey)

Systematics Develop an understanding of patterns of diversity in the context of evolutionary and ecological theory. trends in where fish groups are found (spatial distribution) trends in emergence/extinction of evolutionary groups

Systematics Sample questions: What has favored/allowed greater diversity of fishes on coral reefs than in lakes? What has allowed/favored cypriniforms, siluriforms and characiforms to become so diverse? What factors have allowed/favored the persistence of ancient taxa in the Mississippi River basin (bowfin, gar, paddlefish, etc.)? What is the evolutionary (phylogenetic) relationship between salmon and pike?

Subdisciplines in Systematics Taxonomy - the theory and practice of describing, identifying and classifying taxa (groups of phylogenetically related organisms) Nomenclature - the naming of taxonomic groups Classification - organizing taxa into like groupings

Focus of Systematics on Species Historically, understanding species* most common: *group of organisms that can reproduce and generate viable offspring Today, emphasis is below species level (why?) Endangered Species Act: applies to distinct population segment of a species which interbreeds when mature

Species Concepts Morphological (Linnaeus): the smallest group of individuals that look different from each other. can misclassify based on differences that can be maintained within an interbreeding group depends only on observable morphological differences

Species Concepts Biological (Mayr): group of populations of individuals that are similar in form and function and that are reproductively isolated from other populations conventional definition until late 1980’s includes genetic information ignores hybridization dependent on geographic isolation to achieve species status

Species Concepts Evolutionary (Wiley): a population or group of populations that shares a common evolutionary fate and historical tendencies recognizes more than just genetic and morphological differences difficult to determine “evolutionary fate” how much diversity is allowed within a common evolutionary fate?

Species Concepts Phylogenetic: the smallest biological unit appropriate for phylogenetic analysis (process that rates traits as ancestral or derived and then looks for groupings based on similarities) does not infer modes of speciation nothing is arbitrary depends on thorough phylogenetic analysis first

Species Concepts Usefulness of each concept depends on the use - for Endangered Species Act, use as much evidence as possible: morphological, physiological, behavioral geographic life history & development habitat & feeding ecology phylogenetics evolutionary fate

Determining Relationships Between Taxa Traditional: examine and list primitive to advanced, link groups based on a few arbitrary traits, generate lineage model based on these limited data

Determining Relationships Between Taxa Phenetics: multivariate statistical approach: assemble list of traits determine degree of similarity among groups based on number of similar traits ignores evolutionary linkage of groups (convergence could put evolutionarily distinct lines into a single taxon)

Determining Relationships Between Taxa Phylogenetic (cladistic): assemble a list of traits classify each taxonomic group on basis of presence or absence of each trait determine degree of similarity among groups based on shared and unique traits:

Determining Relationships Between Taxa Phylogenetic (cladistic), continued: determine degree of similarity among groups based on shared and unique traits: shared traits = plesiomorphic traits (ancestral) unique traits = apomorphic traits (derived) shared unique traits = synapomorphic traits monophyletic group of taxa (common origin) = clade

Cladograms Phylogenetic relationships expressed in cladograms - branching representation of the evolutionary relationships among taxa based on shared common traits and shared unique traits

Constructing a Cladogram Listing of traits Coding of each taxon by presence or absence of each trait Assemble groupings based on trait conditions Use the simplest branching structure possible: principle of parsimony

Which traits do I use?

Speciation How do populations become distinct species? - the process whereby gene flow is reduced sufficiently between sister populations to allow each to become different evolutionary lineages Allopatric (with geographic isolation) Non-allopatric (without geographic isolation)

Speciation Allopatric (with geographic isolation) speciation: Vicariant - large populations geographically isolated (little inbreeding) (United States) Founder - small population becomes geographically isolated and then reproductively isolated via inbreeding, selection, drift (Gilligan’s Island) Reinforcement - early isolation followed by sympatry, but selection against hybrids

Speciation Non-allopatric (without geographic isolation) Sympatric - sister species evolve within the dispersal range of each other, but adapt to different habitats - habitat-dependent assortive mating Parapatric - sister species evolve in segregated habitats across a narrow contact zone - little mixing in spite of proximity

Final synthesis on “species” Groupings that are different from each other: morphology, behavior, physiology, ecology Reproduction is isolated in practice Mating systems and mate-recognition systems are important enforcers of isolation