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Research Project
FLUTUAÇÕES INTERANUAIS DA COMPOSIÇÃO GENÉTICA: ESTIMATIVA DO TAMANHO EFECTIVO DE POPULAÇÕES DE PEIXES COSTEIROS
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Establishment of a coastal fish in the Azores : Recent colonisation or sudden expansion of an ancient relict population?
Publication . Stefanni, Sergio; Castilho, Rita; Sala-Bozano, Maria; Robalo, Joana Isabel; Francisco, Sara Martins; Santos, Ricardo Serrão; Marques, N.; Brito, Alberto; Almada, Vítor Carvalho; Mariani, Stefano
The processes and timescales associated with ocean-wide changes in the distribution of marine species have intrigued biologists since Darwin's earliest insights into biogeography. The Azores, a mid-Atlantic volcanic archipelago located >1000 km off the European continental shelf, offers ideal opportunities to investigate phylogeographic colonisation scenarios. The benthopelagic sparid fish known as the common two-banded seabream (Diplodus vulgaris) is now relatively common along the coastline of the Azores archipelago, but was virtually absent before the 1990s. We employed a multiple genetic marker approach to test whether the successful establishment of the Azorean population derives from a recent colonisation from western continental/island populations or from the demographic explosion of an ancient relict population. Results from nuclear and mtDNA sequences show that all Atlantic and Mediterranean populations belong to the same phylogroup, though microsatellite data indicate significant genetic divergence between the Azorean sample and all other locations, as well as among Macaronesian, western Iberian and Mediterranean regions. The results from Approximate Bayesian Computation indicate that D. vulgaris has likely inhabited the Azores for ∼40 (95% confidence interval (CI): 5.5-83.6) to 52 (95% CI: 6.32-89.0) generations, corresponding to roughly 80-150 years, suggesting near-contemporary colonisation, followed by a more recent demographic expansion that could have been facilitated by changing climate conditions. Moreover, the lack of previous records of this species over the past century, together with the absence of lineage separation and the presence of relatively few private alleles, do not exclude the possibility of an even more recent colonisation event.
Phylogeographic pattern and glacial refugia of a rocky shore species with limited dispersal capability: the case of Montagu’s blenny (Coryphoblennius galerita, Blenniidae)
Publication . Francisco, Sara Martins; Almada, Vítor Carvalho; Faria, Cláudia Barreiros Macedo de; Velasco, Eva Maria; Robalo, Joana Isabel
Phylogeographic patterns among coastal fishes
are expected to be influenced by distinct ecological, biological
and life history traits, along with historical events
and oceanography (past and present). This study focuses on
the broad range phylogeography of the Montagu’s blenny
Coryphoblennius galerita, a species with well-known ecological
features, strictly tied to rocky environments and
with limited dispersal capability. Eleven locations from
the western Mediterranean to the Bay of Biscay (including
the Macaronesian archipelagos) were sampled. Mitochondrial
DNA control region (CR) and the first intron of
the S7 ribosomal protein gene were used to address the
population structure, the signatures of expansion/contraction
events retained in the genealogies and potential glacial
refugia. The genetic diversity of the Montagu’s blenny was
high throughout the sampled area, reaching maximum values
in the Mediterranean and western Iberian Peninsula.
The results confirmed a marked structure of C. galerita along the sampled area, with a major separation found
between the Mediterranean and the Atlantic populations,
and suggesting also a separation between the Azores and
the remaining Atlantic locations. This study revealed complex
and deep genealogies for this species, with Montagu’s
blenny populations presenting signatures of events clearly
older than the Last Glacial Maximum, with lineages coalescing
in early Pleistocene and Pliocene. Three potential
glacial refugia where this species might have survived
Pleistocene glaciations and from where the recolonization
process might have taken place are suggested: South of Iberian
Peninsula/North Africa, Mediterranean and Azores.
Metapopulations in temporary streams - The role of drought-flood cycles in promoting high genetic diversity in a critically endangered freshwater fish and its consequences for the future
Publication . Santos, Carla Sousa; Robalo, Joana Isabel; Francisco, Sara Martins; Carrapato, Carlos; Cardoso, Ana Cristina; Doadrio, Ignacio
Genetic factors have direct and indirect impacts in the viability of endangered species. Assessing their genetic diversity levels and population structure is thus fundamental for conservation and management. In this paper we use mitochondria] and nuclear markers to address phylogeographic and demographic data on the critically endangered Anaecypris hispanica, using a broad sampling set which covered its known distribution area in the Iberian Peninsula. Our results showed that the populations of A. hispanica are strongly differentiated (high and significant Phi(ST) and F-ST values, corroborated by the results from AMOVA and SAMOVA) and genetically diversified. We suggest that the restricted gene flow between populations may have been potentiated by ecological, hydrological and anthropogenic causes. Bayesian skyline plots revealed a signal for expansion for all populations (t(MRCA) between 68 kya and 1.33 Mya) and a genetic diversity latitudinal gradient was detected between the populations from the Upper (more diversified) and the Lower (less diversified) Guadiana river basin. We postulate a Pleistocenic westwards colonization route for A. hispanica in the Guadiana river basin, which is in agreement with the tempo and mode of paleoevolution of this drainage. The colonization of River Guadalquivir around 60 kya with migrants from the Upper Guadiana, most likely by stream capture, is also suggested. This study highlights the view that critically endangered species facing range retreats (about 47% of its known populations have disappeared in the last 15 years) are not necessarily small and genetically depleted. However, the extinction risk is not negligible since A. hispanica faces the combined effect of several deterministic and stochastic negative factors and, moreover, recolonization events after localized extinctions are very unlikely to occur due to the strong isolation of populations and to the patchily ecologically-conditioned distribution of fish. The inferred species distribution models highlight the significant contribution of temperature seasonality and isothermality to A. hispanica occurrence in Guadiana environments and emphasize the importance of stable climatic conditions for the preservation of this species. Given the strong population structure, high percentage of private haplotypes and virtual absence of inter-basin gene flow we suggest that each A. hispanica population should be considered as an independent Operational Conservation Unit and that ex-situ and in-situ actions should be conducted in parallel to allow for the long-term survival of the species and the preservation of the genetic integrity of its populations. (C) 2014 Elsevier Inc. All rights reserved.
Time matters: genetic composition and evaluation of effective population size in temperate coastal fish species
Publication . Francisco, Sara M.; Robalo, Joana
Extensive knowledge on the genetic characterization of marine organisms has been assembled, mainly concerning the spatial distribution and structuring of populations. Temporal monitoring assesses not only the stability in genetic composition but also its trajectory over time, providing critical information for the accurate forecast of changes in genetic diversity of marine populations, particularly important for both fisheries and endangered species management. We assessed fluctuations in genetic composition among different sampling periods in the western Portuguese shore in three fish species.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
OE
Funding Award Number
SFRH/BPD/84923/2012