Literature DB >> 25729056

How bar-headed geese fly over the Himalayas.

Graham R Scott1, Lucy A Hawkes2, Peter B Frappell3, Patrick J Butler4, Charles M Bishop5, William K Milsom6.   

Abstract

Bar-headed geese cross the Himalayas on one of the most iconic high-altitude migrations in the world. Heart rates and metabolic costs of flight increase with elevation and can be near maximal during steep climbs. Their ability to sustain the high oxygen demands of flight in air that is exceedingly oxygen-thin depends on the unique cardiorespiratory physiology of birds in general along with several evolved specializations across the O2 transport cascade. ©2015 Int. Union Physiol. Sci./Am. Physiol. Soc.

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Year:  2015        PMID: 25729056      PMCID: PMC4346704          DOI: 10.1152/physiol.00050.2014

Source DB:  PubMed          Journal:  Physiology (Bethesda)        ISSN: 1548-9221


  43 in total

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2.  High fliers: the physiology of bar-headed geese.

Authors:  Patrick J Butler
Journal:  Comp Biochem Physiol A Mol Integr Physiol       Date:  2010-01-28       Impact factor: 2.320

3.  Elevated performance: the unique physiology of birds that fly at high altitudes.

Authors:  Graham R Scott
Journal:  J Exp Biol       Date:  2011-08-01       Impact factor: 3.312

4.  The trans-Himalayan flights of bar-headed geese (Anser indicus).

Authors:  Lucy A Hawkes; Sivananinthaperumal Balachandran; Nyambayar Batbayar; Patrick J Butler; Peter B Frappell; William K Milsom; Natsagdorj Tseveenmyadag; Scott H Newman; Graham R Scott; Ponnusamy Sathiyaselvam; John Y Takekawa; Martin Wikelski; Charles M Bishop
Journal:  Proc Natl Acad Sci U S A       Date:  2011-05-31       Impact factor: 11.205

5.  Phylogenetic and structural analysis of the HbA (alphaA/betaA) and HbD (alphaD/betaA) hemoglobin genes in two high-altitude waterfowl from the Himalayas and the Andes: Bar-headed goose (Anser indicus) and Andean goose (Chloephaga melanoptera).

Authors:  Kevin G McCracken; Christopher P Barger; Michael D Sorenson
Journal:  Mol Phylogenet Evol       Date:  2010-04-29       Impact factor: 4.286

6.  Molecular evolution of cytochrome C oxidase underlies high-altitude adaptation in the bar-headed goose.

Authors:  Graham R Scott; Patricia M Schulte; Stuart Egginton; Angela L M Scott; Jeffrey G Richards; William K Milsom
Journal:  Mol Biol Evol       Date:  2010-08-04       Impact factor: 16.240

7.  American medical research expedition to Everest.

Authors:  John B West
Journal:  High Alt Med Biol       Date:  2010       Impact factor: 1.981

Review 8.  New insights in the pathogenesis of high-altitude pulmonary edema.

Authors:  Urs Scherrer; Emrush Rexhaj; Pierre-Yves Jayet; Yves Allemann; Claudio Sartori
Journal:  Prog Cardiovasc Dis       Date:  2010 May-Jun       Impact factor: 8.194

9.  Differences in in vitro cerebellar neuronal responses to hypoxia in eider ducks, chicken and rats.

Authors:  Stian Ludvigsen; Lars P Folkow
Journal:  J Comp Physiol A Neuroethol Sens Neural Behav Physiol       Date:  2009-09-25       Impact factor: 1.836

Review 10.  Regulation of cerebral blood flow in mammals during chronic hypoxia: a matter of balance.

Authors:  Philip N Ainslie; Shigehiko Ogoh
Journal:  Exp Physiol       Date:  2009-07-17       Impact factor: 2.969
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  25 in total

Review 1.  Mitonuclear Ecology.

Authors:  Geoffrey E Hill
Journal:  Mol Biol Evol       Date:  2015-04-29       Impact factor: 16.240

2.  High-altitude shorebird migration in the absence of topographical barriers: avoiding high air temperatures and searching for profitable winds.

Authors:  Nathan R Senner; Maria Stager; Mo A Verhoeven; Zachary A Cheviron; Theunis Piersma; Willem Bouten
Journal:  Proc Biol Sci       Date:  2018-06-27       Impact factor: 5.349

3.  Dissociating the effects of oxygen pressure and content on the control of breathing and acute hypoxic response.

Authors:  Paolo B Dominelli; Sarah E Baker; Chad C Wiggins; Glenn M Stewart; Pavol Sajgalik; John R A Shepherd; Shelly K Roberts; Tuhin K Roy; Timothy B Curry; James D Hoyer; Jennifer L Oliveira; Glen E Foster; Michael J Joyner
Journal:  J Appl Physiol (1985)       Date:  2019-10-24

4.  Influence of high affinity haemoglobin on the response to normoxic and hypoxic exercise.

Authors:  Paolo B Dominelli; Chad C Wiggins; Sarah E Baker; John R A Shepherd; Shelly K Roberts; Tuhin K Roy; Timothy B Curry; James D Hoyer; Jennifer L Oliveira; Michael J Joyner
Journal:  J Physiol       Date:  2020-02-11       Impact factor: 5.182

5.  Modelling the relationships between haemoglobin oxygen affinity and the oxygen cascade in humans.

Authors:  John R A Shepherd; Paolo B Dominelli; Tuhin K Roy; Timothy W Secomb; James D Hoyer; Jennifer L Oliveira; Michael J Joyner
Journal:  J Physiol       Date:  2019-07-25       Impact factor: 5.182

6.  Physiological Genomics of Adaptation to High-Altitude Hypoxia.

Authors:  Jay F Storz; Zachary A Cheviron
Journal:  Annu Rev Anim Biosci       Date:  2020-11-23       Impact factor: 8.923

Review 7.  High-altitude champions: birds that live and migrate at altitude.

Authors:  Sabine L Laguë
Journal:  J Appl Physiol (1985)       Date:  2017-08-24

8.  Allosteric mechanisms underlying the adaptive increase in hemoglobin-oxygen affinity of the bar-headed goose.

Authors:  Agnieszka Jendroszek; Hans Malte; Cathrine B Overgaard; Kristian Beedholm; Chandrasekhar Natarajan; Roy E Weber; Jay F Storz; Angela Fago
Journal:  J Exp Biol       Date:  2018-09-17       Impact factor: 3.312

Review 9.  Humans In Hypoxia: A Conspiracy Of Maladaptation?!

Authors:  Jerome A Dempsey; Barbara J Morgan
Journal:  Physiology (Bethesda)       Date:  2015-07

Review 10.  Evolution and Functional Differentiation of the Diaphragm Muscle of Mammals.

Authors:  Matthew J Fogarty; Gary C Sieck
Journal:  Compr Physiol       Date:  2019-03-14       Impact factor: 9.090
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