6 Results
filtered by...
Filter
Tags > morphology
Sort
Sort by Most Relevant
Filter
Categories
Show All...View Types
Tags
- alaska
- oceans
- biota
- gulf of alaska
- bering sea
- juvenile
- growth
- survival
- bristol bay
- 002
- mortality
- pribilof islands
- ocean acidification
- habitat
- kodiak
- histology
- maturity state
- ovary
- port sampling
- aleutian islands
- water temperature
- alaska ecosystems program
- longline
- predator
- southeast alaska
- environment
- summer
- commercial fisheries
- disease
- eumetopias jubatus
- ocean warming
- pot
- young-of-the-year
- ak
- bottom trawl
- catch
- coexistence
- effort
- intra-guild interactions
- north pacific ocean
- observer data
- steller sea lion
- trawl
- adults
- age
- callorhinus ursinus
- counts
- eclosion
- egg extrusion
- embryo development
- embryo quality
- embryonic developmental diapause
- gear
- groundfish
- incubation period
- juveniles
- life history
- models
- monitor
- multiparious
- northern fur seal
- population
- primiparious
- pups
- sea lions
- steller
- tanner crab
- trends
- year
- albatrossia pectoralis
- anoplopoma fimbria
- chinook salmon
- deep-water
- diet
- eastern bering sea
- embryo production
- fecundity
- foraging
- genetics
- giant grenadier
- gillnet
- kodiak island
- larvae
- larval quality
- maternal size effects
- north pacific
- red king crab
- reproductive output
- sablefish
- size-fecundity relationship
- 007
- 014
- bycatch
- chum salmon
- competition
- ctd
- fall
- fisheries
- mycale bellebellensis
- oncorhynchus keta
- pacific ocean perch
- refm
- rockfish
- sebastes
- space limitation
- sponge
- temperature
- trophic interactions
- yukon river
- abortive maturity
- abundance
- acoustic
- acoustic tracking
- aerial survey
- age class
- allozyme
- auke bay
- autonomous underwater vehicle
- baranof island
- blood
- blood smear
- brood duration
- calcigorgia spiculifera
- canada
- carbonate chemistry
- catch per unit effort
- chatham strait
- chlorophyll
- chukchi sea
- climate change
- climate effects
- coastal environments
- cobble
- colonization
- communities
- conductivity-temperature-depth profile
- coral
- crab
- crabs
- cross sound
- diet analysis
- dna
- dna extraction
- early life history
- economics
- ecosystem
- ecosystem monitoring
- embryonic development
- female calcium content
- female magnesium content
- fish telemetry
- fisheries management
- fishes
- flatfishes
- food habits
- forage fish
- gadids
- gravel
- ground fish
- groundfish diet
- growth rate
- habitat utilization
- halipteris willemoesi
- harbor seal
- hatching
- hawaii
- hematology
- heritability
- hypercapnia
- iliamna lake
- inside waters
- invertebrates
- little port walter
- lme
- marine mammal
- marine mammals
- match-mismatch
- maternal age
- maturation
- microsatellite
- microsatellites
- necropsy
- newfoundland
- norton sound
- nprb
- nutrients
- oceanography
- octopus
- offal
- oil globule
- oncorhynchus mykiss
- otariid
- pacific herring
- pacific salmon
- parturition
- phytoplankton
- pinniped
- pleuronectidae
- point retreat
- portland island
- postglacial colonization
- pot gear
- precocious
- predation
- predation impact
- prey
- primary production
- procellarids
- quillback rockfish
- reproduction
- salinity
- salisbury sound
- salmon
- samples
- se alaska
- seafloor
- seawater ph
- seawater temperature
- sebastes alutus
- sebastes maliger
- sebastolobus
- serum
- sex
- skip spawning
- smolting
- species identification
- squid
- st. matthew island
- steelhead
- stock identification
- tagging
- tanner crab size
- trawling
- tunner crab
- tunner crab female ca and mg
- washington state coast
- winter
- zooplankton
- morphology
Filter
6 Results
filtered by
Tags > morphology
Clear All
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
12
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
11
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
6
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
5
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
5
Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.
Updated
September 19 2017
Views
4
Showing 1-6 of 6 results