Emergence of Anoxia in the California Current Large Marine Ecosystem
about
A year in hypoxia: epibenthic community responses to severe oxygen deficit at a subsea observatory in a coastal inletAn overview of marine biodiversity in United States waters.The Impact of Climate Change on the World's Marine EcosystemsThresholds of hypoxia for marine biodiversityClimate mediates hypoxic stress on fish diversity and nursery function at the land-sea interface.Carbon and nitrogen isotopes from top predator amino acids reveal rapidly shifting ocean biochemistry in the outer California Current.Carbon system measurements and potential climatic drivers at a site of rapidly declining ocean pHEcosystem impacts of geoengineering: a review for developing a science planIndividual to community-level faunal responses to environmental change from a marine fossil record of Early Miocene global warmingRapid environmental change over the past decade revealed by isotopic analysis of the California mussel in the northeast PacificClimate-Forced Variability of Ocean HypoxiaAutomated image analysis for the detection of benthic crustaceans and bacterial mat coverage using the VENUS undersea cabled network.Oxygen: a fundamental property regulating pelagic ecosystem structure in the coastal southeastern tropical PacificProcesses influencing seasonal hypoxia in the northern California Current SystemAcoustic observation of living organisms reveals the upper limit of the oxygen minimum zone.Climate change. Climate change and wind intensification in coastal upwelling ecosystems.Climate science: The future of coastal ocean upwelling.The growing human footprint on coastal and open-ocean biogeochemistry.Hypoxic Induced Decrease in Oxygen Consumption in Cuttlefish (Sepia officinalis) Is Associated with Minor Increases in Mantle Octopine but No Changes in Markers of Protein Turnover.Warming up, turning sour, losing breath: ocean biogeochemistry under global change.Coastal upwelling supplies oxygen-depleted water to the Columbia River estuary.Evidence that marine reserves enhance resilience to climatic impacts.Time domains of the hypoxic ventilatory response in ectothermic vertebrates.Spreading dead zones and consequences for marine ecosystems.Effects of ecological engineered oxygenation on the bacterial community structure in an anoxic fjord in western SwedenOxygen limitations on marine animal distributions and the collapse of epibenthic community structure during shoaling hypoxia.Avoiding a crisis of motivation for ocean management under global environmental change.Finfish and aquatic invertebrate pathology resources for now and the future.Oceanography. Centennial changes in North Pacific anoxia linked to tropical trade winds.Recent increase in Nybelinia surmenicola prevalence and intensity in Pacific hake (Merluccius productus) off the United States west coast.A method to identify estuarine water quality exceedances associated with ocean conditions.Cadmium affects metabolic responses to prolonged anoxia and reoxygenation in eastern oysters (Crassostrea virginica).Climate change and ocean deoxygenation within intensified surface-driven upwelling circulations.Are large macroalgal blooms necessarily bad? Nutrient impacts on seagrass in upwelling-influenced estuaries.Structural and functional analysis of coral Hypoxia Inducible Factor.Can variable pH and low oxygen moderate ocean acidification outcomes for mussel larvae?Rapid progression of ocean acidification in the California Current System.Future changes in coastal upwelling ecosystems with global warming: The case of the California Current System.Lower hypoxia thresholds of cuttlefish early life stages living in a warm acidified ocean.Oceanography: Dead in the water.
P2860
Q21134032-C2037EE6-5DCA-4AA8-BE5D-3813E8864AD1Q21562181-8EF3E000-8C1C-4E94-9291-C4AAC8380E30Q24289127-FDB033F6-B227-4092-8ED8-72FD60CF888BQ24642610-BAB46EDC-D6FC-4987-841D-3304665DBB0EQ27323097-370C37FC-D7D7-4D31-A081-DF803C9A5979Q28543905-B5401F26-6FE1-4027-A673-D420D58A3798Q28710171-8DE68A58-C5B6-4D32-9122-BAAB33423CA9Q28727329-C1992948-30C0-4412-83B1-D69BD0543712Q28730296-42623A88-BA7E-4979-B598-CEB26332107EQ28744332-18A3EC08-9484-4A9D-BCB8-C3EF875E17F8Q29299791-423F57F8-2A62-4ED4-BA4C-90D09106AE6DQ30470496-3D857FB7-F918-4CD1-B2AA-690FFDC0F6D4Q30471665-3EFA5E47-20E2-437D-8171-D68F846B055BQ30481540-266F720B-0809-4E1E-9AAD-CEAB7671AD7DQ30481607-A56608A2-D83B-4746-8D05-BED6A118DC30Q30835102-581018BC-8FFD-4C3C-BE6F-017A320097EDQ30895382-5D6ACB39-F092-4992-8689-D7802599793BQ33608470-C8496E5F-B49D-4B53-8143-75A95861AF12Q33729592-A7A22E40-ABC1-4F57-9460-A8A543AAB803Q33876186-F6D2213C-7D84-45A0-9B54-6AFE2294DE2BQ33886190-3E8B62A2-91DE-44D8-B4F7-D35F5F97149BQ34362390-A8F401D9-05D9-43D0-9279-B84B06C0B892Q34679903-A1D84DCE-0886-408F-BD21-89EF3ED32F76Q34808909-C731F737-30CD-41A5-8139-B3670BBFBF58Q35092546-611DAC46-E962-441E-BE2D-118582B17D7FQ35562935-AB21DC36-F509-45A3-B3A6-2B1C9CC00492Q36356680-D4B15F26-E64E-49C0-843E-F4A55920F020Q37186962-99363393-C064-40A6-BC32-F49DAA4B95E8Q38971280-25385A78-C886-4713-9E3E-A0FEE09D14E9Q39703095-30679B39-A131-4AF4-8095-DE895C696C58Q41378882-FD6649FA-2112-4E7E-9298-C9259DBB6683Q43281823-0F5E81B5-F8E6-4C25-A2E4-BC8BEDF7BA37Q43527729-10536F65-5042-422C-B671-C2D114EA3633Q43528311-8B79F03D-7B94-4575-B0CD-2953AAF8AB27Q45904268-F7DD376B-5B45-41D3-941A-2D6367A0747AQ45964829-300D79C8-A62B-4377-9AF9-78E9ABF63BBBQ46687156-7FC7DEF2-8727-4009-B6A5-C9F1F841FA3CQ50055338-006AC734-2966-45A3-AF8A-7DBC2BB0B6EEQ51378493-45296F6E-7E2C-48D7-AEAE-125D2C2926C8Q51623551-6FC37D3F-577C-4660-AC11-10050B2D79F7
P2860
Emergence of Anoxia in the California Current Large Marine Ecosystem
description
2008 nî lūn-bûn
@nan
2008 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Emergence of Anoxia in the California Current Large Marine Ecosystem
@ast
Emergence of Anoxia in the California Current Large Marine Ecosystem
@en
type
label
Emergence of Anoxia in the California Current Large Marine Ecosystem
@ast
Emergence of Anoxia in the California Current Large Marine Ecosystem
@en
prefLabel
Emergence of Anoxia in the California Current Large Marine Ecosystem
@ast
Emergence of Anoxia in the California Current Large Marine Ecosystem
@en
P2093
P2860
P859
P356
P1433
P1476
Emergence of Anoxia in the California Current Large Marine Ecosystem
@en
P2093
A. Kirincich
B. A. Menge
J. A. Barth
J. Lubchenco
W. T. Peterson
P2860
P304
P356
10.1126/SCIENCE.1149016
P407
P577
2008-02-15T00:00:00Z