Evolution of environmental traits in reef algae
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Transcript of Evolution of environmental traits in reef algae
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HEROEN VERBRUGGEN, UNIVERSITY OF MELBOURNE
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Talk contents
Niche evolu1on + impact on biodiversity
Limestone-‐boring algae
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Vanessa Marcelino Lennert Tyberghein Joana Costa
Niche Evolu,on Boring Algae
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Zachos et al. 2008. Nature 451: 279
Evolu1on of clima1c niches – context
Global SST decreases through Cenozoic
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Bio-‐ORACLE
Tyberghein et al. (2012) Glob Ecol Biogeogr 21: 272
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Halimeda – species diversity map
map by Tom Schils
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SST affini1es modeled along tree
C1 C2 C3 C4 C5
Verbruggen et al. (2009) Global Ecol. Biogeogr. 18: 393-‐405
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How does evolvability of thermal niches come about?
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Marcelino et al. – unpublished
Halimeda – microhabitat evolu1on
Exposed microhabitat Sheltered microhabitat
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Marcelino et al. – unpublished
Microhabitat specializa1on as exapta1on for macroecological shi]s
sheltered exposed
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Can niche evolu1on explain geographical pa^erns of diversity?
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low
high
Ti^ensor et al. (2010) Nature 466: 1098-‐1107 — Jablonski et al. (2006) Science 314: 102-‐106
The notorious LDG
Decreasing species diversity from tropics to poles
Many, many, MANY explana1ons proposed
Evolu1onary perspec1ve: species turnover
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Kerswell (2006) Ecology 10: 2479-‐2488
Bimodal la1tudinal diversity pa^ern
Highest diversity in temperate regions
Do the same evolu1onary processes hold?
…but for seaweeds
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LDG and diversifica1on
sea surface temperature
diversifica1o
n
diversifica1o
n
cold warm
sea surface temperature
cold warm int. int.
cold int. warm int. cold cold int. warm int. cold
λ = sigmoid ( SST ) λ = hump ( SST )
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Codium -‐ Species diversity map
map by Tom Schils
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Codium – evolu1on of SST affini1es C1 C2 C3
Verbruggen et al. – unpublished
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λ = constant
SST affinity of lineage
Codium – diversifica1on and SST
2,500.8
ΔAIC = 0
diversifica1o
n
Verbruggen et al. – unpublished
AIC
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λ = constant λ = hump ( SST )
diversifica1o
n
SST affinity of lineage SST affinity of lineage
Codium – diversifica1on and SST
2,500.8 2,485.1 AIC
ΔAIC = 0 ΔAIC = –15.7
Verbruggen et al. – unpublished
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λ = sigmoid ( SST ) λ = constant λ = hump ( SST )
diversifica1o
n
SST affinity of lineage SST affinity of lineage SST affinity of lineage
Codium – diversifica1on and SST
2,500.8 2,482.5 2,485.1 AIC
ΔAIC = 0 ΔAIC = –15.7 ΔAIC = –18.3
Verbruggen et al. – unpublished
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Codium – temperate flora is old C1 C2 C3
Verbruggen et al. – unpublished
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Conclusions and perspec1ves • Conclusions so far:
– Niche shi]s vs. niche conserva1sm – Evolvability and the microhabitat – Diversifica1on relates to SST – Diversifica1on relates to evolvability
• Perspec1ves 1 –– Joana's PhD – Scale up: genus ➟ order – Harder ques1ons: adapta1on + interac1ons
• Perspec1ves 2 –– Will's PhD – Integra1on with evolu1onary ecology
• Perspec1ves 3 –– go wide – trace element u1liza1on & other physiological features – genome content – life history traits & diversifica1on
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Limestone-‐boring algae
Verbruggen & Tribollet. 2011. Curr. Biol. 21: R876
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Boring algae: What are they?
-‐ Common in stony corals skeletons -‐ Underneath the living coral 1ssue
-‐ Algae, cyanobacteria (and fungi) -‐ Siphonous green algal genus
Ostreobium is the most common boring algae
Photo: S. Berrin
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Boring algae: What do they do?
-‐ Bioerosion Tribollet. Current Developments in Bioerosion. 2008.
CaCO3 dissolu1on & a^rac1ng grazers
-‐ Low light photosynthesis Koehne et al. Biochim Biophys Acta – BioenergeFcs. 1999.
Absorp1on in far red
-‐ Coral bleaching Fine & Loya. Proc Royal Soc B. 2002.
Provide alterna1ve source of energy
-‐ Holobiome Rosenberg et al. Nature Reviews Microbiol. 2007.
Corals adapta1on and resilience
Tribollet. Cu
rren
t Develop
men
ts in Bioerosion.2008.
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Boring algae: biodiversity
Taxonomy: 5 Ostreobium species
O. constrictum O. duerdenii O. okamurae O. reineckii O. quekeSi
Molecular survey in Eilat
Gutner-‐Hoch & Fine. Coral Reefs. 2011
2 species of coral seven clades of Ostreobium some rela1on to depth
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Problem & Goals
• Problem: – Unrecognized biodiversity – Are they equivalent?
• Goals: – biodiversity assessment – relate endolith community structure to environment
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Environmental sequencing approach Proof of concept study: 3 locali1es => Guam, Mariana Islands 10 samples:
7 Porites rus 1 Porites cylindrica 1 Psammocora conFgua 1 Acropora muricata
amplifica1on of 3 loci, each ca. 300 bp
-‐ UPA (part of plas1d 23S gene)
=> anything with a proper plas1d genome
-‐ tufA => green algae
-‐ rbcL => green algae
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Environmental sequencing approach
Quality filtering
Opera1onal Taxonomic Units (OTUs)
Assign Taxonomy (RDP)
Diversity analyses
High-‐throughput sequencing:
mul1plexed library
Ion Torrent => 3 million sequences
10 samples x 3 loci => 100,000 reads each
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What's in there? Results for UPA
At 90% similarity (≈ genus level):
608 OTUs
Chlorophytes
Cyanobacteria
Rhodophytes
Other eukaryotes
Unknown
336 unknown OTUs
144 Chlorophytes OTUs 30 Bryopsidales
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How dominant are they?
Unknown
Rhodophytes
Chlorophytes
Cyanobacteria
Other Eukaryotes
Propor,on of reads matching main taxonomic groups:
S1
S2
S3
S4
S5
S6
S7
S8
S9
S10
Green algae highly dominant. With tufA marker, we find 121 species of Ostreobium.
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Correlates of community composi1on
Principal Coordinates Analysis (PCoA)
on UniFrac distance matrix
=> 3D representa1on of 1st, 2nd and 3rd PCs
Polaris
CRMS
Sampling sites
green algae frac1on with tufA marker
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Correlates of community composi1on
Pillar shape
Plate shape
PCoA plot on UniFrac distance matrix
Host morphology
PC1 (30%)
PC2 (24%)
PC3 (16%)
green algae frac1on with tufA marker
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Conclusions and perspec1ves
• Huge unknown biodiversity of boring algae species ➟ higher taxa
• Not homogeneously distributed – Depth (Eilat study) – Spa1al – Host colony morphology
• Perspec1ves –– Vanessa's PhD – Be^er sequencing protocol – Hierarchical sampling design
➟ patchiness – Depth, human impact, CO2 gradients – Niche models
Photo: L. Stravias
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More perspec1ves
Genome biology Photobiology Bioerosion
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Vanessa Marcelino Lennert Tyberghein Joana Costa
Niche Evolu,on Boring Algae
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Collectors: Rob Anderson Elizabeth Bandeira John Bolton Francis Bunker Olivier Dargent Laury Dijoux Kya^ Dixon Rainbo Dixon
Stefano Draisma Cindy Fernandez Suzanne Fredericq Wilson Freshwater Fred Gurgel John Huisman Lisa Kirkendale Gerry Kra]
Chris Lane Line Le Gall Diane Li^ler Mark Li^ler Lydiane Mavo Frederic Mineur Klaas Pauly Claude Payri
Willem P.v.Reine Craig Schneider Gary Saunders Thomas Sauvage Tom Schils Heather Spalding John West … many others …
Collaborators: Sofie D’hondt Chris Drake Nick Eloot Wiebe Kooistra Frederik Leliaert Diane Li^ler Mark Li^ler Steve LoDuca
Chris Maggs Antoine N'Yeurt Fa1ma Oliveira Mariana Oliveira Claude Payri Gary Saunders Thomas Sauvage Tom Schils
Satoshi Shimada Thomas Silberfeld Heather Spalding Frederique Steen Ana Tronholm Andy Vierstraete Brian Wysor Rick Zechman