Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
about
Accommodating dynamic oceanographic processes and pelagic biodiversity in marine conservation planning.Managing artificially drained low-gradient agricultural headwaters for enhanced ecosystem functionsMethodological challenges in assessing the environmental status of a marine ecosystem: case study of the Baltic Sea.Shifts in the spring herring (Clupea harengus membras) larvae and related environment in the eastern Baltic Sea over the past 50 years.Effects of altered offshore food webs on coastal ecosystems emphasize the need for cross-ecosystem management.Uncertainties in a Baltic sea food-web model reveal challenges for future projections.Baltic Sea management: Successes and failures.Ecology, evolution, and management strategies of northern pike populations in the Baltic Sea.The future of the oceans past: towards a global marine historical research initiative.Multi-decadal responses of a cod (Gadus morhua) population to human-induced trophic changes, fishing, and climate.Benthic diversity gradients and shifting baselines: implications for assessing environmental status.Hypoxia in the Baltic Sea: biogeochemical cycles, benthic fauna, and managementSeabird guano fertilizes Baltic Sea littoral food websDeclining coastal piscivore populations in the Baltic Sea: Where and when do sticklebacks matter?Quantifying the Adaptive Cycle.An empirical model of the Baltic Sea reveals the importance of social dynamics for ecological regime shifts.Shift of grey seal subspecies boundaries in response to climate, culling and conservation.The Spatial Dynamics of Predators and the Benefits and Costs of Sharing InformationHas eutrophication promoted forage fish production in the Baltic Sea?Declines in predatory fish promote bloom-forming macroalgae.Thiaminase activity of crucian carp Carassius carassius injected with a bacterial fish pathogen, Aeromonas salmonicida subsp. salmonicida.Population characteristics, habitat and diet of a recently discovered stingray Dasyatis marianae: implications for conservation.Size- and food-dependent growth drives patterns of competitive dominance along productivity gradients.Variation in salinity tolerance between and within anadromous subpopulations of pike (Esox 1ucius).Regime shifts in marine communities: a complex systems perspective on food web dynamics.Biomanipulation: a tool in marine ecosystem management and restoration?Multi-level trophic cascades in a heavily exploited open marine ecosystem.Dynamics of biological invasions and pathways over time: a case study of a temperate coastal seaSpecies and functional trait turnover in response to broad-scale change and an invasive speciesEcosystem impacts of the widespread non-indigenous species in the Baltic Sea: literature survey evidences major limitations in knowledgeImpacts of local human activities on the Antarctic environmentThe role of climate and fisheries on the temporal changes in the Bothnian Bay foodwebConfronting Feedbacks of Degraded Marine EcosystemsNutrient reduction and climate change cause a potential shift from pelagic to benthic pathways in a eutrophic marine ecosystemTemporal development of coastal ecosystems in the Baltic Sea over the past two decadesRegulating invasive species with different life historyThe land-sea interface: A source of high-quality phytoplankton to support secondary productionThe unintended consequences of simplifying the sea: making the case for complexityLow-frequency variability in North Sea and Baltic Sea identified through simulations with the 3-D coupled physical–biogeochemical model ECOSMOIndicator-Based Assessment of Marine Biological Diversity–Lessons from 10 Case Studies across the European Seas
P2860
Q21091063-0D159356-B7B6-4BE4-92B4-CCE96529A483Q28657999-A288A642-8BFA-48A5-9844-9B1A02334FBFQ30396251-6AEB0C0B-FA3D-48AC-9A70-72884D89C23EQ30441656-30D306C2-5FC9-4809-ADEF-24724089EB07Q30461407-0CA41B3C-E79E-407D-8540-ED11A5B2EFD8Q30559545-4E208DFD-54FB-4659-BC7E-31DEB29462DCQ30960902-3ECBA804-B0C6-4202-BAAC-5F5166528223Q30960945-4C9DC7CA-7BE2-47ED-82BD-B3D28370C368Q33838207-796A2335-D423-4FF5-ACC5-75EDB5275999Q33881083-66FF1261-1F0C-4245-BB31-AFEFCBF0FCFAQ34027639-373B005C-187F-4AAE-8F5F-575DD9A7B98BQ34658863-66DA6D64-5DB2-4035-B734-3FE5A10A59DFQ34674826-8D5A4DB8-27E3-40D9-9974-8B65D9E39DEFQ35661503-CCF70583-47AE-4471-B1FC-F24F0C5726F4Q35881511-1AA11902-C76C-4AF3-9B7C-1C4E3C8041DFQ36055592-044DEA8B-46A0-4822-8259-C986F2BDA08AQ36129539-4A3CF09D-DC73-4185-BAFC-79D8D96CAF7FQ36168972-6BB95DF3-7A3F-44B6-9B29-E54924EF2E1BQ39773748-A30CAF31-CCA7-4BEF-B742-CB17DBEAD12EQ39918819-2BBE628E-0965-475F-8132-0C3F8EF1E257Q43135695-2B8ABB23-E1D9-4228-A882-70B96466BFCBQ46779189-65CEF8E8-57CF-4EE7-AE37-8379A9E1E660Q47304389-E43AF18B-38B3-4AB5-8053-0B9752BDBB13Q47318448-006CCF91-C574-43AE-8A71-C2633220AB61Q51306287-9106F512-FD25-45DB-B7A9-BD09282F293DQ51609007-94ED1890-3B2B-4CC3-8585-F6ACB1D35804Q54513495-AB0D8550-6B16-49FF-B6D3-DCE0E86774D5Q56334992-B00EBBFC-E351-48AE-82CB-CC8629ACFA9CQ56417427-CA9B65F4-2359-434E-ABF6-011DEE982F16Q56434987-09F9C6A0-F7B2-4981-B0CC-F2F650EDF6C1Q56772348-0B087F4C-A3EF-4270-885E-0FC4CAA47CECQ57004234-C3ACCA8F-D504-4875-894B-532DF54C4295Q57030937-A7AD22A9-C1B1-4E2E-BF00-DC264F3C944DQ57039776-CF08C910-B8D3-461A-A380-FD0ADBDF7F91Q57045659-587D10F5-B604-46A3-B49B-D6482CED7ACCQ57059912-27673C28-AD9D-419A-A00A-B7E4D8993D20Q57064195-B68F1820-5A85-466B-BD4B-875679F1DD2AQ57261882-63D42892-4404-4F7F-AD46-6C4DBAD2853EQ57892773-15B182A1-83E1-40B7-A862-5E922102D0E0Q57900739-79B5B6E6-4CFF-46A8-85FF-4ADB4F843355
P2860
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
description
im Juli 2007 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2007
@uk
name
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@en
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@nl
type
label
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@en
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@nl
prefLabel
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@en
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@nl
P2093
P1433
P1476
Human-induced Trophic Cascades and Ecological Regime Shifts in the Baltic Sea
@en
P2093
Fredrik Wulff
Henrik Österblom
Olle Hjerne
Ragnar Elmgren
Sture Hansson
Ulf Larsson
P2888
P304
P356
10.1007/S10021-007-9069-0
P50
P577
2007-07-10T00:00:00Z