bib doi

papers/Gagnon_Kebe_Tahiri/mybib.bib

@@ -348,7 +348,6 @@ @article{ilves_colonization_2010
 	issn = {1365-294X},
 	url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/j.1365-294X.2010.04790.x},
 	doi = {10.1111/j.1365-294X.2010.04790.x},
-	abstract = {Intertidal and subtidal communities of the western and eastern coasts of the North Atlantic Ocean were greatly affected by Pleistocene glaciations, with some taxa persisting on both coasts, and others recolonizing after being extirpated on one coast during the Last Glacial Maximum. In the original spirit of comparative phylogeography, we conducted a comparative analysis using mtDNA sequence data and a hierarchical approximate Bayesian computation (ABC) approach for testing these two scenarios across 12 intertidal and subtidal coastal invertebrates spanning the North Atlantic to determine the temporal dynamics of species membership of these two ephemeral communities. Conditioning on a low gene-flow model, our results suggested that a colonization or mitochondrial selective sweep history was predominant across all taxa, with only the bivalve mollusc Mytilus edulis showing a history of trans-Atlantic persistence. Conditioning on a high gene-flow model weakened the support for this assemblage-level demographic history. The predominance of a colonization-type history also highlights concerns about analyses based on single-locus data where genetic hitchhiking may be incorrectly inferred as colonization. In conclusion, driving factors in shifting species range distributions and membership of ephemeral coastal communities could be species-specific environmental tolerances, species interactions, and/or stochastic demographic extinction. Through a re-examination of a long-standing question of North Atlantic phylogeography, we highlight the flexibility and statistical honesty of using a model-based ABC approach.},
 	language = {en},
 	number = {20},
 	urldate = {2024-04-10},
@@ -366,7 +365,6 @@ @article{uhlir_adding_2021
 	shorttitle = {Adding pieces to the puzzle},
 	url = {https://peerj.com/articles/12379},
 	doi = {10.7717/peerj.12379},
-	abstract = {The Nordic Seas have one of the highest water-mass diversities in the world, yet large knowledge gaps exist in biodiversity structure and biogeographical distribution patterns of the deep macrobenthic fauna. This study focuses on the marine bottom-dwelling peracarid crustacean taxon Cumacea from northern waters, using a combined approach of morphological and molecular techniques to present one of the first insights into genetic variability of this taxon. In total, 947 specimens were assigned to 77 morphologically differing species, representing all seven known families from the North Atlantic. A total of 131 specimens were studied genetically (16S rRNA) and divided into 53 putative species by species delimitation methods (GMYC and ABGD). In most cases, morphological and molecular-genetic delimitation was fully congruent, highlighting the overall success and high quality of both approaches. Differences were due to eight instances resulting in either ecologically driven morphological diversification of species or morphologically cryptic species, uncovering hidden diversity. An interspecific genetic distance of at least 8\% was observed with a clear barcoding gap for molecular delimitation of cumacean species. Combining these findings with data from public databases and specimens collected during different international expeditions revealed a change in the composition of taxa from a Northern Atlantic-boreal to an Arctic community. The Greenland-Iceland-Scotland-Ridge (GIS-Ridge) acts as a geographical barrier and/or predominate water masses correspond well with cumacean taxa dominance. A closer investigation on species level revealed occurrences across multiple ecoregions or patchy distributions within defined ecoregions.},
 	language = {en},
 	urldate = {2024-04-10},
 	journal = {PeerJ},
@@ -414,3 +412,80 @@ @article{brix_iceage_2014
 	year = {2014},
 	note = {Publisher: -},
 }
+@article{meisner_benthic_2014,
+	title = {Benthic habitats around {Iceland} investigated during the {IceAGE} expeditions},
+	volume = {35},
+	issn = {0138-0338},
+	url = {http://www.scopus.com/inward/record.url?scp=84905982926&partnerID=8YFLogxK},
+	doi = {10.2478/popore-2014-0016},
+	number = {2},
+	urldate = {2024-04-07},
+	journal = {Polish Polar Research},
+	author = {Meißner, Karin and Brenke, Nils and Svavarsson, Jörundur},
+	year = {2014},
+	keywords = {Benthic habitat, Icelandic waters, North Atlantic, Sediment characteristics, Visual assessment},
+	pages = {177--202},
+}
+@article{stransky_diversity_2010,
+	title = {Diversity and species composition of peracarids ({Crustacea}: {Malacostraca}) on the {South} {Greenland} shelf: spatial and temporal variation},
+	volume = {33},
+	issn = {1432-2056},
+	shorttitle = {Diversity and species composition of peracarids ({Crustacea}},
+	url = {https://doi.org/10.1007/s00300-009-0691-5},
+	doi = {10.1007/s00300-009-0691-5},
+	language = {en},
+	number = {2},
+	urldate = {2024-04-10},
+	journal = {Polar Biology},
+	author = {Stransky, Bente and Svavarsson, Jörundur},
+	month = feb,
+	year = {2010},
+	keywords = {Peracarida, Greenland, Shelf, Spatial and temporal variation, Species distribution},
+	pages = {125--139},
+}
+@article{havermans_genetic_2013,
+	title = {Genetic and {Morphological} {Divergences} in the {Cosmopolitan} {Deep}-{Sea} {Amphipod} {Eurythenes} gryllus {Reveal} a {Diverse} {Abyss} and a {Bipolar} {Species}},
+	volume = {8},
+	issn = {1932-6203},
+	url = {https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0074218},
+	doi = {10.1371/journal.pone.0074218},
+	language = {en},
+	number = {9},
+	urldate = {2024-04-10},
+	journal = {PLOS ONE},
+	author = {Havermans, Charlotte and Sonet, Gontran and d’Acoz, Cédric d’Udekem and Nagy, Zoltán T. and Martin, Patrick and Brix, Saskia and Riehl, Torben and Agrawal, Shobhit and Held, Christoph},
+	month = sep,
+	year = {2013},
+	note = {Publisher: Public Library of Science},
+	keywords = {Antarctica, Cryptic speciation, Deep sea, Haplotypes, Islands, Phylogenetic analysis, Phylogeography, Population genetics},
+	pages = {e74218},
+}
+@article{wilson_historical_1998,
+	title = {Historical influences on deep-sea isopod diversity in the {Atlantic} {Ocean}},
+	volume = {45},
+	issn = {0967-0645},
+	url = {https://www.sciencedirect.com/science/article/pii/S0967064597000465},
+	doi = {10.1016/S0967-0645(97)00046-5},
+	abstract = {Most isopod crustaceans in the North Atlantic deep sea belong to the suborder Asellota. In contrast, South Atlantic isopod faunas have a significant component of flabelliferan isopods, a phylogenetic clade that contains suborders derived evolutionarily later than the Asellota. The flabelliferans decrease diversity from shallow water to deep water and on a south-to-north latitudinal gradient. Although many asellote families are endemic to the deep sea, none of the flabelliferan families appear to have evolved in the abyss. Recent colonisations of the deep sea, which may have been limited to the southern hemisphere by oceanographic conditions, have significant consequences for observed regional diversities of some taxa. Instability in oceanographic conditions owing to glaciation and benthic storms may have further limited benthic species richness of the North Atlantic deep-sea benthos.},
+	number = {1},
+	urldate = {2024-04-10},
+	journal = {Deep Sea Research Part II: Topical Studies in Oceanography},
+	author = {Wilson, George D. F.},
+	month = jan,
+	year = {1998},
+	pages = {279--301},
+}
+@article{hansen_north_2000,
+	title = {North {Atlantic}–{Nordic} {Seas} exchanges},
+	volume = {45},
+	issn = {0079-6611},
+	url = {https://www.sciencedirect.com/science/article/pii/S007966119900052X},
+	doi = {10.1016/S0079-6611(99)00052-X},
+	number = {2},
+	urldate = {2024-04-07},
+	journal = {Progress in Oceanography},
+	author = {Hansen, B and Østerhus, S},
+	month = feb,
+	year = {2000},
+	pages = {109--208},
+}