TY  - JOUR
A1  - Valente, Luis M.
A1  - Phillimore, Albert B.
A1  - Etienne, Rampal S.
T1  - Equilibrium and non-equilibrium dynamics simultaneously operate in the Galápagos islands
JF  - Ecology letters
N2  - Island biotas emerge from the interplay between colonisation, speciation and extinction and are often the scene of spectacular adaptive radiations. A common assumption is that insular diversity is at a dynamic equilibrium, but for remote islands, such as Hawaii or Galápagos, this idea remains untested. Here, we reconstruct the temporal accumulation of terrestrial bird species of the Galápagos using a novel phylogenetic method that estimates rates of biota assembly for an entire community. We show that species richness on the archipelago is in an ascending phase and does not tend towards equilibrium. The majority of the avifauna diversifies at a slow rate, without detectable ecological limits. However, Darwin's finches form an exception: they rapidly reach a carrying capacity and subsequently follow a coalescent-like diversification process. Together, these results suggest that avian diversity of remote islands is rising, and challenge the mutual exclusivity of the non-equilibrium and equilibrium ecological paradigms.
KW  - Community assembly
KW  - diversification
KW  - dynamic equilibrium
KW  - island biogeography
KW  - phylogeny
Y1  - 2015
U6  - https://doi.org/10.1111/ele.12461
SN  - 1461-0248
SN  - 1461-023X
VL  - 18
SP  - 844
EP  - 852
PB  - Wiley-Blackwell
CY  - Oxford
ER  - 
TY  - GEN
A1  - Valente, Luis M.
A1  - Phillimore, Albert B.
A1  - Etienne, Rampal S.
T1  - Equilibrium and non-equilibrium dynamics simultaneously operate in the Galápagos islands
N2  - Island biotas emerge from the interplay between colonisation, speciation and extinction and are often the scene of spectacular adaptive radiations. A common assumption is that insular diversity is at a dynamic equilibrium, but for remote islands, such as Hawaii or Galápagos, this idea remains untested. Here, we reconstruct the temporal accumulation of terrestrial bird species of the Galápagos using a novel phylogenetic method that estimates rates of biota assembly for an entire community. We show that species richness on the archipelago is in an ascending phase and does not tend towards equilibrium. The majority of the avifauna diversifies at a slow rate, without detectable ecological limits. However, Darwin's finches form an exception: they rapidly reach a carrying capacity and subsequently follow a coalescent-like diversification process. Together, these results suggest that avian diversity of remote islands is rising, and challenge the mutual exclusivity of the non-equilibrium and equilibrium ecological paradigms.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 230 
KW  - Community assembly
KW  - diversification
KW  - dynamic equilibrium
KW  - island biogeography
KW  - phylogeny
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-93525
ER  - 
TY  - JOUR
A1  - Warren, Ben H.
A1  - Simberloff, Daniel
A1  - Ricklefs, Robert E.
A1  - Aguilee, Robin
A1  - Condamine, Fabien L.
A1  - Gravel, Dominique
A1  - Morlon, Helene
A1  - Mouquet, Nicolas
A1  - Rosindell, James
A1  - Casquet, Juliane
A1  - Conti, Elena
A1  - Cornuault, Josselin
A1  - Maria Fernandez-Palacios, Jose
A1  - Hengl, Tomislav
A1  - Norder, Sietze J.
A1  - Rijsdijk, Kenneth F.
A1  - Sanmartin, Isabel
A1  - Strasberg, Dominique
A1  - Triantis, Kostas A.
A1  - Valente, Luis M.
A1  - Whittaker, Robert J.
A1  - Gillespie, Rosemary G.
A1  - Emerson, Brent C.
A1  - Thebaud, Christophe
T1  - Islands as model systems in ecology and evolution: prospects fifty years after MacArthur-Wilson
JF  - Ecology letters
N2  - The study of islands as model systems has played an important role in the development of evolutionary and ecological theory. The 50th anniversary of MacArthur and Wilson's (December 1963) article, An equilibrium theory of insular zoogeography', was a recent milestone for this theme. Since 1963, island systems have provided new insights into the formation of ecological communities. Here, building on such developments, we highlight prospects for research on islands to improve our understanding of the ecology and evolution of communities in general. Throughout, we emphasise how attributes of islands combine to provide unusual research opportunities, the implications of which stretch far beyond islands. Molecular tools and increasing data acquisition now permit re-assessment of some fundamental issues that interested MacArthur and Wilson. These include the formation of ecological networks, species abundance distributions, and the contribution of evolution to community assembly. We also extend our prospects to other fields of ecology and evolution - understanding ecosystem functioning, speciation and diversification - frequently employing assets of oceanic islands in inferring the geographic area within which evolution has occurred, and potential barriers to gene flow. Although island-based theory is continually being enriched, incorporating non-equilibrium dynamics is identified as a major challenge for the future.
KW  - Community assembly
KW  - diversification
KW  - ecosystem functioning
KW  - genomics
KW  - island biogeography
KW  - islands as model systems
KW  - speciation
Y1  - 2015
U6  - https://doi.org/10.1111/ele.12398
SN  - 1461-023X
SN  - 1461-0248
VL  - 18
IS  - 2
SP  - 200
EP  - 217
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Valente, Luis M.
A1  - Etienne, Rampal S.
A1  - Phillimore, Albert B.
T1  - The effects of island ontogeny on species diversity and phylogeny
JF  - Proceedings of the Royal Society of London : B, Biological sciences
N2  - A major goal of island biogeography is to understand how island communities are assembled over time. However, we know little about the influence of variable area and ecological opportunity on island biotas over geological time-scales. Islands have limited life spans, and it has been posited that insular diversity patterns should rise and fall with an island's ontogeny. The potential of phylogenies to inform us of island ontogenetic stage remains unclear, as we lack a phylogenetic framework that focuses on islands rather than clades. Here, we present a parsimonious island-centric model that integrates phylogeny and ontogeny into island biogeography and can incorporate a negative feedback of diversity on species origination. This framework allows us to generate predictions about species richness and phylogenies on islands of different ages. We find that peak richness lags behind peak island area, and that endemic species age increases with island age on volcanic islands. When diversity negatively affects rates of immigration and cladogenesis, our model predicts speciation slowdowns on old islands. Importantly, we find that branching times of in situ radiations can be informative of an island's ontogenetic stage. This novel framework provides a quantitative means of uncovering processes responsible for island biogeography patterns using phylogenies.
KW  - island biogeography
KW  - volcanic ontogeny
KW  - phylogeny
KW  - radiation
KW  - endemicity
Y1  - 2014
U6  - https://doi.org/10.1098/rspb.2013.3227
SN  - 0962-8452
SN  - 1471-2954
VL  - 281
IS  - 1784
PB  - Royal Society
CY  - London
ER  - 
TY  - JOUR
A1  - Cornetti, Luca
A1  - Valente, Luis M.
A1  - Dunning, Luke T.
A1  - Quan, Xueping
A1  - Black, Richard A.
A1  - Hebert, Olivier
A1  - Savolainen, Vincent
T1  - The Genome of the "Great Speciator" Provides Insights into Bird Diversification
JF  - Genome biology and evolution
N2  - Among birds, white-eyes (genusZosterops) have diversified so extensively that Jared Diamond and Ernst Mayr referred to them as the 'great speciator." The Zosterops lineage exhibits some of the fastest rates of species diversification among vertebrates, and its members are the most prolific passerine island colonizers. We present a high-quality genome assembly for the silvereye (Zosterops lateralis), a white-eye species consisting of several subspecies distributed across multiple islands. We investigate the genetic basis of rapid diversification in white-eyes by conducting genomic analyses at varying taxonomic levels. First, we compare the silvereye genome with those of birds from different families and searched for genomic features that may be unique to Zosterops. Second, we compare the genomes of different species of white-eyes from Lifou island (South Pacific), using whole genome resequencing and restriction site associated DNA. Third, we contrast the genomes of two subspecies of silvereye that differ in plumage color. In accordance with theory, we show that white-eyes have high rates of substitutions, gene duplication, and positive selection relative to other birds. Below genus level, we find that genomic differentiation accumulates rapidly and reveals contrasting demographic histories between sympatric species on Lifou, indicative of past interspecific interactions. Finally, we highlight genes possibly involved in color polymorphism between the subspecies of silvereye. By providing the first whole-genome sequence resources for white-eyes and by conducting analyses at different taxonomic levels, we provide genomic evidence underpinning this extraordinary bird radiation.
KW  - genome evolution
KW  - positive selection
KW  - gene duplication
KW  - phylogenomics
KW  - demography
KW  - morphological divergence
Y1  - 2015
U6  - https://doi.org/10.1093/gbe/evv168
SN  - 1759-6653
VL  - 7
IS  - 9
SP  - 2680
EP  - 2691
PB  - Oxford Univ. Press
CY  - Oxford
ER  -