Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
about
Stable Isotope Ratios as Biomarkers of Diet for Health ResearchNatural carbon isotope abundance of plasma metabolites and liver tissue differs between diabetic and non-diabetic Zucker diabetic fatty ratsGeographical Area and Life History Traits Influence Diet in an Arctic Marine PredatorIsotopic partitioning by small mammals in the subniviumSeasonal variation in stable carbon and nitrogen isotope values of bats reflect environmental baselinesThe diet-body offset in human nitrogen isotopic values: a controlled dietary studyDietary heterogeneity among Western industrialized countries reflected in the stable isotope ratios of human hairLong-term species, sexual and individual variations in foraging strategies of fur seals revealed by stable isotopes in whiskersCarbon and nitrogen stable isotopes in fast food: signatures of corn and confinementHuman dietary δ(15)N intake: representative data for principle food items.Human paleodiet and animal utilization strategies during the Bronze Age in northwest Yunnan Province, southwest ChinaFood and social complexity at Çayönü Tepesi, southeastern Anatolia: Stable isotope evidence of differentiation in diet according to burial practice and sex in the early Neolithic.The nature of the dietary protein impacts the tissue-to-diet 15N discrimination factors in laboratory rats.Does natural weathering change the stable isotope composition (²H, ¹³C, ¹⁵N, ¹⁸O and ³⁴S) of cattle hair?The movement ecology of the straw-colored fruit bat, Eidolon helvum, in sub-Saharan Africa assessed by stable isotope ratios.δ15N value does not reflect fasting in mysticetes.Pallid bands in feathers and associated stable isotope signatures reveal effects of severe weather stressors on fledgling sparrows.Urban and rural infant-feeding practices and health in early medieval Central Europe (9th-10th Century, Czech Republic).Oxygen isotope analysis of human bone phosphate evidences weaning age in archaeological populations.Isotopic composition of sheep wool records seasonality of climate and diet.Association of protein intakes and variation of diet-scalp hair nitrogen isotopic discrimination factor in Papua New Guinea highlanders.Association between sex inequality in animal protein intake and economic development in the Papua New Guinea highlands: The carbon and nitrogen isotopic composition of scalp hair and fingernail.Infant feeding practices and childhood diet at Apollonia Pontica: Isotopic and dental evidence.Temporal Uncoupling between Energy Acquisition and Allocation to Reproduction in a Herbivorous-Detritivorous Fish.Carbon and nitrogen stable isotopic offsets between diet and hair/feces in captive chimpanzees.Prediction of human dietary δ15N intake from standardised food records: validity and precision of single meal and 24-h diet data.Eastern oyster (Crassostrea virginica) delta(15)N as a bioindicator of nitrogen sources: Observations and modeling.Towards a physiologically based diagnosis of anorexia nervosa and bulimia nervosa.Red blood cell delta15N: a novel biomarker of dietary eicosapentaenoic acid and docosahexaenoic acid intakeA multi-isotope investigation of diet and subsistence amongst island and mainland populations from early medieval western Britain.Stable isotope analysis in primatology: a critical review.Reconstruction of breastfeeding and weaning practices using stable isotope and trace element analyses: A review.Advances in primate stable isotope ecology-Achievements and future prospects.Reconstructing diet in Napoleon's Grand Army using stable carbon and nitrogen isotope analysis.Growth velocity and weaning δ(15)N "Dips" during ontogeny in Macaca mulatta.Exploring imperial expansion using an isotopic analysis of paleodietary and paleomobility indicators in Chachapoyas, Peru.Beyond diet reconstruction: stable isotope applications to human physiology, health, and nutrition.Clinical-scale investigation of stable isotopes in human blood: delta13C and delta15N from 406 patients at the Johns Hopkins Medical Institutions.Can stable isotope analysis reveal dietary differences among groups with distinct income levels in the city of Piracicaba (southeast region, Brazil)?Diet-tissue stable isotope (Δ(13)C and Δ(15)N) discrimination factors for multiple tissues from terrestrial reptiles.
P2860
Q26830007-ED48BA03-7E82-4B7D-A101-CE8621DB94F9Q28533750-22E108A9-12B2-4312-8004-B0252D5DCCB2Q28552261-63DA387A-43E4-4E2E-B5AC-9ADECCF4DA64Q28607075-FE0CC93F-A366-4B0C-B783-994B7F5FEB11Q28649599-A5A9E4F4-6D4A-4A53-8073-6E0680802FA2Q28714387-F1E709BB-A196-4BD0-9054-E562F46CE872Q28730826-75BD89F3-D64E-4CF5-9DEE-5418F33185DCQ28731308-6B94BF4E-3853-491F-8D57-C2E8C3E22F31Q28756572-2E7338BC-0919-4155-8898-B76E8D1761A5Q30660001-AC50C388-A525-4332-BEB4-DDBC87C55094Q33712979-849C69A4-DFE5-416F-95DE-5542ACEFC032Q33791923-6A182F9E-7370-4B4D-A49D-5F4865450C25Q34088089-CBBECFC6-8B87-43FD-89D3-79610DD8F39DQ34216760-072A6EA1-C9ED-41B0-8EB7-F2E4EE404A65Q34429907-EC968CCC-6871-4B09-9997-46BD463E17A2Q35126290-F64F7619-F9D2-4618-BEAC-3C7E6D58E19BQ35174055-F9CDFEC2-5345-49BB-95DE-8628A979C446Q35277934-209869DD-3E9B-42E9-A6D7-E3FDFCD6C195Q35560232-027C4DEC-C3D8-45EA-A7F5-A0FB9181C179Q35683598-A3D2F065-6CCF-4026-86AA-C3F95EA4B187Q35691230-D593D567-A893-4D85-9ABD-8950E43956FFQ35762049-F7D6BDF9-158F-4E62-87A1-C2F1248757AEQ35813128-F6BC4E84-614B-488B-B956-210E9E7849F7Q35944319-5F2D7128-63D0-48D3-978A-A5D812F66D44Q36157831-14BE7E60-459C-4A2B-8DEE-709DAF560325Q36307666-E9FE2759-56F9-4AB6-8AD6-3B987642E538Q36746532-B20B1D02-EC8F-4FB9-A51F-C6BB9D4D3D32Q37004645-37E2E573-8A2A-4C0B-88F3-9BE9A19B1086Q37107320-3B965F9E-B93D-48F9-BF06-92C6482A193DQ37664233-B14FD9AF-392F-4558-8B86-11123B27DD71Q38046773-F9A71504-153D-4E25-9E25-68C351942103Q38269318-96D541CB-B3C4-4FE9-ADDE-50A08ED6A74DQ38673679-EB1B7635-9EE0-4FD8-9C90-170881352F36Q38962582-2A3FB101-915F-4127-AC04-763CA2D65719Q39035818-F73C025F-27D1-44D6-9A47-59785977FF91Q39390789-91D766D0-541D-4F2C-BCF4-D94293C53CDDQ39399656-469CEE6E-7810-47FD-B1CA-AE30CC4DEDBEQ40033395-7D02B1F0-1019-4B52-82FD-4A6D152E78CEQ40143211-0246DB78-F743-4449-8269-D8CF4000F099Q40217208-C8639598-426A-4CF0-AEEB-EB027F2C8EC4
P2860
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@en
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@nl
type
label
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@en
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@nl
prefLabel
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@en
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@nl
P2093
P356
P1476
Nitrogen balance and delta15N: why you're not what you eat during nutritional stress.
@en
P2093
Benjamin T Fuller
David A Harris
James L Fuller
Nancy E Sage
Robert E M Hedges
Tamsin C O'Connell
P304
P356
10.1002/RCM.2090
P577
2005-01-01T00:00:00Z