High Impact Factor articles: list 2015-2020

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Number of articles [IF≥5]:50, on 2020, December 02^th
The list has been updated after the 2019′ IF publication.

1) ARIVALAGAN J., YARRA T., MARIE B., SLEIGHT V.A., DUVERNOIS-BERTHET E., CLARK M.S., MARIE A. & BERLAND S. 2017. — Insights from the Shell Proteome: Biomineralization to Adaptation. Molecular Biology and Evolution 34 (1): 66–77. https://doi.org/10.1093/molbev/msw219
2) ASHTON G.V., MORLEY S.A., BARNES D.K.A., CLARK M.S. & PECK L.S. 2017. — Warming by 1°C Drives Species and Assemblage Level Responses in Antarctica’s Marine Shallows. Current Biology 27 (17): 2698-2705.e3. https://doi.org/10.1016/j.cub.2017.07.048
3) BAKKER D.M., VAN DUYL F.C., PERRY C.T. & MEESTERS E.H. 2019. — Extreme spatial heterogeneity in carbonate accretion potential on a Caribbean fringing reef linked to local human disturbance gradients. Global Change Biology 25 (12): 4092–4104. https://doi.org/10.1111/gcb.14800
4) BARNES D.K.A., IRELAND L., HOGG O.T., MORLEY S., ENDERLEIN P. & SANDS C.J. 2016. — Why is the South Orkney Island shelf (the world’s first high seas marine protected area) a carbon immobilization hotspot? Global Change Biology 22 (3): 1110–1120. https://doi.org/10.1111/gcb.13157
5) BENNETT S., WERNBERG T., DE BETTIGNIES T., KENDRICK G.A., ANDERSON R.J., BOLTON J.J., RODGERS K.L., SHEARS N.T., LECLERC J.-C., LÉVÊQUE L., DAVOULT D. & CHRISTIE H.C. 2015. — Canopy interactions and physical stress gradients in subtidal communities, in WORM B. (ed.). Ecology Letters 18 (7): 677–686. https://doi.org/10.1111/ele.12446
6) BERGE J., DAASE M., RENAUD P.E., AMBROSE W.G., DARNIS G., LAST K.S., LEU E., COHEN J.H., JOHNSEN G., MOLINE M.A., COTTIER F., VARPE Ø., SHUNATOVA N., BALAZY P., MORATA N., MASSABUAU J.-C., FALK-PETERSEN S., KOSOBOKOVA K., HOPPE C.J.M., WESLAWSKI J.M., KUKLINSKI P., LEGEZYNSKA J., NIKISHINA D., CUSA M., KEDRA M., WLODARSKA-KOWALCZUK M., VOGEDES D., CAMUS L., TRAN D., MICHAUD E., GABRIELSEN T.M., GRANOVITCH A., GONCHAR A., KRAPP R. & CALLESEN T.A. 2015. — Unexpected Levels of Biological Activity during the Polar Night Offer New Perspectives on a Warming Arctic. Current Biology 25 (19): 2555–2561. https://doi.org/10.1016/j.cub.2015.08.024
7) BOISSIN E., MICU D., JANCZYSZYN-LE GOFF M., NEGLIA V., BAT L., TODOROVA V., PANAYOTOVA M., KRUSCHEL C., MACIC V., MILCHAKOVA N., KESKIN Ç., ANASTASOPOULOU A., NASTO I., ZANE L. & PLANES S. 2016. — Contemporary genetic structure and postglacial demographic history of the black scorpionfish, Scorpaena porcus, in the Mediterranean and the Black Seas. Molecular Ecology 25 (10): 2195–2209. https://doi.org/10.1111/mec.13616
8) BRENER-RAFFALLI K., CLERISSI C., VIDAL-DUPIOL J., ADJEROUD M., BONHOMME F., PRATLONG M., AURELLE D., MITTA G. & TOULZA E. 2018. — Thermal regime and host clade, rather than geography, drive Symbiodinium and bacterial assemblages in the scleractinian coral Pocillopora damicornis sensu lato. Microbiome 6 (1). https://doi.org/10.1186/s40168-018-0423-6
9) BROCKE H.J., WENZHOEFER F., DE BEER D., MUELLER B., VAN DUYL F.C. & NUGUES M.M. 2015. — High dissolved organic carbon release by benthic cyanobacterial mats in a Caribbean reef ecosystem. Scientific Reports 5 (1). https://doi.org/10.1038/srep08852
10) BROWN N.E.M., MILAZZO M., RASTRICK S.P.S., HALL-SPENCER J.M., THERRIAULT T.W. & HARLEY C.D.G. 2018. — Natural acidification changes the timing and rate of succession, alters community structure, and increases homogeneity in marine biofouling communities. Global Change Biology 24 (1): e112–e127. https://doi.org/10.1111/gcb.13856
11) BURGOS E., MONTEFALCONE M., FERRARI M., PAOLI C., VASSALLO P., MORRI C. & BIANCHI C.N. 2017. — Ecosystem functions and economic wealth: Trajectories of change in seagrass meadows. Journal of Cleaner Production 168: 1108–1119. https://doi.org/10.1016/j.jclepro.2017.09.046
12) CACHET N., GENTA-JOUVE G., IVANISEVIC J., CHEVALDONNÉ P., SINNIGER F., CULIOLI G., PÉREZ T. & THOMAS O.P. 2015. — Metabolomic profiling reveals deep chemical divergence between two morphotypes of the zoanthid Parazoanthus axinellae. Scientific Reports 5 (1). https://doi.org/10.1038/srep08282
13) CAHILL A.E., DE JODE A., DUBOIS S., BOUZAZA Z., AURELLE D., BOISSIN E., CHABROL O., DAVID R., EGEA E., LEDOUX J.-B., MÉRIGOT B., WEBER A.A.-T. & CHENUIL A. 2017. — A multispecies approach reveals hot spots and cold spots of diversity and connectivity in invertebrate species with contrasting dispersal modes. Molecular Ecology 26 (23): 6563–6577. https://doi.org/10.1111/mec.14389
14) CHENUIL A., SAUCÈDE T., HEMERY L.G., ELÉAUME M., FÉRAL J.-P., AMÉZIANE N., DAVID B., LECOINTRE G. & HAVERMANS C. 2018. — Understanding processes at the origin of species flocks with a focus on the marine Antarctic fauna: Understanding the origins of species flocks. Biological Reviews 93 (1): 481–504. https://doi.org/10.1111/brv.12354
15) CLARK M.S., SOMMER U., SIHRA J.K., THORNE M.A.S., MORLEY S.A., KING M., VIANT M.R. & PECK L.S. 2017. — Biodiversity in marine invertebrate responses to acute warming revealed by a comparative multi-omics approach. Global Change Biology 23 (1): 318–330. https://doi.org/10.1111/gcb.13357
16) CLARK M.S., VILLOTA NIEVA L., HOFFMAN J.I., DAVIES A.J., TRIVEDI U.H., TURNER F., ASHTON G.V. & PECK L.S. 2019. — Lack of long-term acclimation in Antarctic encrusting species suggests vulnerability to warming. Nature Communications 10 (1). https://doi.org/10.1038/s41467-019-11348-w
17) CROSS E.L., HARPER E.M. & PECK L.S. 2019. — Thicker Shells Compensate Extensive Dissolution in Brachiopods under Future Ocean Acidification. Environmental Science & Technology 53 (9): 5016–5026. https://doi.org/10.1021/acs.est.9b00714
18) DE LOS SANTOS C.B., KRAUSE-JENSEN D., ALCOVERRO T., MARBA N., DUARTE C.M., VAN KATWIJK M.M., PEREZ M., ROMERO J., SANCHEZ-LIZASO J.L., ROCA G., JANKOWSKA E., PEREZ-LLORENS J.L., FOURNIER J., MONTEFALCONE M., PERGENT G., RUIZ J.M., CABAÇO S., COOK K., WILKES R.J., MOY F.E., TRAYTER G.M.-R., ARAÑO X.S., DE JONG D.J., FERNANDEZ-TORQUEMADA Y., AUBY I., VERGARA J.J. & SANTOS R. 2019. — Recent trend reversal for declining European seagrass meadows. Nature Communications 10 (1). https://doi.org/10.1038/s41467-019-11340-4
19) DESCOMBES P., WISZ M.S., LEPRIEUR F., PARRAVICINI V., HEINE C., OLSEN S.M., SWINGEDOUW D., KULBICKI M., MOUILLOT D. & PELLISSIER L. 2015. — Forecasted coral reef decline in marine biodiversity hotspots under climate change. Global Change Biology 21 (7): 2479–2487. https://doi.org/10.1111/gcb.12868
20) DUFFY J.E., REYNOLDS P.L., BOSTRÖM C., COYER J.A., CUSSON M., DONADI S., DOUGLASS J.G., EKLÖF J.S., ENGELEN A.H., ERIKSSON B.K., FREDRIKSEN S., GAMFELDT L., GUSTAFSSON C., HOARAU G., HORI M., HOVEL K., IKEN K., LEFCHECK J.S., MOKSNES P.-O., NAKAOKA M., O’CONNOR M.I., OLSEN J.L., RICHARDSON J.P., RUESINK J.L., SOTKA E.E., THORMAR J., WHALEN M.A. & STACHOWICZ J.J. 2015. — Biodiversity mediates top-down control in eelgrass ecosystems: a global comparative-experimental approach, in WORM B. (ed.). Ecology Letters 18 (7): 696–705. https://doi.org/10.1111/ele.12448
21) DUTEL H., HERBIN M., CLÉMENT G. & HERREL A. 2015. — Bite Force in the Extant Coelacanth Latimeria: The Role of the Intracranial Joint and the Basicranial Muscle. Current Biology 25 (9): 1228–1233. https://doi.org/10.1016/j.cub.2015.02.076
22) FERRARIO F., IVEŠA L., JAKLIN A., PERKOL-FINKEL S. & AIROLDI L. 2016. — The overlooked role of biotic factors in controlling the ecological performance of artificial marine habitats, in SIQUEIRA T. (ed.). Journal of Applied Ecology 53 (1): 16–24. https://doi.org/10.1111/1365-2664.12533
23) GARILLI V., RODOLFO-METALPA R., SCUDERI D., BRUSCA L., PARRINELLO D., RASTRICK S.P.S., FOGGO A., TWITCHETT R.J., HALL-SPENCER J.M. & MILAZZO M. 2015. — Physiological advantages of dwarfing in surviving extinctions in high-CO2 oceans. Nature Climate Change 5 (7): 678–682. https://doi.org/10.1038/nclimate2616
24) GUSTAFSSON C. & NORKKO A. 2019. — Quantifying the importance of functional traits for primary production in aquatic plant communities, in AUSTIN A. (ed.). Journal of Ecology 107 (1): 154–166. https://doi.org/10.1111/1365-2745.13011
25) HARPER E.M. & PECK L.S. 2016. — Latitudinal and depth gradients in marine predation pressure: Gradients in marine predation pressure. Global Ecology and Biogeography 25 (6): 670–678. https://doi.org/10.1111/geb.12444
26) KRASNOBAEV A., TEN DAM G., BOERRIGTER-EENLING R., PENG F., VAN LEEUWEN S.P.J., MORLEY S.A., PECK L.S. & VAN DEN BRINK N.W. 2020. — Legacy and Emerging Persistent Organic Pollutants in Antarctic Benthic Invertebrates near Rothera Point, Western Antarctic Peninsula. Environmental Science & Technology. https://doi.org/10.1021/acs.est.9b06622
27) LAVROV D.V., ADAMSKI M., CHEVALDONNÉ P. & ADAMSKA M. 2016. — Extensive Mitochondrial mRNA Editing and Unusual Mitochondrial Genome Organization in Calcaronean Sponges. Current Biology 26 (1): 86–92. https://doi.org/10.1016/j.cub.2015.11.043
28) LEPPÄNEN J.J., LEINIKKI J. & VÄISÄNEN A. 2020. — NiSO4 spill inflicts varying mortality between four freshwater mussel species (including protected Unio crassus Philipsson, 1788) in a western Finnish river. Environmental Pollution 256: 113402. https://doi.org/10.1016/j.envpol.2019.113402
29) LUCEY N.M., LOMBARDI C., DEMARCHI L., SCHULZE A., GAMBI M.C. & CALOSI P. 2015. — To brood or not to brood: Are marine invertebrates that protect their offspring more resilient to ocean acidification? Scientific Reports 5 (1). https://doi.org/10.1038/srep12009
30) MALIK A., EINBINDER S., MARTINEZ S., TCHERNOV D., HAVIV S., ALMULY R., ZASLANSKY P., POLISHCHUK I., POKROY B., STOLARSKI J. & MASS T. 2020. — Molecular and skeletal fingerprints of scleractinian coral biomineralization: From the sea surface to mesophotic depths. Acta Biomaterialia. https://doi.org/10.1016/j.actbio.2020.01.010
31) MONTEFALCONE M., MORRI C. & BIANCHI C.N. 2018. — Long-term change in bioconstruction potential of Maldivian coral reefs following extreme climate anomalies. Global Change Biology 24 (12): 5629–5641. https://doi.org/10.1111/gcb.14439
32) MORLEY S.A., PECK L.S., SUNDAY J.M., HEISER S. & BATES A.E. 2019. — Physiological acclimation and persistence of ectothermic species under extreme heat events, in ALGAR A. (ed.). Global Ecology and Biogeography 28 (7): 1018–1037. https://doi.org/10.1111/geb.12911
33) PARRAVICINI V., AZZURRO E., KULBICKI M. & BELMAKER J. 2015. — Niche shift can impair the ability to predict invasion risk in the marine realm: an illustration using Mediterranean fish invaders, in BYERS J. (ed.). Ecology Letters 18 (3): 246–253. https://doi.org/10.1111/ele.12401
34) PECK L.S. 2016. — A Cold Limit to Adaptation in the Sea. Trends in Ecology & Evolution 31 (1): 13–26. https://doi.org/10.1016/j.tree.2015.09.014
35) PESSARRODONA A., FOGGO A. & SMALE D.A. 2019. — Can ecosystem functioning be maintained despite climate‐driven shifts in species composition? Insights from novel marine forests, in NILSSON C. (ed.). Journal of Ecology 107 (1): 91–104. https://doi.org/10.1111/1365-2745.13053
36) PESSARRODONA A., MOORE P.J., SAYER M.D.J. & SMALE D.A. 2018. — Carbon assimilation and transfer through kelp forests in the NE Atlantic is diminished under a warmer ocean climate. Global Change Biology 24 (9): 4386–4398. https://doi.org/10.1111/gcb.14303
37) PRATLONG M., HAGUENAUER A., CHABROL O., KLOPP C., PONTAROTTI P. & AURELLE D. 2015. — The red coral (Corallium rubrum) transcriptome: a new resource for population genetics and local adaptation studies. Molecular Ecology Resources 15 (5): 1205–1215. https://doi.org/10.1111/1755-0998.12383
38) ROBUCHON M., VALERO M., THIÉBAUT E. & LE GALL L. 2017. — Multi-scale drivers of community diversity and composition across tidal heights: an example on temperate seaweed communities, in RANDALL HUGHES A. (ed.). Journal of Ecology 105 (6): 1791–1805. https://doi.org/10.1111/1365-2745.12781
39) RODOLFO-METALPA R., MONTAGNA P., ALIANI S., BORGHINI M., CANESE S., HALL-SPENCER J.M., FOGGO A., MILAZZO M., TAVIANI M. & HOULBRÈQUE F. 2015. — Calcification is not the Achilles’ heel of cold-water corals in an acidifying ocean. Global Change Biology 21 (6): 2238–2248. https://doi.org/10.1111/gcb.12867
40) RUPPÉ L., CLÉMENT G., HERREL A., BALLESTA L., DÉCAMPS T., KÉVER L. & PARMENTIER E. 2015. — Environmental constraints drive the partitioning of the soundscape in fishes. Proceedings of the National Academy of Sciences 112 (19): 6092–6097. https://doi.org/10.1073/pnas.1424667112
41) SMITH J.N., DE’ATH G., RICHTER C., CORNILS A., HALL-SPENCER J.M. & FABRICIUS K.E. 2016. — Ocean acidification reduces demersal zooplankton that reside in tropical coral reefs. Nature Climate Change 6 (12): 1124–1129. https://doi.org/10.1038/nclimate3122
42) SMITH O., MOMBER G., BATES R., GARWOOD P., FITCH S., PALLEN M., GAFFNEY V. & ALLABY R.G. 2015. — Sedimentary DNA from a submerged site reveals wheat in the British Isles 8000 years ago. Science 347 (6225): 998–1001. https://doi.org/10.1126/science.1261278
43) SPICER J.I. & MORLEY S.A. 2019. — Will giant polar amphipods be first to fare badly in an oxygen-poor ocean? Testing hypotheses linking oxygen to body size. Philosophical Transactions of the Royal Society B: Biological Sciences 374 (1778): 20190034. https://doi.org/10.1098/rstb.2019.0034
44) SUNDAY J.M., FABRICIUS K.E., KROEKER K.J., ANDERSON K.M., BROWN N.E., BARRY J.P., CONNELL S.D., DUPONT S., GAYLORD B., HALL-SPENCER J.M., KLINGER T., MILAZZO M., MUNDAY P.L., RUSSELL B.D., SANFORD E., THIYAGARAJAN V., VAUGHAN M.L.H., WIDDICOMBE S. & HARLEY C.D.G. 2017. — Ocean acidification can mediate biodiversity shifts by changing biogenic habitat. Nature Climate Change 7 (1): 81–85. https://doi.org/10.1038/nclimate3161
45) TEMMINK R.J.M., CHRISTIANEN M.J.A., FIVASH G.S., ANGELINI C., BOSTRÖM C., DIDDEREN K., ENGEL S.M., ESTEBAN N., GAECKLE J.L., GAGNON K., GOVERS L.L., INFANTES E., VAN KATWIJK M.M., KIPSON S., LAMERS L.P.M., LENGKEEK W., SILLIMAN B.R., VAN TUSSENBROEK B.I., UNSWORTH R.K.F., YAAKUB S.M., BOUMA T.J. & VAN DER HEIDE T. 2020. — Mimicry of emergent traits amplifies coastal restoration success. Nature Communications 11 (1). https://doi.org/10.1038/s41467-020-17438-4
46) WEBB A.L., HUGHES K.A., GRAND M.M., LOHAN M.C. & PECK L.S. 2020. — Sources of elevated heavy metal concentrations in sediments and benthic marine invertebrates of the western Antarctic Peninsula. Science of The Total Environment 698: 134268. https://doi.org/10.1016/j.scitotenv.2019.134268
47) WEBER A.A.-T., ABI-RACHED L., GALTIER N., BERNARD A., MONTOYA-BURGOS J.I. & CHENUIL A. 2017. — Positive selection on sperm ion channels in a brooding brittle star: consequence of life-history traits evolution. Molecular Ecology 26 (14): 3744–3759. https://doi.org/10.1111/mec.14024
48) WEBER A.A.-T., MÉRIGOT B., VALIÈRE S. & CHENUIL A. 2015. — Influence of the larval phase on connectivity: strong differences in the genetic structure of brooders and broadcasters in the Ophioderma longicauda species complex. Molecular Ecology 24 (24): 6080–6094. https://doi.org/10.1111/mec.13456
49) WOLFE K. & MUMBY P.J. 2020. — RUbble Biodiversity Samplers: 3D‐printed coral models to standardize biodiversity censuses, in ELLISON A. (ed.). Methods in Ecology and Evolution 11 (11): 1395–1400. https://doi.org/10.1111/2041-210X.13462
50) ZWERSCHKE N., REIN H., HARROD C., REDDIN C., EMMERSON M.C., ROBERTS D. & O’CONNOR N.E. 2018. — Competition between co‐occurring invasive and native consumers switches between habitats, in HIGHAM T. (ed.). Functional Ecology 32 (12): 2717–2729. https://doi.org/10.1111/1365-2435.13211