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Plant Speciation

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May involve different individuals within a population or individuals among ... Inferred in amaranth (Amaranthus), larkspur (Delphinium), willow-herb (Epilobium) ... – PowerPoint PPT presentation

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Title: Plant Speciation


1
Plant Speciation Evolution (PBIO 475/575)
  • Hybridization

2
General Principles
  • Hybridization sensu lato cross-fertilization
    that brings two different genotypes into
    conjunction
  • May involve different individuals within a
    population or individuals among populations
    ("trivial") or
  • individuals of different taxa (e.g., distinct
    species--usually what people mean by
    hybridization)
  • May be restricted to the initial hybridization
    event, or it may continue through time and across
    generations where weak isolation mechanisms
    permit gene flow between original parents and
    hybrid progeny

3
General Principles
  • Previously believed to be unimportantan
    evolutionary dead end
  • Much new evidence demonstrates that hybridization
    provides new genetic combinations available for
    modification by other processes e.g.,
    polyploidy, chromosomal rearrangements, selection
    on introgressants
  • Often disrupts isolation mechanisms preventing
    interspecific gene flow if it occurs over wide
    geographic areas and impacts many populations of
    hybridizing species ? genetic swamping

4
General Principles
  • In groups where hybridization is common, it is
    involved in formation of new geographic and
    ecological races
  • e.g., Redroot (Ceanothus)

Raven et al. (1992)
5
General Principles
  • Hybrids not commonly "perfectly" intermediate in
    phenotype
  • Hybrid vigor commonly expressed, especially in
    F1s
  • Different traits often vary toward one of the
    parental taxa
  • Sometimes a novel expression arises
  • e.g., unique non-glandular hair type in hybrid
    false foxglove, Aureolaria flava x pedicularis
  • e.g., dense glands of hybrid woodsia fern,
    Woodsia ilvensis x oregana, that are not found in
    the parent species

6
General Principles
  • Hybrids may be exceedingly localized or rare, or
    geographically very widespread, depending on
    frequency of hybridization event
  • e.g., exceedingly rare hybrid cinnamon fern,
    Osmunda x ruggii
  • known historically from one plant in each of two
    widely separate sites in the eastern U.S.
  • parents grow sympatrically over thousands of
    square miles
  • only 1 site now exists
  • extant single plant is probably gt1100 years old!

7
General Principles
  • Hybrid frequency (cont.)
  • Triploid hybrid woodfern, Dryopteris x
    triploidea, is a common cross of two widely
    distributed North American ferns, D. intermedia
    (4x) and D. carthusiana (2x)
  • Hybrid is often more abundant in a given lowland
    forest site than either parent but must be
    constantly recreated de novono ability to
    reproduce!
  • Triploid genome confers denser glandular
    hairiness than either parentdosage effect of
    duplicated genome from D. intermedia

8
General Principles
  • Hybrids not always restricted to immediate
    vicinity of parents, where vegetative or other
    propagation and dispersal allow
  • e.g., Hybrid horsetail, E. x ferrissii, disperses
    by stem fragmentation along waterways far outside
    range of E. laevigatum parent

Raven et al. (1992)
9
General Principles
  • Where isolation mechanisms are weak and
    "intermediate" microhabitat for hybrid
    establishment is extensive, hybrid swarms may
    be produced with all forms of phenotypic (and
    potentially physiologically adaptive)
    combinations
  • Not rare in plants
  • Raw material, with new genotypes, upon which
    selection and other forces may act

10
Hybridization sensu stricto
  • Interbreeding halts at sterile F1 or hybrid
    breakdown or other post-mating isolation
    mechanism ? prevents complete interspecific gene
    flow
  • Very common in land plantsoperates (or has
    operated) in vast majority of plant groups
  • Chromosome doubling or asexual reproduction could
    still produce evolutionarily important products

11
Classic Introgression
  • Active and iterative process, occurs after
    initial hybridization event
  • Depends on weak interspecific (especially, weak
    post-mating) isolation
  • Multigenerational process
  • Initial interspecific F1 hybrid produced
  • F1 crosses with parent to produce
    first-generation backcross progeny
  • Backcross progeny of successive generations
    continue to hybridize with individuals of same
    parent

12
Classic Introgression
  • May be bidirectional or unidirectional
  • Extent of introgression (and development of
    hybrid swarms) depends on extrinsic factors,
    e.g., site and environmental conditions, as well
    as intrinsic factors, e.g., blooming time of
    parents, nature and strength of isolation
    limiting gene flow between backcrosses and
    parents
  • Theoretical consequence is individuals with
    mostly the genome and (exo)phenotype of one
    parent but with some genes of the other parent

13
Classic Introgression
  • Most profound impact considered to be
    introgressant plants indistinguishable from one
    parent but with adaptability to broader range of
    environments than either
  • Frequency still not fully understood but
    suspected in many groups where hybridization is
    common

14
Classic Introgression
  • Evidence for introgression frequently
    demonstrated by comparing nuclear and plastid
    genomes e.g., incongruence between nuclear and
    chloroplast phylogenies of individuals
  • Incongruence in genomic phylogenies termed
    plastid capture and is strong evidence of
    hybridization with subsequent introgression
  • Sometimes suggests an ancient, cryptic
    introgressive event
  • e.g., black cottonwood has nuclear genome of BC
    group but chloroplast of white cottonwood group,
    but has no clear phenotypic traits of the white
    cottonwoods!

15
Classic Introgression
Chloroplast phylogeny
Nuclear phylogeny
P. nigra
P. nigra
Red box white poplar group
Smith Sytsma (1990)
16
Second Introgression Process?
  • PhD student Aurea Cortes studied extensively
    hybridizing violet species pairs in Mexico over 3
    field seasons
  • Found phenotypic and nuclear genetic marker
    evidence of extensive gene flow ? apparent
    introgression (many parental individuals had
    genetic markers of other parent)
  • Found virtually no pollinator movement over 3
    seasons, suggesting that interspecific
    hybridization is rare

17
Pseudo-introgression?
  • Violet species have mixed breeding
    system--produce outcrossing showy flowers in
    spring and numerous cleistogamous (strictly
    selfing) flowers later
  • Species reproduce largely by cleistogamous
    flowers, hybrid individuals reproduce entirely by
    cleistogamy
  • ? meiotic segregation in progeny of hybrids?
  • ? is not introgression, which is an active
    backcrossing process
  • Needs confirmation, and further study in other
    groups with mixed breeding systems could be
    common?

18
Consequences of Introgression
  • True gene flow accomplished across species
    boundaries
  • Locally significant if restricted to a particular
    population, but much more significant if it
    occurs to extent that introgressants proliferate
    and disperse widely
  • May ultimately affect the competitive ability,
    long-term survival of one or both parental
    species
  • May also be complicated by polyploidy, etc.

19
Consequences of Introgression
  • May yield a new taxon isolated from either parent
    that is uniquely adapted to a particular set of
    conditions
  • Some modern authors use the term "introgression"
    interchangeably to include both hybridization in
    the narrow sense, and introgressionthis is
    sloppy, and the two processes have very different
    evolutionary consequences

20
More on Hybrid Speciation
  • Homoploid ("diploid") hybrid speciation
  • Parents differ by two or more translocations
    begins with chromosomally sterile hybrid
  • Self-fertilization and meiotic recombination
    generates structural homozygote
  • Recombinant progeny are true-breeding but yield
    sterile hybrids in progeny-parent crosses
  • Could also be accomplished by recombination of
    genic sterility factors (theoretical possibility)
  • Experimentally documented in Wild rye
    (Elymus),Gilia (Gilia),Tobacco (Nicotiana), Rice
    (Oryza), etc.

21
More on Hybrid Speciation
  • Recombinational speciation through external
    barriers
  • ecological speciation following initial
    hybridization
  • Parents isolated temporally or ecologically
  • Begins with fertile/subfertile hybrid
  • Self-fertilization and recombination generates
    externally isolated progeny
  • Eventually produces species isolated from parents
  • Inferred in amaranth (Amaranthus), larkspur
    (Delphinium), willow-herb (Epilobium), oaks
    (Quercus), etc. proven with molecular data in
    Beardtongues (Penstemon), Wild irises (Iris),
    several other groups

22
More on Hybrid Speciation
  • Allopolyploid speciation
  • Believed very common in plants--47 of
    angiosperms, 97 of ferns and fern allies
    probably polyploid majority presumably of
    allopolyploid origin
  • Begins with a hybrid of two different species or
    "races" (subspecies or varieties)
  • Sterile hybrid undergoes chromosome doubling
    (both means below appear to be common events)
  • Somatic cells of the stem may generate a
    tetraploid branch that produces tetraploid
    flowers diploid gametes produce tetraploid
    progeny
  • Diploid plant produces two sets of unreduced
    (diploid, not haploid) gametes union produces
    tetraploid progeny

23
More on Hybrid Speciation
  • Tetraploid is fertile--2 sets of chromosomes
    representing the 2 parental genomes pair up,
    yielding "balanced" gametes
  • Famous examples of whole species groups include
    spleenwort ferns (Asplenium), henbit (Galeopsis),
    cotton (Gossypium), wheat (Triticum)
  • Multiple origins of allopolyploid species
    documented in many groups, e.g., Goat's-beards
  • Maybe more common than we ever thought

24
More on Hybrid Speciation
  • Segmental allopolyploidy (older term for
    infraspecific allopolyploidy)
  • Series of races of one species hybridize with
    another species in different places
  • Chromosome doubling yields a "continuum" of very
    closely related allopolyploids
  • Slightly different taxa with same ploidy level
    all interfertile

25
More on Hybrid Speciation
  • Factors fostering allopolyploidy
  • Long life cycle, with some mode of vegetative
    reproduction
  • "Primary" speciation completed, resulting in
    chromosomal rearrangements
  • Frequent natural hybridization

26
Bibliography
  • Anonymous. Flora of North America Editorial
    Committee (ed.). 1993. Flora of North America
    north of Mexico, vol. 2-Pteridophytes and
    gymnosperms. Oxford University Press, New York,
    New York. 475 pp.
  • Briggs, D. and S. M. Walters. 1997. Plant
    variation and evolution, 3rd ed. Cambridge
    University Press, Cambridge, United Kingdom. 512
    pp.
  • Futuyma, D. J. 1979. Evolutionary biology.
    Sinauer Associates, Inc., Sunderland,
    Massachusetts. 565 pp.
  • Grant, V. 1971. Plant speciation. Columbia
    University Press, New York, New York. 435 pp.

27
Bibliography
  • Grant, V. 1991. The evolutionary process A
    critical study of evolutionary theory, 2nd ed.
    Columbia University Press, New York, New York.
    487 pp.
  • Raven, P. H., R. F. Evert, and S. E. Eichhorn.
    1992. Biology of plants, 5th ed. Worth
    Publishers, New York, New York. 791 pp.
  • Smith, R. L. and K. J. Sytsma. 1990. Evolution of
    Populus nigra (sect. Aigeiros) Introgressive
    hybridization and the chloroplast contribution of
    Populus alba (sect. Populus). American Journal of
    Botany 771176-1187.
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