Orientation and long-distance migration routes: an attempt to evaluate compass cue limitations and required precision

Sandberg, Roland; Holmquist, Björn

Orientation and long-distance migration routes: an attempt to evaluate compass cue limitations and required precision

Mark

Sandberg, Roland ^LU and Holmquist, Björn ^LU

(1998) In Journal of Avian Biology 29(4). p.626-636

Abstract: By computers imulationso f differentf lightr outesf or springm igratingK nots Calidris

canutusp, otentialo rientationa'ld angerz ones' werer evealedi n the equatora rea and

northo f the Arcticc ircle.A n evaluationo f the availabilityo f directionailn formation

duringm igratoryf lightsd emonstratedth e potentialh azardso f crossingt hese danger

zones. Investigationso f the directionalc onsequenceso f sun compass orientation

based upon an internalc lock in phase with local time at the departures ite showed

that such a mechanism would entail serious losses in distance and time. A simple

compensatingr uleb asedo n the rateo f changei n sun altitudew as foundt o workw ell

... (More); By computers imulationso f differentf lightr outesf or springm igratingK nots Calidris

canutusp, otentialo rientationa'ld angerz ones' werer evealedi n the equatora rea and

northo f the Arcticc ircle.A n evaluationo f the availabilityo f directionailn formation

duringm igratoryf lightsd emonstratedth e potentialh azardso f crossingt hese danger

zones. Investigationso f the directionalc onsequenceso f sun compass orientation

based upon an internalc lock in phase with local time at the departures ite showed

that such a mechanism would entail serious losses in distance and time. A simple

compensatingr uleb asedo n the rateo f changei n sun altitudew as foundt o workw ell

both at polar latitudes and in the equator area. The magnetic compass will become

inoperativec lose to the magnetice quatora nd the poles, thus restrictingth e availability

of directional information. Orientation by stellar cues will become impossible

during spring and summer at arctic latitudes. Simulations of potential migratory

routesa lso enablede xaminationo f the requiredp recisiono f compasss ystemsa nd it

was indicatedt hat necessaryo rientationa ccuracyr equiresm ore than one directional

selectionp er long-distancef light to ensure survival.I t is concludedt hat computer

simulations of flight tracks, based on ringing recoveries, visual observations, radar

studies and satellite telemetry may be a powerful tool helping to identify problems

which require future experimental attention. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/1144959

author

Sandberg, Roland ^LU and Holmquist, Björn ^LU

organization

publishing date

1998

type

Contribution to journal

publication status

published

subject

in

Journal of Avian Biology

volume

29

issue

4

pages

626 - 636

publisher

Wiley-Blackwell

external identifiers

scopus:0032440275

ISSN

0908-8857

language

English

LU publication?

yes

additional info

The information about affiliations in this record was updated in December 2015. The record was previously connected to the following departments: Animal Ecology (Closed 2011) (011012001), Department of Statistics (012014000)

id

b928ec4d-e375-4edf-bc1c-4863c60668f4 (old id 1144959)

date added to LUP

2016-04-01 11:53:52

date last changed

2022-01-26 19:53:49

@article{b928ec4d-e375-4edf-bc1c-4863c60668f4,
  abstract     = {{By computers imulationso f differentf lightr outesf or springm igratingK nots Calidris<br/><br>
canutusp, otentialo rientationa'ld angerz ones' werer evealedi n the equatora rea and<br/><br>
northo f the Arcticc ircle.A n evaluationo f the availabilityo f directionailn formation<br/><br>
duringm igratoryf lightsd emonstratedth e potentialh azardso f crossingt hese danger<br/><br>
zones. Investigationso f the directionalc onsequenceso f sun compass orientation<br/><br>
based upon an internalc lock in phase with local time at the departures ite showed<br/><br>
that such a mechanism would entail serious losses in distance and time. A simple<br/><br>
compensatingr uleb asedo n the rateo f changei n sun altitudew as foundt o workw ell<br/><br>
both at polar latitudes and in the equator area. The magnetic compass will become<br/><br>
inoperativec lose to the magnetice quatora nd the poles, thus restrictingth e availability<br/><br>
of directional information. Orientation by stellar cues will become impossible<br/><br>
during spring and summer at arctic latitudes. Simulations of potential migratory<br/><br>
routesa lso enablede xaminationo f the requiredp recisiono f compasss ystemsa nd it<br/><br>
was indicatedt hat necessaryo rientationa ccuracyr equiresm ore than one directional<br/><br>
selectionp er long-distancef light to ensure survival.I t is concludedt hat computer<br/><br>
simulations of flight tracks, based on ringing recoveries, visual observations, radar<br/><br>
studies and satellite telemetry may be a powerful tool helping to identify problems<br/><br>
which require future experimental attention.}},
  author       = {{Sandberg, Roland and Holmquist, Björn}},
  issn         = {{0908-8857}},
  language     = {{eng}},
  number       = {{4}},
  pages        = {{626--636}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Journal of Avian Biology}},
  title        = {{Orientation and long-distance migration routes: an attempt to evaluate compass cue limitations and required precision}},
  volume       = {{29}},
  year         = {{1998}},
}

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Orientation and long-distance migration routes: an attempt to evaluate compass cue limitations and required precision