Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
about
Innate olfactory preferences for flowers matching proboscis length ensure optimal energy gain in a hawkmoth.Estimation of activity related energy expenditure and resting metabolic rate in freely moving mice from indirect calorimetry dataMeasuring energy expenditure in sub-adult and hatchling sea turtles via accelerometryThermal and hygric physiology of Australian burrowing mygalomorph spiders (Aganippe spp.).Integration of body temperature into the analysis of energy expenditure in the mouseEstimation of Instantaneous Gas Exchange in Flow-Through Respirometry Systems: A Modern Revision of Bartholomew's Z-Transform MethodSmall actions, big costs: the behavioural energetics of a commercially important invertebrate.Recovering signals in physiological systems with large datasets.Physiological role for leptin in the control of thermal conductance.Omega-3 long-chain polyunsaturated fatty acids support aerial insectivore performance more than food quantity.Phylogenetic comparisons of pedestrian locomotion costs: confirmations and new insights.Metabolic scaling in animals: methods, empirical results, and theoretical explanations.Carbon stable-isotope tracking in breath for comparative studies of fuel use.(13)C-Breath testing in animals: theory, applications, and future directions.Orexin activation counteracts decreases in nonexercise activity thermogenesis (NEAT) caused by high-fat diet.Hold your breath beetle-Mites!Assessing honeybee and wasp thermoregulation and energetics-New insights by combination of flow-through respirometry with infrared thermographyCommentary: Validation of a Ramp Running Protocol for Determination of the True VO2max in Mice.Automated open flow respirometry in continuous and long-term measurements: design and principles.Heart rate reveals torpor at high body temperatures in lowland tropical free-tailed bats.Inhibitory respiratory responses to progesterone and allopregnanolone in newborn rats chronically treated with caffeine.Physiological mechanisms constraining ectotherm fright-dive performance at elevated temperatures.Low-carbohydrate diet induces metabolic depression: a possible mechanism to conserve glycogen.MEMBRANE PROGESTERONE RECEPTOR β, BUT NOT α, IN DORSAL BRAINSTEM ESTABLISHES SEX-SPECIFIC CHEMOREFLEX RESPONSES AND REDUCES APNEA FREQUENCY IN ADULT MICE.Endogenous brain erythropoietin is a potent sex-specific respiratory stimulant in adult and newborn mice.Effects of pole compliance and step frequency on the biomechanics and economy of pole carrying during human walking.Metabolic rate associates with, but does not generate covariation between, behaviours in western stutter-trilling crickets, Gryllus integer.Exploration of Energy Metabolism in the Mouse Using Indirect Calorimetry: Measurement of Daily Energy Expenditure (DEE) and Basal Metabolic Rate (BMR).Reply to Joseph.Comments on "Quantifying hypoxia-induced chemoreceptor sensitivity in the awake rodent" by Morgan et al.Improving temporal accuracy of human metabolic chambers for dynamic metabolic studies.
P2860
Q27316233-623A8A91-BBDA-466E-AA07-DD40A66F1FF8Q28730126-69D7F2B8-B429-4932-89A4-E2FDFAB8CA42Q30474567-A1B871AB-FD48-4E4A-91F8-8AE8AB9C57B1Q34387230-B4A9B95B-BF61-4286-9482-4387684E5F3DQ35644515-294F1FC2-5075-4D46-8FF2-98C530530CD2Q35806835-8C012BD4-039E-4516-B7C4-669A555B96FCQ36009936-4FD807B8-569B-4A29-8C0C-18C1FAE7658FQ37216820-26445D9D-3EF1-4D22-894D-94390735FC54Q37278626-51880E26-2E36-4C99-89E6-A0AFE627862FQ37304925-D08044FA-527B-4DBA-9F47-509469C3FD7AQ37327207-E462F9CE-94D6-4F6E-BA16-659CDF3CB910Q38201389-B69382CE-61CE-4F72-9AE0-FCB552D46580Q38393975-8142E977-3ED4-42F3-8636-FF9C7402B6CCQ38667572-4470ADFA-4D27-46C2-A06E-DD4CC5115A6FQ38863968-09B86D80-9710-4812-B5AF-CCF9BDD0278CQ40186873-89E89581-7952-4D9D-B5F9-72AEABF596BBQ42105386-AE764C7F-3EC3-41A2-9C8E-2FFB5F9C7D83Q42247113-15D85C95-DB40-4EF9-96FF-FBF8635D5E06Q46636247-98307B70-85E2-412A-8DA7-7325B8089F0EQ47165799-FD48C893-394F-49E3-AA49-CACA250320B2Q47635407-ABA26F2B-C000-40E2-AEB5-84ABBD4F175BQ47749679-3427DA16-CF1C-42BF-84B3-65D1F5924443Q47828997-4D518AB6-3C40-40B7-AA2C-001D6AAAEAE4Q48034119-8BAD0AC7-C2A4-44B5-87D1-F13CBB2D0A87Q48092428-A9B06B92-3F59-46E6-B96B-42355A76BB38Q51070111-3850FC01-3CD1-4B69-89A4-1EAED5B7606BQ51221475-0BD9D2D1-76A3-4F12-BF95-CFA7103E64F8Q51598758-8E4DC0ED-386E-4F48-9657-D865A1EF1F63Q51674660-0B0F7FDE-2836-4700-BB97-F3F1E2F5D026Q51674664-AE18CBAB-8A3B-482B-9EED-B9D498EDC194Q54967954-D288AF0D-B9CA-4F06-8EBE-1690797537E6
P2860
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@en
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@nl
type
label
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@en
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@nl
prefLabel
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@en
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips.
@nl
P1476
Flow-through respirometry applied to chamber systems: pros and cons, hints and tips
@en
P2093
J R B Lighton
P304
P356
10.1016/J.CBPA.2010.11.026
P577
2010-12-04T00:00:00Z