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Wind patterns affect migration flyways and flock size


                                                             AVIAN BIOLOGY RESEARCH  9 (3), 2016            159–166

                  Wind patterns affect migration flyways and flock size of a

                  soaring bird over sea



                  Nicolantonio Agostini  a,b* , Marco Gustin , Jost von Hardenberg  and
                                                                                   c
                                                           b
                  Michele Panuccio   a
                  a MEDRAPTORS (Mediterranean Raptor Migration Network), Viale Partigiani 19, 27100 Pavia, Italy
                  b LIPU (Lega Italiana Protezione Uccelli), Via Udine 3/A-43122 Parma, Italy
                  c Istituto di Scienze dell’Atmosfera e del Clima, CNR, Torino, Italy
                  *E-mail: nicolantonioagostini@gmail.com


                  ABSTRACT

                  Water surfaces are natural barriers for raptors mostly using soaring–gliding flight over land during migration.
                  Among these, the European Honey Buzzard (Pernis apivorus) is a total migrant, breeding in Europe and wintering
                  in central western Africa. Each spring thousands of buzzards undertake long sea crossings between Tunisia and
                  southern Italy, concentrating over small islands en route to central eastern Europe. The aim of this research is
                  to investigate the influence of wind patterns on the flyways used by these raptors during this critical phase of
                  migration through field observations at four small Mediterranean islands (Pantelleria, Marettimo, Ustica and
                  Panarea) and at the Straits of Messina between  20 April and 20 May 2006–2013. In our analyses, peak days


                  were considered for each site. This eight year multisite study allowed the collection of a large data set. While
                  crossing the Channel of Sicily, migrants concentrated over Pantelleria (southern side of the Channel) during
                  moderate NW winds, and over Marettimo (northern side) during weaker southerly winds. Over the island of
                  Ustica (north-western Sicily, Tyrrhenian Sea) raptors were observed mostly with weak southerly winds. Over
                  the island of Panarea (north-eastern Sicily) and at the Straits of Messina, European Honey Buzzards passed with
                  weak winds from W and NW, respectively. The average flock size during the peak days was significantly higher
                  over the island of Pantelleria, where birds migrated during the stronger winds. The results of this study show
                  that wind patterns affect both migration pathways and flocking behaviour of this species while crossing large
                  water surfaces.


                  Keywords: migration, European Honey Buzzards, Pernis apivorus, water crossing, wind, flocking, spring


          1.  INTRODUCTION                                     et al., 2016). However, crossing water can save both time
                                                               and energy when the ratio between the distance around
          Birds tend to minimise risks and energetic  cost during   the barrier and the distance across the barrier increases.
          migration  by exploiting  favourable  winds  and avoiding   Among Accipitriformes,  Osprey  (Pandion  haliaetus),
          geographic and topographic barriers,  and sometimes   harriers  (Circus  spp.)  and  kites (Milvus  spp.)  show
          undertaking long detours en route to their breeding and   morphology and flight performances  which allow them
          wintering grounds (Liechti and Bruderer, 1998; Åkesson   to undertake  long water  crossings,  while the European
          and Hedenström, 2000, 2007; Alerstam, 2001; Agostini   Honey Buzzard (Pernis apivorus) has intermediate flight
          et al., 2002; Erni et al., 2005; Liechti 2006; Mellone et   characteristics between them and Buteo spp., eagles (e.g.
          al., 2011a, 2011b; Panuccio et al., 2012; Vansteelant et   Aquila spp.) and vultures (e.g. Gyps spp.), which present
          al., 2014; Vidal-Mateo et al., 2015). Raptors (especially   flight  characteristics less  suitable for water  crossings
          the  heavier,  broader and rounded-winged  species)   (Kerlinger, 1989;  Bildstein  et al.,  2009;  Agostini  et al.,
          use soaring–gliding  flight during  their movements by   2015).  Thus,  although  the European Honey Buzzard
          exploiting thermals and updraft currents along mountain   tends to use soaring–gliding flight over land like Buteo
          chains and avoiding crossing large water bodies (Bildstein,   spp., eagles and vultures, unlike them it is able to cross
          2006; Agostini et al., 2015). Thermals are very weak and   large water bodies. Especially during spring movements,
          scarce  over  water,  especially in temperate  zones,  thus   thousands of European Honey Buzzards undertake long
          birds are forced to use  active  (flapping)  flight  during   water crossings through the Mediterranean Sea en route
          the  crossing.  Soaring–gliding flight  is  significantly  less   between the breeding and wintering grounds located in
          expensive from an energetic viewpoint than active flight,   Europe and west-central equatorial  Africa,  respectively.
          but it depends on topography and circadian patterns in   Conversely, this Mediterranean area is a real ecological
          thermal  convection  (Baudinette  and Schmidt-Nielsen,   barrier  for other  soaring raptors such  as the Short-toed
          1974; Hedenström, 1993; Mellone et al., 2012; Panuccio   Snake  Eagle  (Circaetus  gallicus)  and the Booted Eagle




          www.avianbiologyresearch.co.uk                        Paper 1500628  doi: 10.3184/175815516X14627928448105
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