Responses of lambs to model ewes - Trevor Williams HOMEPAGE

2 downloads 0 Views 590KB Size Report
SHILLITO & ALEXANDER (1975) found that young lambs of Clun Forest,. Finnish Landrace, Jacob and .... has been described by WALTERS (1985). If the 95% ...
RESPONSES

OF LAMBS TO MODEL EWES by

ELIZABETH SHILLITO WALSER, E. WALTERS*, P. HAGUE and T. WILLIAMS1) of Institute Animal Physiology, Babraham, Cambridge CB2 4AT, and *AFRC. (ARFC Statistics Group, Department of Applied Biology, Pembroke Street, Cambridge CB2 3DX, England) (With 3 Figures) (Acc. 20-XI-1984)

While making observations of ewes and lambs in the field, it was noticed that the lambs bleated and scanned the field and often ran towards any ewe which stopped grazing and lifted up her head. This initial orientation was checked by the lamb about 8-10 m away from the ewe. The importance of visual recognition of ewes by lambs has been investigated for Merino sheep by ARNOLD, BOUNDY, MORGAN & BARTLE (1975); ALEXANDER(1977) and ALEXANDER& SHILLITOWALSER (1978).

These latter results showed that 3 week old lambs were more responsive to changes in the visual appearance of the ewe than 1 week old lambs. SHILLITO & ALEXANDER(1975) found that young lambs of Clun Forest,

Finnish Landrace, Jacob and Soay breeds would run to ewes which looked similar to their dams, but hesitated when the ewes appeared to be WALSER(1980) different; older lambs behaved in the same way. SHILLITO also demonstrated that breed identity seemed to depend mainly on sight. Visual clues can be features of the ewe such as colour, shape and size, and they can also be specific movements. It is difficult to separate movement from visual characteristics in live ewes, so that movements aiding recognition may have obscured previous observations on visual characteristics. This paper reports a series of experiments carried out with Dalesbred and Jacob lambs, to investigate the importance of sound and movement in getting the lambs to run towards their dams or another adult, using life size models of ewes with moving heads. Winfield and Kilgour (1976) used a model ewe to investigate following behaviour in young lambs.

') We thank Dr M. VOGT F.R.S. for the German summary.

1ll

RESPONSES OF LAMBS TO MODEL EWES

They found that the lambs followed the model and that playing recordings of bleating made no difference to the following response. Material and methods Experimentalanimals. Twenty-nine Dalesbred lambs and 42 Jacob lambs were tested at 22 days of age (Dalesbreds 22 ± 0.9 and Jacobs 22.5 + 0.2 days). Eight Dalesbred and 2 Jacobs were tested again at 42 days but the lambs did not respond and the second age group tests were abandoned.

~ 0;; l| in bPosts Lamb in -4

Model | Observer

.

IF'

,,16m

* Model

l--

1o0m

-

-

9m

l

Fig. 1. Plan of the experimental area.

Experimentalprocedure. The experimental area was a rectangular paddock 35 x 10 m wide, fenced on 3 sides with larch lap panels. The fourth side was made up with a hut and fence in which there was a gate (Fig. 1). Four posts across the area marked the 16 m line from the gate, and 10 m further on was one larch lap panel behind which stood the observer who operated a tape recorder and the models. The models were placed each side of the panel 6 m apart (Fig. 2). The loudspeaker was placed behind the active model. Two models resembling Dalesbred ewes were made of a wood and wire frame covered with artificial long-haired fur fabric in a natural wool colour. When Jacob lambs were tested black long-haired fur fabric was added round the neck to make the model look like a Jacob ewe (Fig. 3). The heads of the models were made of moulded paper pulp (papiermache) covering a polystyrene base, and they were painted black with white face markings which were altered as appropriate for the breed. Each head was attached to a wooden neck hinged onto the body, so that the head could be lifted by pulling a string attached to the neck and run through a pulley on an adjacent post, to the observer's position. The lambs were separated from the ewes for at least 20 minutes before being tested. The ewes were moved away from the area and kept in a hut adjacent to the field. Before they were moved, each ewe's bleats were recorded for a minute on a Uher 4200 Report Monitor tape recorder using a Sennheiser 815T microphone, at 9.5 cm/sec. When these recordings were played back to the lambs, they were played through a Sony TA-313 integrated stereo amplifier and a Tangent TM3 loudspeaker, at a volume and tone judged to be sin ilar to the real ewe's voice.

112

SHILLITO WALSER,

WALTERS,

HAGUE & WILLIAMS

WC

or bleat.

RESPONSES

113

OF LAMBS TO MODEL EWES

00* 2W.

.... ... ...

..... ...

-77 ..

?kq . ... ...... 004iN

...

Il-·;sI

.............. .. . .........

. ..

............. .. . ... .....

...........

Fig. 3. The models adapted to look like Jacob sheep.

T

114

SHILLITO WALSER,

WALTERS,

HAGUE & WILLIAMS

Statisticalanalysis. Two types of analysis were required to investigate the experimental effects in this trial. Analyses of variance were used to analyse times taken for the lambs to run to the posts. Since these data displayed some evidence of variance heterogeneity, analyses were carried out both on the linear scale and on the logarithmically transformed scale. For ease of presentation, and since the findings were very similar in both types of analysis, the details are presented on the original scale of measurement, that is in seconds. The frequency data obtained from the numbers of lambs either running within 2 m of the model, or running to the post, were analysed by constructing 95% confidence limits on linear functions of proportions, these functions representing the effects of breed, bleating, movement, or the interactionof these factors. Thus for example in Table 4, the difference between the sum of the proportions in the first column (2.8) and those in the third column (2.6) is 0.2, and is a measure of the average breed effect. The method of calculating confidence limits on linear functions of proportionswhich is employed below has been described by WALTERS (1985). If the 95% confidence limits do not embrace the value zero, it suggests the presence of a real effect.

TABLE 1. Treatment Nos. lamb Dalesbred Jacob 8 7 7

11 11 10

7

10

groups for lambs

1st Run

2nd Run

Bleating Moving No movement No bleat Movement and bleating

Moving Bleating Movement and bleating No movement No bleat

Results 1. Behaviour

of the lambs.

On the first tests, the majority of lambs looked towards the models and ran up to the posts (Fig. 1). Some ran up the centre and orientated from the posts, some ran straight from the gate to the model which had moved or bleated. When recorded bleats were played, the lambs bleated quickly in answer to the ewes bleats. Most lambs bleated on release, a few were silent until near the models. The lambs responded more quickly to the moving or bleating models than in the trials when there were no bleats or movement. The general impression was that bleating increased the orientation of the lambs. Fewer lambs moved up near to the model ewes, some turned away at the posts. Those that went near, stood and looked and bleated and when the lambs were being removed from the area, they frequently ran very near to the models as if sheltering beside them.

115

RESPONSES OF LAMBS TO MODEL EWES

During the second tests fewer lambs responded positively to the models, particularly with the Jacob lambs. Some lambs just stood by the gate bleating or moved from side to side and showed no orientation. The lambs that did respond were slower to approach, and again the models with bleating were more attractive than the silent models. Numerical results 1. Time to run to posts. In the first run there was a significant breed difference in the overall time taken to respond (Dalesbreds 7.2 ± 1.2 sec, Jacob 12.1 + 1.0 P