Recent Bayesian stable-isotope mixing models are highly sensitive to variation in discrimination factors.
about
Is Bocourt's terrific skink really so terrific? Trophic myth and realityIsotopic incorporation rates and discrimination factors in mantis shrimp crustaceansEquations for lipid normalization of carbon stable isotope ratios in aquatic bird eggsMerging resource availability with isotope mixing models: the role of neutral interaction assumptionsIrrigation depth far exceeds water uptake depth in an oasis cropland in the middle reaches of Heihe River Basin.Probabilistic patterns of interaction: the effects of link-strength variability on food web structurePredicting rates of isotopic turnover across the animal kingdom: a synthesis of existing data.Millennial-scale plankton regime shifts in the subtropical North Pacific Ocean.Integrating stomach content and stable isotope analyses to quantify the diets of pygoscelid penguins.Intrapopulation variability shaping isotope discrimination and turnover: experimental evidence in arctic foxesDistinct carbon sources indicate strong differentiation between tropical forest and farmland bird communities.The marine side of a terrestrial carnivore: intra-population variation in use of allochthonous resources by arctic foxes.Variable δ(15)N diet-tissue discrimination factors among sharks: implications for trophic position, diet and food web modelsBias in diet determination: incorporating traditional methods in Bayesian mixing modelsTrophic interactions between native and introduced fish species in a littoral fish community.Biofilm consumption and variable diet composition of western sandpipers (Calidris mauri) during migratory stopover.Experimentally derived δ¹³C and δ¹⁵N discrimination factors for gray wolves and the impact of prior information in Bayesian mixing modelsTrophic discrimination factors of stable carbon and nitrogen isotopes in hair of corn fed wild boarTrophic Strategies of a Non-Native and a Native Amphibian Species in Shared Ponds.A Fatty Acid Based Bayesian Approach for Inferring Diet in Aquatic Consumers.Major Sources of Organic Matter in a Complex Coral Reef Lagoon: Identification from Isotopic Signatures (δ13C and δ15N).Isotopic Discrimination in the Double-Crested Cormorant (Phalacrocorax auritus)Carbon and nitrogen stable isotopic offsets between diet and hair/feces in captive chimpanzees.Seals and sea lions are what they eat, plus what? Determination of trophic discrimination factors for seven pinniped speciesUnifying error structures in commonly used biotracer mixing models.Tracing carbon flow through coral reef food webs using a compound-specific stable isotope approach.Diet-tissue stable isotope (Δ(13)C and Δ(15)N) discrimination factors for multiple tissues from terrestrial reptiles.Stable isotope signatures and trophic-step fractionation factors of fish tissues collected as non-lethal surrogates of dorsal muscle.Dietary ontogeny and niche shift to piscivory in lacustrine brown trout Salmo trutta revealed by stomach content and stable isotope analyses.Methodological uncertainty in resource mixing models for generalist fishes.Effect of age and ration on diet-tissue isotopic (Δ13C, Δ15N) discrimination in striped skunks (Mephitis mephitis).Maritime adaptations and dietary variation in prehistoric Western Alaska: stable isotope analysis of permafrost-preserved human hair.More than a corridor: use of a main stem stream as supplemental foraging habitat by a brook trout metapopulation.The effects of sex, tissue type, and dietary components on stable isotope discrimination factors (Δ13C and Δ15N) in mammalian omnivores.Validating fin tissue as a non-lethal proxy to liver and muscle tissue for stable isotope analysis of yellow perch (Perca flavescens).Carbon, nitrogen and sulphur isotopic fractionation in captive juvenile hooded seal (Cystophora cristata): Application for diet analysis.Isotope (δ13C, δ15N, δ2H) diet-tissue discrimination in African grey parrot Psittacus erithacus: implications for forensic studies.Blood-specific isotopic discrimination factors in the Magellanic penguin (Spheniscus magellanicus).Isotopic assessment of marine food consumption by natural-foraging chacma baboons on the Cape Peninsula, South Africa.Stable carbon and nitrogen isotope discrimination and turnover in a small-bodied insectivorous lizard.
P2860
Q21132456-18545D02-BDD9-474D-AE2B-CC286DADA650Q27310329-94F713A6-9679-4591-8A69-C18F6EFC19B8Q28538950-C481E425-9AA9-4DB4-B7CD-9336509B8AD2Q28742813-20867EC5-BBD6-4D54-86D4-927360FE8C9CQ30386718-77E1CAB9-D965-4CB5-84AD-E6EDE96C709AQ30526643-8B9F7D7D-F770-4A20-B5D5-53453A3C3280Q30875285-B699F3BF-54C5-4EE1-8590-6AD2FD853842Q31028769-30EDCB1D-F91C-4EC4-B2F2-CDD8D15E3E82Q31040206-E8CEBC73-F568-4847-8898-4B4A988ABDAFQ33952343-F7DF07E9-DB1C-4D52-92EF-7A477A519494Q34294440-7C88058D-4400-4DC2-9BB8-1C89B19F2A82Q34382460-24FDFB10-2155-494F-9F2A-2E574A76B926Q35023222-4C83833F-0FD7-40BF-80C3-44B5A5F54062Q35041588-A170701A-050E-470F-8CD7-D01142CF3F23Q35283044-F396CEFC-5471-45AA-8CA8-B53091C55D91Q35416873-C45F359F-0117-4D8D-BA06-885D3B231297Q35585360-A2AE4FF8-B974-4676-8D32-B81B7F346F97Q35615187-72208A94-D9DD-4B00-AF2C-6ED87190CC48Q35671620-B4301349-22EE-4FE1-803A-DF3A1F0B5E77Q35675591-B3B68F1E-18DB-447B-A811-D5D7E1E51055Q35680946-61D07D0F-906A-4FAF-840E-FCF9200C0A04Q35809956-868F6612-C74F-4989-9FD0-D6D0A8D55ACCQ36157831-E589E1C1-4EB7-45BD-8F8D-8D169BA238DBQ36795991-26179119-AAAB-44B5-B9E4-D6A34E63C5A4Q38794063-28A3F9FA-6EE4-4732-B91F-0456DB1DFEF4Q39237022-EB3382C4-9677-4118-9E86-DA912DC4EAECQ40217208-1A511C93-7655-4925-809A-496978E43C55Q40695047-1A62169E-5A09-4D06-819C-98C0ED22AB48Q43425745-39B3D180-5503-416D-821F-C52E86CFD71EQ43588784-A769FA5B-4E26-4945-94BD-63C8BB06E20AQ44047350-7EFED1F4-541A-47AE-9E6D-054FBBDFF9E4Q44442260-3D93C818-710D-4A2C-BEA3-680BE6B5649DQ45036787-6DB39998-9A2E-439B-B4D8-3EDC0A2CDF5AQ46102794-F8E96D51-05DB-4D64-9BB5-02D114BD8499Q46270677-DA0FC1A8-3272-49B6-B6C0-93EC6CC2A0C5Q46320989-98367E8E-2BFF-4175-9970-370C6CEE22E9Q46369648-2F78A34B-DA80-4244-8CD0-44CFA768FF6FQ46508162-CC7B6D69-8464-4C73-8835-D9247FDF4845Q46575769-9E1C74BC-F881-44E6-AE47-BDC54B0633D0Q46576293-E86CAE94-0312-44FE-9F9B-4B0CE4BE4555
P2860
Recent Bayesian stable-isotope mixing models are highly sensitive to variation in discrimination factors.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@en
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@nl
type
label
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@en
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@nl
prefLabel
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@en
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@nl
P2860
P356
P1476
Recent Bayesian stable-isotope ...... ion in discrimination factors.
@en
P2093
Antony W Diamond
P2860
P304
P356
10.1890/09-2409.1
P50
P577
2011-06-01T00:00:00Z