Diversifying on the Islands–During low sea level stands The Story of Maui Nui • Diminished in...
Transcript of Diversifying on the Islands–During low sea level stands The Story of Maui Nui • Diminished in...
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Diversifying on the Islands
http://www.pelagicos.net/classes_naturalhistory_sp2016.htm
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Objectives
For this class - Learn definitions of key terminology
- Understand the processes that influence species
adaptation, diversification and speciation
- Be familiar with examples of Hawaiian fauna / flora adaptation, diversification and speciation
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Motivation BIG PICTURE Another classic problem in biogeography is to explain how large numbers of endemic species originate on islands, given few instances of colonization
(Lerner et al. 2011)
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Implications for native honey creepers
• Phylogenetic tree showing divergence ages of different species based on DNA, along with island ages
• Honeycreeper lineage is older than Kauai
• Some species endemic to specific islands, diverged from more closely related species before island formed (Lerner et al., 2011)
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• The Maui Nui complex (Maui Moloka’i, Lana’i, and Kahoolawe) made up a single large island - even larger than Hawai’i – Before erosion
– During low sea
level stands
The Story of Maui Nui
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• Diminished in size due to subsidence and erosion
• Largest at about 1.2 mya
• Divided during interglacials around 0.6 mya
• Reconnected during sea level low stands (glacial periods)
Changes in Maui Nui during 0.2 mya intervals Black (land during sea level high stands) Grey (land during sea level low stands)
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• Between Maui & Lanai there are: – wave protected
lagoons and reefs
– Remains of land bridges
– Drowned basins
Land Bridges: (a) -82 m: 14 KYBP (b) -63m: 12 KYBP (c) -37m: 10 KYBP (d) -18m: 8 KYBP
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Native Honey Creepers
• Some species occur in all islands (e.g., Iiwi)
• Some species endemic to single island (e.g. Creepers)
• Some species diversified – by island (e.g., Amakihi)
• Maui Nui had high species richness (Lerner et al., 2011)
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Chance vs Determinism
Islands also provide ecological insights into the relative importance of chance and determinism in evolution.
Dispersal Filter
Chance: - Species pool - Dispersal filter - Arrival timing
Determinism: - Dispersal constraints - Island constraints - Ecological interactions
Source (mainland) Destination (island)
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Stages of Biological Colonization
What traits make an organism a good colonizer ?
Total Species
On Island
Time
Depends on the Timing of Arrival
Species Accumulation
Species Replacement
Phase I Phase II
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r-strategists k-strategists Density-independent Density-dependent
Exponential growth curve Logistic growth curve
Opportunistic species type Equilibrium species type
Many offspring produced Few offspring produced
Little Investment per Offspring Much Investment per Offspring
Little parental care Much parental care
Type III survivorship curve Type I survivorship curve
Short time to reach maturity Long time until maturity
Adapted for dispersal Adapted for competition
r-selected / K-selected Continuum
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Case Study - Gulf of California
(Polis and Hurd, 1995)
Islands in Gulf of California support high spider densities. Spider density negatively correlated with island size; small islands support 50-200 spiders per m3 of cactus habitat. Energy for these spiders comes from the ocean and not from in situ productivity by land plants. Although productivity sets maximal potential spider densities, predation (by scorpions) limits spider abundance. Thus, prey availability and predation act together to set island spider abundance.
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Lessons for Hawai’i
(Polis and Hurd, 1995)
- Colonization filter sets the stage:
spiders scorpions lizards - Energy imported from ocean and land plants - Ecological interactions important, after colonization: predation competition
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Some endemic island species experience a loss of defenses… others completely change their life-styles.
Patterns of Island Adaptation
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Examples of Island Adaptation
Insular Gigantism:
Extinct Mediterranean rabbits (26 lbs)
NO Trees: - giant daisies
- annuals become perennials
NO Mammals: - giant reptiles
- giant insects
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Examples of Island Adaptation
Insular Dwarfism:
Extinct Mediterranean elephant (1 m tall)
Island Kitt Fox, Channel islands (1 and 2.8 kg; 2.2 and 6.2 lb)
Cuban bee hummingbird (2.5 inches or 6.2 cm length and 1.6 grams or 0.06 oz)
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The loss of defenses:
Examples of Island Adaptation
Mamaki Hawaiian Stingless Nettle (Pipturus albidus) Hawaiian Mintless Mint (Phyllostegia glabra)
Lo'ulu Palm (Pritchardia thurstonii)
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Islands – Evolutionary Laboratories Because many islands are young and have relatively few species, evolutionary adaptation and species proliferation are obvious and easy to study. In addition, the isolation of many islands has allowed evolution to take its own course, resulting in unusual faunas and floras, often unlike those anywhere else. For these reasons, islands provide valuable insights into speciation and adaptive radiation.
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Misconceptions About Evolution
Teleology:
the idea that evolution is goal-oriented, or that organisms have goals and desires
There is no ending point or destination to evolution. Extant species are evolving along parallel lines.
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Natural Selection
The non-random process by which biological traits become more or less common in a population as a function of the differential survival and reproduction of their bearers.
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Three Types of Selection
directional selection selection for/against one phenotype change in environment (peppered moth)
disruptive selection favors two extreme phenotypes bimodal traits (finch beak size)
stabilizing (“purifying”) selection selection for “average” or heterozygote birth weights of human babies
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Real-Life Selection: Conflicting Directions
• Selection depends on environmental conditions
• The type and
strength of selection can change yearly – if conditions change
(e.g., rain)
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(a) Similarity between different species
(b) Diversity within single species
The Challenge of Defining Species
• Biological
• Morphological
• Ecological
• Phylogenetic
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The Biological Species Concept
I. Biological
Definition: population(s) of organisms which interbreed in nature to produce “fit” (viable, fertile) offspring (potential for gene flow)
Advantage: direct measure of gene flow
Disadvantage: does not work in many cases (asexual species, fossils, disjunct species, hybrids)
Consider barriers to successful reproduction:
Before mating
After mating
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Biological Concept
+ =
Hybrids:
Sometimes “do better” than the parents (F1)
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Expanding Species Concept
II. Morphological: population(s) with a distinct phenotype
Concept Expanded: Paleontological (for fossils) morphological traits observable in fossils
III. Ecological: for living species
population(s) with different niches / habits (migration patterns, dialects, diets)
IV. Phylogenetic: represent single branch on phylogenetic tree (shared evolutionary history based on genetics, morphology, ecology)
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Speciation
Appearance of new species requires:
(1) reproductive isolation
prezygotic barriers habitat
time
behavior
mechanics
gametes
post-zygotic barriers hybrids do not survive well or are sterile
hybrid offspring do not survive well or are sterile
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Speciation
Appearance of new species also requires:
(2) genetic divergence
mutations: localized changes in the genome (e.g., species recognition traits) genetic drift: random changes without selection (e.g., hemoglobin) natural selection: different directional selection in different environments (e.g., beak sizes, body mass)
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Speciation – Two Generic Processes
allopatric speciation sympatric speciation
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Allopatric Speciation – Colonization
Colonization causes speciation in 3 ways:
founder effect (via genetic drift)
local adaptation (via natural selection)
adaptive radiation (by expanding into new niches)
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Allopatric Speciation – Fragmentation
Habitat fragmentation promotes speciation:
- restricted gene flow
- mutation, sexual selection, genetic drift
(Price and Clague 2002)
Mechanisms of habitat fragmentation?
Depends on organism’s dispersal capacity Maui Nui complex Lava Flows
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Habitat Fragmentation - Kipukas
`Akiapola`au, an endangered honeycreeper, inhabits mature, forested kipuka on Mauna Loa
A mature, closed-canopy Hawaiian forest takes 300 - 3,000 years to develop on new lava flows. ~ 40 percent of surface of Mauna Loa covered by lava flows every 1,000 yrs. A small fraction of forested kipuka on Mauna Loa likely to reach maturity before being inundated by lava. In fact, some kipuka on northeast flank are thought to be 3,500 yrs old. Some plants and animals make a living in these isolated habitat patches.
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Habitat Fragmentation - Kipuka
Ongoing research of population genetics of plants and insects in different kipukas. One example: On Saddle Road above Hilo, between mile markers 17 and 23, kipuka stand out as mounds of dense forest amongst sparsely vegetated lava flows.
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Genetic isolation has to occur despite high potential for gene flow in coexisting species:
mutation
polyploidy in plants
mating behavior
species recognition in “crowded” habitats coloration, calls / displays, timing
ecology segregation: habitat / timing / migration coevolution with local conditions (specialization)
Sympatric Speciation
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Hypothetical ancestry of Silversword alliance (2n = 28):
Kyhosia bolanderi & Carlquistia muirii (2n = 12, n = 6) (2n = 16, n = 8)
1. polyploidy of Kyhosia sp. (2n = 12, n = 12)
hybridiziation with Carlquistia sp. (2n = 12+8 = 20)
polyploidy (n=20) , hybridization with Carlquistia (2n = 20+8)
2. Allotetraploid – of closely-related species (n = 7)
Sympatric Speciation – Genetics
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Triploid zygote
Tetraploid parent (4n) Diploid parent (2n)
Diploid gametes (2n) Haploid gametes (1n)
Meiosis
Meiosis
Mating
(Two copies
of each
chromosome)
(Four copies
of each
chromosome)
(Three copies of
each chromosome)
(One copy of each chromosome) (Two copies of each chromosome)
When these gametes combine, most offspring
have incorrect number of chromosomes.
Reminder: Mutation and Hybridization
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Sympatric Speciation – Recognition
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Sympatric Speciation – Recognition
“With their often bizarre courtship patterns, Hawaiian Drosophila are the birds-of-paradise of the insect world”
Sexually-selected traits include: - wing patterns - leg hairs Dances? Songs? Smells? (Kaneshiro, 1988)
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Secondary traits: Condition dependence, multiple sexual signals, and immunocompetence
in peacocks
(Moller & Petrie 2002)
Symmetry: Dance reveals symmetry, especially in young men
(Brown et al. 2005)
Sympatric Speciation – Sexual Selection
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Sympatric Speciation – Ecology
(Kaneshiro, 1988)
Species are segregated by: size, substrate, feeding
Mouth parts
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Developing New Species
Need to develop populations of organisms which do not interbreed in nature to produce “fit” (viable, fertile) offspring (potential for gene flow)
Two generic barriers to successful reproduction:
Before mating: pre-zygotic
After mating: post-zygotic
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Habitat Isolation Temporal Isolation
Barriers to Gene Flow: Prezygotic Behavioral Isolation
Mating attempt
(f) (e) (c) (a)
(b)
(d)
Individuals of
different species
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Mating attempt
(f) (e) (c)
(a)
(b)
(d)
Barriers to Gene Flow: Prezygotic
Fertilization Individuals of Different species
Gametic Isolation Mechanical Isolation
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Fertilization
Reduced Hybrid Viability Hybrid Infertility Hybrid Breakdown
Viable, fertile
offspring
(g) (h) (i)
(j)
(l)
(k)
Barriers to Gene Flow: Postzygotic
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References
Polis, G.A., and Hurd, S.D. (1995). Extraordinarily high spider densities on islands: Flow of energy from the marine to terrestrial food webs and the absence of predation. Proceedings of the National Academy of Sciences USA 92: 4382-4386. Kaneshiro, K.Y. (1988) Speciation in the Hawaiian "Drosophila": Sexual Selection Appears to Play an Important Role. BioScience 38(4): 258-263. Lerner, H.R.L., Meyer, M., James, H.F., Hofreiter, M., Fleischer, R.C. (2011). Multilocus Resolution of Phylogeny and Timescale in the Extant Adaptive Radiation of Hawaiian Honeycreepers. Current Biology 21(21): 1838-1844. Losos, J.B. and Ricklefs, R.E. (2009). Adaptation and diversification on islands. Nature 457: 830-836.