European cranes shift their wintering area northwards:
new evidences from radiotagged birds
Juan C. Alonso,
Museo Nacional de Ciencias Naturales,
CSIC, José Gutiérrez Abascal 2, 28006 Madrid, Spain
Javier A. Alonso, José H. Martínez,
Facultad de Biología,
Universidad Complutense, 28040 Madrid, Spain
Serge Avignon
Office National de la
Chasse, Réserve Nationale de Chasse et de Faune Sauvage d’Arjuzanx, 40110 Morcenx, France
and Pierre Petit
7, av. de Genève, F-33600
Pessac, France
( Published in Proceedings IV European Crane
Worshop, Verdun, France, November 2000)
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Abstract
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Abstract. During the last two decades an increasing number of Common Cranes using the western route have spent the winter in northern Spain (Gallocanta) and France, probably in
response to the increasing agricultural food resources and protection mesures at these areas. Our results on radiotagged cranes confirmed this trend: the percentage of marked cranes wintering in France increased from 12% in 1998-99 to 23% in 1999-2000. Four of these cranes spent their frst winter in Spain as
juveniles with their parents, but remained in France as immatures in subsequent winter seasons, while no bird shifted southwards. These changes in wintering sites suggest that part of the northward shift observed during the last decades in the winter range could be due to the higher mobility of immature
birds, which tend to aggregate at areas with more cranes and, thus more abundant food resources, while most adult pairs would probably tend to remain faithful to their traditional wintering areas in southwestern Iberia and Morocco.
Introduction
During the last two decades the numbers of cranes staging during migration and wintering at areas of northern Spain and France have increased (Alonso et al. 1987, 1994, Riols 1987, Bautista et al. 1992, Salvi et al. 1996). This northward shift of the traditional winter range of the species has
probably been favoured by recent increases in agricultural food resources at these areas (Bautista et al. 1992, Génard et al. 1992, Alonso et al. 1994). In this paper we summarize the evidences supporting this trend and report on new data on internannual shifts of radiotagged cranes.
Methods
Between 1995 and 1999, a total of 93 Common Cranes were captured as flightless young (89 birds) or moulting adults (4 birds) at their breeding territories in Mecklenburg-Vorpommern, northern Germany, in an area comprising 690 km2 centered at 53º 36’N, 12º 00’Esee . All birds were provided with
individual combinations of three colour-rings for visual identification, and 67 of them (63 young and 4 adults; 5 in 1995, 18 in 1996, 18 in 1997, 15 in 1998 and 11 in 1999) were additionally provided with backpack (47 birds) or leg-mount (20 birds) TW-3 radiotransmitters from Biotrack Ltd., United Kingdom.
For details on capture and marking see Nowald et al. (1996).
During the winter seasons October to March 1995-96 to 1999-2000 we performed monthly surveys both with telescopes and radiotracking receiversof the area of at Laguna de Gallocanta in northeastern Spain, and in the last
two winters also at Arjuzanx and Camp de Captieux in southwestern France. In the two winters 1996-97 and 1997-98, in addition to the monthly surveys we installed an Automatic Location System (ALS; Radiolocation AB, Sweden) at 2 km from the main roost. The ALS recorded the presence or absence of all the
radiomarked birds every 5 minutes continuously from mid October to mid March. In January, from 1996 to 2000 we made aerial searches with a Bonanza E-24 aircraft of the Spanish Air Force, of all radio-frequencies over the region Extremadura in SW Spain, which together with Gallocanta comprises about 85% of the
estimated 70000 cranes wintering in the Iberian Peninsula (Alonso & Alonso 1990, 1996). To study the repeated use of the same wintering sites by adult cranes we used the sample of four radio-tagged adults and the locations of radio-tagged young of families where adults were not marked but their young were
marked in consecutive years. We assumed that parents of the latter bred every year in the same nest (confirmed through pers. obs. at various nests with banded adults). The location of the offspring of these adults on subsequent winters enabled us to know the parents’ wintering site, since the family remains
together until at least the initiation of spring migration (Alonso et al. 1984).
Results
Only one (20%) of 5 adults that could be tracked on two consecutive winters changed the wintering site in the second winter with respect to the first one. Both of these adults with data for three winters remained faithful to the same winter site. In contrast, 8 of 18 (44%) immature birds shifted their
wintering site in the second winter, and 3 of 5 (60%) immatures with data for three and four consecutive winters shifted at least once (Fig. 1). The differences between adults and immatures were not significant due to the small sample sizes.
| Immature cranes are more mobile, shifting wintering sites between years with higher frequency than adults. |
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Figure 1. Percentage shift in wintering site between consecutive winters in adult (black bars) and immature radiotagged cranes (white bars). Sample sizes are indicated above the bars. |
The number of radiotagged cranes located wintering in France increased from a 12% in 1998-99 (4 of 34 radiotagged birds) to 23% in 1999-2000 (9 of 40 radiotagged birds). Four of these cranes spent their first winter
in Spain as juveniles with their parents but remained in France in subsequent winter seasons (Table 1). One bird (BuWBk ) shifted from France in its first winter to Gallocanta in its second winter, and again back to France. Another bird (GBuY) was not found during the first and second winters, and later
located in France during the third and fourth winters. The parents of this bird spent the winter 1999-2000 at Gallocanta (see note 3 in Table 1). Finally, four birds which changed their wintering site within Spain showed a tendency to shift eastwards (YBuW, RBuW and RWBk within Extremadura) or northeastwards
(WBuY between Extremadura and Gallocanta). None of the marked birds shifted southwards.
| Table 1. Interannual changes in wintering sites of radiotagged cranes between Spain and France. |
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| Bird |
1st winter |
2nd winter |
3rd winter |
4th winter |
| GWR |
Extremadura, Spain |
Extremadura, Spain |
France |
France |
| BuWR |
Extremadura, Spain |
(FR?? spring) |
France |
(1) |
| RBkW |
Extremadura, Spain |
Extremadura, Spain |
France |
(1) |
| RWY |
Extremadura, Spain |
? |
France |
(1) |
| BuWBk |
France |
Gallocanta, Spain (2) |
France |
(1) |
| GBuY | ? (3) |
? (3) |
France (February) |
France |
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Discussion
Recent studies have documented the increases in numbers of Common Cranes staging or wintering at areas north of the traditional winter range of the species in soutwestern Iberia and nortwestern Morocco (Alonso et al. 1987, 1994, Riols 1987, Bautista et al. 1992, Salvi et al. 1996). Figures 2 and 3 summarize these increases, respectively for Gallocanta (northern Spain) and France.
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Numbers of cranes staging at Gallocanta during autumn migration increased between 1975 and 1993, decreasing in the last 5-8 years. |
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| Figure 2. White bars indicate maximum autumn staging
counts, and black bars, mean of maxima during each 5-year period. The years with maximum autumn counts for each 5-year period are indicated above the columns (from Alonso et al. 1994, Bautista et al. 1992, own unpubl. data, and J. Sampietro pers. comm.). |
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| Many of these cranes spend now the winter in France, most of them in Arjuzanx |
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| Figure 3. Increase in numbers of birds wintering in France during the last three decades. White bars indicate maximum winter counts, and black bars, mean of maxima during
each 5-year period (from Salvi et al. 1996 and own unpubl. data). |
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In earlier studies we suggested that this northward shift observed during the last decades in the winter range of the species had probably been favoured by (a) recent increases in agricultural food resources at some
areas, and (b) prohibition of hunting activities at feeding and, specially, roosting sites in these areas (Alonso et al. 1987, 1994, Bautista et al. 1992; see also Génard et al. 1992, for southwestern France). For example, Alonso et al (1994) showed that numbers of cranes counted at Gallocanta on a given
fortnight during midwinter through a series of nine years were correlated with food availability during the previous fortnight (see Fig. 4).
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The carrying capacity of wintering areas depends on the amount of food available (primarily, cereal and maize on stubbles, and also sown cereal) |
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Figure 4. Relationship between food availability at Gallocanta during midwinter and the number of cranes during the following fortnight (data from 9 years, 1981-82 to 1990-91, see Alonso et al.
1994). |
The interannual changes of radiotagged birds between wintering sites suggest that part of this northward shift could be due to a lower winter site fidelity of immature cranes. Immatures showed a higher mobility than
adults, and a tendency to stay at areas with temporary abundant food resources and higher numbers of cranes, whereas adult pairs were more faithful to their traditional wintering areas in southwestern Iberia. We recorded four radiotagged cranes shifting from Spain in their first winter to France in subsequent
winters, while no crane shifted southwards.
The higher mobility of immatures and non-breeders is supported by the negative relationship between numbers of cranes at a wintering area and the percentage of juveniles (Fig. 5). This negative relationship means
that families tend to use smaller, more traditional wintering sites, whereas immatures and non-breeders tend to aggregate at sites with more birds, which offer more abundant food resources (Fig. 5a). A similar negative relationship was obtained between fortnightly censuses at Gallocanta, the main staging area
in Spain, and percentage of juveniles (Fig. 5b). This relationship suggests that high increases in numbers at wintering areas are mainly due to the aggregation of immatures and nonbreeders.
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These rapid increases in numbers are mainly due to the aggregation of immatures and non-breeders, which tend to concentrate at areas with higher numbers of cranes.
This effect is observed (a) comparing 21 different wintering sites, and (b) looking at numbers in Gallocanta. |
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| Figure 5. Relationship between (a) numbers of cranes and percentage of juveniles at 21 wintering sites in Spain (calculated from data in Fernández et al. 1981), and (b) numbers of cranes and percentage of juveniles at Gallocanta (Alonso et al. unpubl. data). |
Two other studies have shown a higher mobility of immature cranes. In the first one, adult dominant birds foraging in flocks remained more faithful to their most preferred feeding zones within a wintering area, while
subordinate birds, including both adults and immatures, switched among zones frequently (Alonso et al. 1997). Finally, some families showed a marked site fidelity, defending the same winter territories in consecutive years (Alonso et al. 1999, and in prep.).
Acknowledgements
G. Nowald, T. Fichtner, V. Günter, W. Mewes and many other helpers collaborated in crane radiotagging. Lufthansa, NABU, and WWF-Deutschland sponsored the marking campaigns. We are specially grateful
to the Spanish Airforces (42 Group of the Getafe Air Base), who offered their aircraft to locate radiotagged cranes during winter. We thank J. Sampietro for his census data at Gallocanta 1992-2000, and C. Riols, A. Salvi, and personnel from LPO Aquitaine, Office National de la Chasse, Parc Naturel Régional
des Landes de Gascogne and Réserve de Puydarrieux for counts in France.
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