Department of Animal and Aquacultural Sciences, Faculty of Biosciences, Norwegian University of Life Sciences, Ås, P.O. Box 5003, N-1432 Ås, Norway.
Department of Animal Environment and Health, Swedish University of Agricultural Sciences, P.O.B. 7068, SE-750 07 Uppsala, Sweden.
Animal. 2024 Jun;18(6):101157. doi: 10.1016/j.animal.2024.101157. Epub 2024 Apr 12.
The comb is an ornament involved in signalling condition in domestic fowl. We hypothesised that comb size, comb shape complexity (i.e., rugosity, the comb perimeter jaggedness), and comb laterality of laying hens would be influenced by the degree of environmental enrichment experienced during juvenile development in the form of resource choice. We conducted a 2 × 2 factorial crossover experiment with pullets reared in pens containing four perches of equal length and four litter areas of equal size. Pullets were exposed to a single choice vs multiple choices of perch and litter types (i.e., all the same vs all different) during Weeks 1-4 (Period 1) and/or Weeks 5-15 (Period 2) of rearing (n = 4 pens/treatment combination) prior to transfer to standard adult laying pens for Weeks 16-27 (Period 3). In Week 27, combs were photographed, and comb laterality (hanging on left or right side) was noted. Using a custom-made image analysis programme, we captured comb area (mm), perimeter length (mm), and rugosity ((perimeter length - horizontal length) / horizontal length) from comb photographs of 6-7 randomly selected hens/pen. We predicted that hens reared in the multi-choice environment during Periods 1 and 2 would have larger, more complex, and left-side-biased combs than those in the other treatment groups, reflecting lower allostatic load. The predicted comb side bias was based on a possible bias in head posture/movements associated with greater right eye/ear use and left-brain hemispheric dominance. Contrary to our predictions, we detected an overall right-side bias in comb laterality, and no associations between resource choice treatment in Period 1 or Period 2 and comb area, perimeter length, rugosity, or laterality of the adult hens. Thus, variation in allostatic load resulting from the rearing treatments was insufficient to modify the trajectory of comb morphological development, possibly due to a ceiling effect when comparing environmental treatments on the positive end of the welfare spectrum. We found that left-lopping combs had shorter perimeters than right-lopping combs. However, among hens with left-lopping combs, those with larger combs were heavier and had less feather damage, while among hens with right-lopping combs, those with longer-perimeter combs were heavier and tended to have less comb damage. In conclusion, comb characteristics were related to physical condition at the individual level but did not serve as sensitive integrated indicators of hen welfare in response to basic vs enhanced resource choice during rearing.
梳子是家禽中参与信号传递的一种装饰品。我们假设,蛋鸡的梳子大小、梳子形状复杂性(即粗糙度,梳子周长锯齿状)和梳子的偏侧性会受到幼年时期环境丰富度的影响,这种丰富度表现为资源选择。我们进行了一项 2×2 因子交叉实验,育雏鸡被饲养在有四个等长栖木和四个等大面积垫料区的围栏中。育雏鸡在第 1-4 周(第 1 期)和/或第 5-15 周(第 2 期)期间被暴露在单一选择或多种选择的栖木和垫料类型(即全部相同或全部不同)下(n=4 个围栏/处理组合),然后在第 16-27 周转移到标准的成年产蛋鸡围栏(第 3 期)。在第 27 周,拍摄了梳子的照片,并记录了梳子的偏侧性(挂在左侧或右侧)。使用定制的图像分析程序,我们从 6-7 只随机选择的母鸡/围栏的梳子照片中捕捉了梳子面积(mm)、周长长度(mm)和粗糙度((周长长度-水平长度)/水平长度)。我们预测,在第 1 期和第 2 期在多选择环境中饲养的母鸡的梳子会比其他处理组的梳子更大、更复杂、偏向左侧,这反映了较低的应激负荷。预测的梳子侧偏是基于头部姿势/运动的可能偏侧性,与右耳/眼的更多使用和左脑半球优势有关。与我们的预测相反,我们在成年母鸡的梳子偏侧性上检测到了整体的右侧偏侧性,而且在第 1 期或第 2 期的资源选择处理与梳子面积、周长长度、粗糙度或成年母鸡的偏侧性之间没有关联。因此,由于饲养处理导致的应激负荷的变化不足以改变梳子形态发育的轨迹,这可能是由于在福利谱的积极端比较环境处理时存在上限效应。我们发现,左偏梳子的周长比右偏梳子短。然而,在左侧偏梳子的母鸡中,梳子较大的母鸡体重较重,羽毛损伤较少,而在右侧偏梳子的母鸡中,周长较长的梳子的母鸡体重较重,且倾向于梳子损伤较小。总的来说,梳子的特征与个体水平的身体状况有关,但在响应饲养过程中基本资源选择与增强资源选择时,不能作为母鸡福利的敏感综合指标。
