about
When giants turn up: sighting trends, environmental influences and habitat use of the manta ray Manta alfredi at a coral reef.Accommodating dynamic oceanographic processes and pelagic biodiversity in marine conservation planning.Stable isotope and signature fatty acid analyses suggest reef manta rays feed on demersal zooplanktonThe Pace of Shifting Climate in Marine and Terrestrial EcosystemsUnusually high levels of n-6 polyunsaturated fatty acids in whale sharks and reef manta raysManta birostris, predator of the deep? Insight into the diet of the giant manta ray through stable isotope analysis.IMOS National Reference Stations: a continental-wide physical, chemical and biological coastal observing system.Australian dust storm associated with extensive Aspergillus sydowii fungal "bloom" in coastal watersEcosystem-based fisheries management requires a change to the selective fishing philosophyManaging for interactions between local and global stressors of ecosystemsThe coral sea: physical environment, ecosystem status and biodiversity assets.Geographical limits to species-range shifts are suggested by climate velocity.From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic.Impact of climate change on marine pelagic phenology and trophic mismatch.Long-term oceanographic and ecological research in the Western English Channel.Ecological and methodological drivers of species' distribution and phenology responses to climate change.Climate change and marine plankton.Ocean science. Under-resourced, under threat.The jellyfish joyride: causes, consequences and management responses to a more gelatinous future.Multi-decadal oceanic ecological datasets and their application in marine policy and management.Mobulid rays feed on euphausiids in the Bohol Sea.How long can fisheries management delay action in response to ecosystem and climate change?Climate change and marine life.Predicting interactions among fishing, ocean warming, and ocean acidification in a marine system with whole-ecosystem models.Beyond climate change attribution in conservation and ecological research.Tropical marginal seas: priority regions for managing marine biodiversity and ecosystem function.Whale sharks target dense prey patches of sergestid shrimp off Tanzania.Laser photogrammetry improves size and demographic estimates for whale sharks.A database of marine phytoplankton abundance, biomass and species composition in Australian waters.Aspergillus Sydowii Marine Fungal Bloom in Australian Coastal Waters, Its Metabolites and Potential Impact on Symbiodinium Dinoflagellates.Prey Density Threshold and Tidal Influence on Reef Manta Ray Foraging at an Aggregation Site on the Great Barrier Reef.Anticyclonic eddies are more productive than cyclonic eddies in subtropical gyres because of winter mixing.Allometry and stoichiometry of unicellular, colonial and multicellular phytoplankton.Corrigendum: A database of marine phytoplankton abundance, biomass and species composition in Australian waters.Biology, ecology and conservation of the Mobulidae.DNA metabarcoding for diet analysis and biodiversity: A case study using the endangered Australian sea lion (Neophoca cinerea)Rethinking the Role of Salps in the Ocean.Dangerous jellyfish blooms are predictable.Biology and ecology of Irukandji jellyfish (Cnidaria: Cubozoa).From Bacteria to Whales: Using Functional Size Spectra to Model Marine Ecosystems.
P50
Q21090859-F08D210F-6108-4BFE-8AF3-4653F2B79699Q21091063-E9A8D8E6-AC6B-4D7E-9B89-A4038AB5A89FQ21559555-41D2CDBF-D14B-4D49-BD63-716A5196C7FFQ24289124-C85530D3-1619-495E-ACA3-0AA2B02CA82EQ24619260-43EF8D4B-C663-4777-B013-8BA04EBCD73EQ27968240-ADFBB58D-6084-486D-9731-DF87DB51EE28Q28542745-B5C4A4DD-F283-432C-8E9D-B054654689A3Q28657455-9B0DF84E-44C1-4AB7-84DB-C7A1DD9A05B5Q30388750-0A3E30E0-3647-4718-82DC-556A8C458980Q30649957-D9C29BEB-B356-4D8A-817D-76CE3BFDF69CQ30687809-273B18C4-268B-4C9F-A26A-4560D644F976Q30752784-955AB344-95C2-4BFD-81BB-905D626173CDQ30815628-814A5481-8109-4B8B-B653-7BFDE430A896Q30952772-CDAEAC22-6035-4DFC-B8E8-E630C72B5A60Q30978365-74D5A4EE-73BA-49F5-B53A-075FEED4CBBEQ31031840-032FFF02-65B3-40D2-981E-C974962CF0FDQ31040700-14D0A5AB-881E-4EC2-85FC-F50016F26AB1Q33340929-ADEAAE10-D6E4-4F9F-A662-054FD6CBD12EQ33422708-7538C73C-CDEA-4CB2-B0D9-AEAF800CB78FQ33683036-C9ECA6B8-626A-42F1-BD22-C1210E2CDD6DQ33748051-AB5FF790-E2D9-4352-8388-487724A88126Q34218112-C2E6F60D-C59A-4EDD-BE09-755ED205CACCQ34335368-2E7BD382-B997-406E-86B0-D4883765A06FQ34420837-BCDB7421-7D29-463E-9676-F58EAE64906EQ34725536-AC2457AE-3FED-4C1B-A97C-D13E96511160Q35017690-6CA6F44A-A871-4936-8CAA-F3D20E817ED6Q35212049-7665EB5C-2C4F-4256-89B7-7D10BD4858CDQ35371667-58C021FE-7356-4BA4-B0F0-4FA40F95BECCQ36058084-9AE8F1CF-BEE9-462A-9DF3-04FAC04FE15CQ36735311-7A750406-F48E-419A-94B1-AE382E900187Q36868808-F5C3702F-6535-42B4-81DC-2664DFC6DC9FQ37056179-786A1A52-BD37-46E1-B5A4-6FBCC6993438Q37361668-1CA2A572-FBAA-46F0-8B25-E65B61963A97Q37477322-71A2306E-1D6C-450D-91A9-558FDC65E9FAQ38002072-A267953C-C439-4846-8403-477F14BE0B32Q38645426-502D9769-151D-4536-AE68-D5043010A6F6Q38839117-7D5D21AA-D3F2-4C65-BE2C-CCD93910BD3FQ39021041-369DB06A-7517-43EB-898D-2CAF07B1AD1CQ39021045-8EC2B4CF-5BC9-4963-A0A8-8000BC4E7C2AQ39097500-C66762A0-8B43-4727-995B-E966E30859C7
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-9289-7366
@en
name
Anthony J Richardson
@ast
Anthony J Richardson
@en
Anthony J Richardson
@es
Anthony J Richardson
@nl
type
label
Anthony J Richardson
@ast
Anthony J Richardson
@en
Anthony J Richardson
@es
Anthony J Richardson
@nl
prefLabel
Anthony J Richardson
@ast
Anthony J Richardson
@en
Anthony J Richardson
@es
Anthony J Richardson
@nl
P106
P1153
7402534112
P21
P31
P496
0000-0002-9289-7366