lusitanius Yellow-legged Gull
(last update:
Gabriel Martín
Antonio Gutierrez
Rui Caratão
Mars Muusse
michahellis
atlantis
ring projects
PDF's
lusitanius 1cy June
lusitanius 1cy July
lusitanius 1cy Aug
lusitanius 1cy Sept
lusitanius 1cy Oct
lusitanius 1cy Nov
lusitanius 1cy Dec
lusitanius 2cy Jan
lusitanius 2cy Feb
lusitanius 2cy Mar
lusitanius 2cy Apr
lusitanius 2cy May
lusitanius 2cy June
lusitanius 2cy July
lusitanius 2cy Aug
lusitanius 2cy Sept
lusitanius 2cy Oct
lusitanius 2cy Nov
lusitanius 2cy Dec
lusitanius 3cy Jan
lusitanius 3cy Feb
lusitanius 3cy Mar
lusitanius 3cy Apr
lusitanius 3cy May
lusitanius 3cy June
lusitanius 3cy July
lusitanius 3cy Aug
lusitanius 3cy Sept
lusitanius 3cy Oct
lusitanius 3cy Nov
lusitanius 3cy Dec
lusitanius 4cy Jan
lusitanius 4cy Feb
lusitanius 4cy Mar
lusitanius 4cy Apr
lusitanius 4cy May
lusitanius 4cy June
lusitanius 4cy July
lusitanius 4cy Aug
lusitanius 4cy Sept
lusitanius 4cy Oct
lusitanius 4cy Nov
lusitanius 4cy Dec
lusitanius ad Jan
lusitanius ad Feb
lusitanius ad Mar
lusitanius ad Apr
lusitanius ad May
lusitanius ad June
lusitanius ad July
lusitanius ad Aug
lusitanius ad Sept
lusitanius ad Oct
lusitanius ad Nov
lusitanius ad Dec
TABLE III & IV: Comparison of trumpeting and staccato call of three populations of Yellow-legged Gulls.
- the island of Oléron (pop. 1),
-
the Camargue (pop. 2),
-
Basque Country (pop. 3).
Data from:
Comparative study of four populations of Yellow-legged Gulls in Western Europe by Anne TEYSSEDRE
IN: L'Oiseau et R.F.O., V. 53, 1983, n° 1.
| Table 3: TRUMPETING | ||||||||
pop: |
1 |
2 |
3 |
1 -2 |
1 - 3 |
|||
n: |
8 |
30 |
30 |
38 |
38 |
|||
C |
X, ΔX Sp t |
3,4 0,3 . |
3,5 0,3 . |
3,9 0,4 . |
0,1 0,3 0,8 |
0,5 0,4 HS |
||
Du |
X, ΔX Sp t |
20 3 . |
19 3 . |
18 3 . |
1 3 0,8 |
2 |
||
Da |
X, ΔX Sp t |
9 3 . |
10 3 . |
5 2 . |
1 3 0,8 |
4 2 HS |
||
Dd |
X, ΔX Sp t |
9 3 . |
8 3 . |
12 3 . |
1 3 0,8 |
3 3 2,5 |
||
FFmax |
X, ΔX Sp t |
490 68 . |
495 73 . |
1249 93 . |
5 72 NS |
759 85 HS |
||
FFb |
X, ΔX Sp t |
402 68 . |
380 62 . |
1038 78 . |
22 64 0,9 |
636 75 HS |
||
nH |
X, ΔX Sp t |
8,5 2,1 . |
7,5 1,6 . |
3,9 1,2 . |
1,2 1,8 1,7 |
4,6 1,5 HS |
||
.
| Table 4: STACCATO CALL | ||||||||
pop: |
1 |
2 |
3 |
1 -2 |
1 - 3 |
|||
n: |
8 |
30 |
30 |
38 |
38 |
|||
K |
X, ΔX Sp t |
3,4 1,0 . |
3,6 0,9 . |
3,8 1,4 . |
0,2 0,9 NS |
0,4 1,3 0,8 |
||
C |
X, ΔX Sp t |
7,8 1,5 . |
8,3 1,4 . |
8,5 2,5 . |
0,5 1,4 0,9 |
0,7 |
||
Du |
X, ΔX Sp t |
8,8 2,0 . |
9,0 1,6 . |
8,0 1,1 . |
0,2 1,7 NS |
0,8 1,4 1,4 |
||
Dt |
X, ΔX Sp t |
43 12 . |
39 11 . |
41 15 . |
4 11 0,9 |
2 14 NS |
||
FFmax |
X, ΔX Sp t |
375 30 . |
358 30 . |
465 48 . |
17 30 1,4 |
90 42 HS |
||
nH |
X, ΔX Sp t |
9,8 3,0 . |
8,2 1,8 . |
10,3 2,0 . |
1,6 2,2 1,8 |
0,5 2,3 0,5 |
||
Note: the difference is considered non-significant when ΔX << " Sp.
ΔX = │ X2-X1│
Sp = Sx * √ (n / n-1)
NS = non-significant difference
HS = highly significant difference ( ΔX > " Sp)
========================================================================
1) Ethological study.
We have consistently observed the behaviour of nesting (pop. 1, 2 and 3) and recorded vocalizations from an hide placed near territories. From the wide variety of sounds in the colonies, we have studied statistically four vocalizations. It is the staccato alarm call ("staccato call" of TINBERGEN 1959) and three vocalizations expressed with high energy:
- The basic call ("call note"), a signal of varying intensity and meanings (call, alarm, attack);
- The "trumpeting" or "complete long call", a territorial call;
- The "mew call", a signal of recognition in the family (partner or parent).
Thirty vocalizations of each type delivered by thirty individuals in each of the two colonies, and eight by birds nesting of the island of Oléron were recorded and transcribed into sonograms.
For each sonogram, factor duration and frequency were measured (units in brackets):
- Total length (Dt), (10-2 sec.)
- Unit length (Du) for repetitive calls (10-2 sec.)
- Rate (C) for calls,
- Number of units (K) for the staccato calls,
- Duration of upward glissando (Da) and descending (Dd) ((10-2 sec.)
- Maximum fundamental frequency (FFmax) (Hz),
- Fundamental frequency of the level (FFP) for mew call, (Hz),
- Fundamental frequency at the glissando of the slide down (FFB), (Hz),
- Number of harmonics (nH).
Averages (x) and standard deviation (Sx) of these factors were calculated for each sample and estimated for the corresponding populations (Y, Sp). Averages were then compared by the Student t test to 95% confidence interval.
RESULTS
1) Ethological comparison.
There appeared to be no difference in behaviour between the three breeding populations. However, acoustic analysis brings new information (Tables I to IV and Fig. 1 and 2):
- When comparing Oléron and Camargue populations, there is no significant difference (t <2.0) in averages for all four vocalizations (24 factors analyzed).
- On the opposite, all four types of vocalizations significantly differ between all populations of Oléron and the Basque Country (as well as those of Camargue vs. Basque Country).
Especially, three calls with high-volume output – basic call, mew call and trumpeting - differ highly significantly regarding most of the analyzed factors (13 out of 18 factors).
The staccato calls are less dissimilar among the six factors compared here, only frequency (FFmax) differs significantly between these populations.