8/10/2019 Hayden Beck - Final PhD - References

1/3

Hayden Beck - PhD Final Seminar - References

Afonso P, Porteiro F, Fontes J, Tempera F, Morato T, Cardigos F, Santos R (2013) New and

rare coastal fishes in the Azores islands: occasional events or tropicalization process?

Journal of Fish Biology 83 (2):272-294.

Angert AL, Crozier LG, Rissler LJ, Gilman SE, Tewksbury JJ, Chunco AJ (2011) Do species traits

predict recent shifts at expanding range edges? Ecology Letters 14:677-689.

Angert AL, LaDeau SL, Ostfeld RS (2013) Climate change and species interactions: ways

forward. Annals of the New York Academy of Sciences 1297 (1):1-7.

Arrontes J (2002) Mechanisms of range expansion in the intertidal brown alga Fucus serratus

in northern Spain. Marine Biology 141 (6):1059-1067.

Baker R, Sheaves M (2005) Redefining the piscivore assemblage of shallow estuarine nursery

habitats. Marine Ecology Progress Series 291:197-213.

Baker R, Sheaves M (2006) Visual surveys reveal high densities of large piscivores in shallow

estuarine nurseries. Marine Ecology Progress Series 323:75-82.

Baker R, Sheaves M (2009) Overlooked small and juvenile piscivores dominate shallow-water estuarine refuges in tropical Australia. Estuarine, Coastal and Shelf Science

85 (4):618-626.

Barneche DR, Anderson AB, Floeter SR, Silveira M, Dinslaken DF, Carvalho-Filho A (2009) Ten

new records of reef fish on the coast of Santa Catarina State, Brazil. Marine

Biodiversity Records 2:e143.

Bates AE, Pecl GT, Frusher S, Hobday AJ, Wernberg T, Smale DA, Sunday JM, Hill NA, Dulvy

NK, Colwell RK (2014) Defining and observing stages of climate-mediated range shifts

in marine systems. Global Environmental Change 26:27-38.

Beck HJ, Feary DA, Figueira WF, Booth DJ (2014) Assessing range-shifts of tropical reef

fishes: a comparison of belt transect and roaming underwater census methods.Bulletin of Marine Science 90 (2):705-721.

Booth DJ, Figueira WF, Gregson MA, Brown L, Beretta G (2007) Occurrence of tropical fishes

in temperate southeastern Australia: Role of the East Australian Current. Estuarine,

Coastal and Shelf Science 72 (1-2):102-114.

Chen IC, Hill JK, Ohlemller R, Roy DB, Thomas CD (2011) Rapid range shifts of species

associated with high levels of climate warming. Science 333 (6045):1024-1026.

Feary DA, Pratchett MS, Emslie MJ, Fowler AM, Figueira WF, Luiz OJ, Nakamura Y, Booth DJ

(2014) Latitudinal shifts in coral reef fishes: why some species do and others do not

shift. Fish and Fisheries 15 (4):593-615.

Figueira WF, Booth DJ (2010) Increasing ocean temperatures allow tropical fishes to surviveoverwinter in temperate waters. Global Change Biology 16 (2):506-516.

Florance D, Webb JK, Dempster T, Kearney MR, Worthing A, Letnic M (2011) Excluding

access to invasion hubs can contain the spread of an invasive vertebrate.

Proceedings of the Royal Society B: Biological Sciences 278 (1720):2900-2908.

Fodrie F, Heck KL, Powers SP, Graham WM, Robinson KL (2010) Climate-related, decadal-

scale assemblage changes of seagrass-associated fishes in the northern Gulf of

Mexico. Global Change Biology 16 (1):48-59.

Francis MP, Worthington CJ, Saul P, Clements KD (1999) New and rare tropical and

subtropical fishes from northern New Zealand. New Zealand Journal of Marine and

Freshwater Research 33 (4):571-586.

8/10/2019 Hayden Beck - Final PhD - References

2/3

Fulton CJ, Bellwood DR (2004) Wave exposure, swimming performance, and the structure of

tropical and temperate reef fish assemblages. Marine Biology 144 (3):429-437.

Gaston KJ (2009) Geographic range limits: achieving synthesis. Proceedings of the Royal

Society B: Biological Sciences 276 (1661):1395-1406.

Heath MR, Neat FC, Pinnegar JK, Reid DG, Sims DW, Wright PJ (2012) Review of climate

change impacts on marine fish and shellfish around the UK and Ireland. Aquatic

Conservation: Marine and Freshwater Ecosystems.

Hill NA, Pepper AR, Puotinen ML, Hughes MG, Edgar GJ, Barrett NS, Stuart-Smith RD, Leaper

R (2010) Quantifying wave exposure in shallow temperate reef systems: applicability

of fetch models for predicting algal biodiversity. Marine Ecology Progress Series

417:83-95.

HilleRisLambers J, Harsch MA, Ettinger AK, Ford KR, Theobald EJ (2013) How will biotic

interactions influence climate changeinduced range shifts? Annals of the New York

Academy of Sciences 1297:112-125.

Hoey AS, Bellwood DR (2011) Suppression of herbivory by macroalgal density: a critical

feedback on coral reefs? Ecology Letters 14 (3):267-273.Hutchins JB, Pearce AF (1994) Influence of the Leeuwin Current on recruitment of tropical

reef fishes at Rottnest Island, Western Australia. Bulletin of Marine Science 54

(1):245-255.

Jones GP (1992) Interactions between herbivorous fishes and macro-algae on a temperate

rocky reef. Journal of Experimental Marine Biology and Ecology 159 (2):217-235.

Kim SW, Chung M, Park H (2014) Tropical fish species thriving in temperate Korean waters.

Marine Biodiversity.

Lloyd P, Plaganyi EE, Weeks SJ, Magno-Canto M, Plaganyi G (2012) Ocean warming alters

species abundance patterns and increases species diversity in an African sub-tropical

reef-fish community. Fisheries Oceanography 21 (1):78-94.Luiz OJ, Carvalho-Filho A, Ferreira CE, Floeter SR, Gasparini JL, Sazima I (2008) The reef fish

assemblage of the Laje de Santos Marine State Park, Southwestern Atlantic:

annotated checklist with comments on abundance, distribution, trophic structure,

symbiotic associations, and conservation. Zootaxa 1807:1-25.

Madin EMP, Gaines SD, Warner RR (2010) Field evidence for pervasive indirect effects of

fishing on prey foraging behavior. Ecology 91 (12):3563-3571.

Madin JS, Baird AH, Dornelas M, Connolly SR (2014) Mechanical vulnerability explains size-

dependent mortality of reef corals. Ecology Letters 17 (8):1008-1015.

Nakamura Y, Feary DA, Kanda M, Yamaoka K (2013) Tropical fishes dominate temperate reef

fish communities within western Japan. PloS One 8 (12):e81107.Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across

natural systems. Nature 421 (6918):37-42.

Pereira HM, Leadley PW, Proena V, Alkemade R, Scharlemann JP, Fernandez-Manjarrs JF,

Arajo MB, Balvanera P, Biggs R, Cheung WW (2010) Scenarios for global biodiversity

in the 21st century. Science 330 (6010):1496-1501.

Sanford E, Swezey DS (2008) Response of predatory snails to a novel prey following the

geographic range expansion of an intertidal barnacle. Journal of Experimental

Marine Biology and Ecology 354 (2):220-230.

Sexton JP, McIntyre PJ, Angert AL, Rice KJ (2009) Evolution and ecology of species range

limits. Annual Review of Ecology, Evolution, and Systematics 40:415-436.

8/10/2019 Hayden Beck - Final PhD - References

3/3

Sorte CJ, Williams SL, Carlton JT (2010) Marine range shifts and species introductions:

comparative spread rates and community impacts. Global Ecology and Biogeography

19 (3):303-316.

Vergs A, Steinberg PD, Hay ME, Poore AG, Campbell AH, Ballesteros E, Heck KL, Booth DJ,

Coleman MA, Feary DA (2014) The tropicalization of temperate marine ecosystems:

climate-mediated changes in herbivory and community phase shifts. Proceedings of

the Royal Society B: Biological Sciences 281 (1789):20140846.

Wenger AS, McCormick MI, McLeod IM, Jones GP (2013) Suspended sediment alters

predatorprey interactions between two coral reef fishes. Coral Reefs 32 (2):369-

374.

Wernberg T, Smale DA, Tuya F, Thomsen MS, Langlois TJ, de Bettignies T, Bennett S,

Rousseaux CS (2012) An extreme climatic event alters marine ecosystem structure in

a global biodiversity hotspot. Nature Climate Change 3:78-82.

Wu L, Cai W, Zhang L, Nakamura H, Timmermann A, Joyce T, McPhaden MJ, Alexander M,

Qiu B, Visbeck M (2012) Enhanced warming over the global subtropical western

boundary currents. Nature Climate Change 2 (3):161-166.