In this article, the effects of artificial lighting on farm animals is discussed. Proper lighting is as important as ventilation, heating, and cooling. In case of animal production facilities, it can strongly influence the animal's comfort and physiological response. Artificial lighting which includes, incandescent, florescent, and LED lighting can be chosen or tuned as such that it appears natural for the animals. Animals, including poultry, livestock, swine, fish and horses, have a different spectral range of vision than humans do. Therefore, for example an incandescent light which appears yellow to humans, may appear red to poultry. Some animals such as poultry also see in the UVA region which is not possible for human vision. By choosing the correct light which looks natural to animals, they become calmer, and their aggressiveness is reduced. Sometimes they may put on weight (in cases of turkeys and chicken) or may produce more milk (in cases of milking cows). There are four factors which are important when dealing with lighting on animal farms. These factors include the intensity of light, the distribution of light, the length of the day, and the colour of light. These factors could influence animal behaviour and productivity. Many animals also require specific light and dark periods for reproduction and growth. Daily light parameters such as sunset, sunrise and seasons can be simulated by the use of lighting. For example, If the farmer wished all year to be summer, this can be accomplished by simulated lighting. The focus of this article will be mostly on Dairy/Beef Cattle, and Poultry.
Turkey farmers report that male turkeys who put on 50 pounds could become aggressive and could hurt each other. Experiments with different types of lighting have shown that some types of lighting could be more suitable and appear more natural to turkeys and can reduce their aggressiveness. Poultry, has a different spectral vision that humans do. Humans have 3 types of cones; the red, the green, the blue, and are basically trichromatic. Poultry, on the other hand are tetra chromatic and have an additional UV cone which allows them to see in the UVA region down to 360 nm. This ability to see in the UVA region has several advantages for poultry. First, Poultry can't distinguish each other if the illumination is poor in UV, which leads to a disruption in their pecking order. Second, the chicks feathers are highly reflective in UV and the hen can assess the healthiness of the chick by seeing the UV reflection which makes it possible to care for the healthier chick with more feathers and a higher possibility of survival. Figures 1 and 2 show the spectral range of vision for both poultry and humans.
In figure 1, the peak in UV is clearly observed and it is also observed that poultry’s vision has a wider spectral range than humans do.
The other factor is that the eyes of a chicken are on the side of the head in contrast to human's whose eyes are in front. Therefore, the field of vision for poultry is 300° as compared to a 180° field of vision which humans have. Figure 3 shows the field of vision for poultry.
The wider field of vision can help poultry cover more area if there is a suitable level of illumination.
Other important lighting parameters are light intensity level, colour rendering, flicker and colour. Poultry needs 30-50 lux for 80% of the area they reside. Lower levels of illumination will make them uncomfortable. Poultry doesn't like to be in the shade, therefore the shading area has to be minimized. Colour rendering is important as well and the recommended CRI index is 80. Birds use colours to distinguish each other. A light with poor CRI will reduce the ability for birds to distinguish each other which may increase their aggression level.
Figure 4 shows the irregular arrangement of five kinds of cones in a bird’s eye. The irregular arrangement of cones is due to the tight space in a bird’s eye and how the cones have evolved to fill up this tight space.
Another important lighting factor is light flicker. It turns out that birds can detect flicker below 160 Hz, so a low frequency florescent lamp can appear as a disco light with flashes which can make them very uncomfortable. It is better to use higher frequency lighting to avoid this problem. The colour of light comes into the picture depending on the age of the poultry. For younger poultry red light may be more useful because it stimulates them. However, for grown poultry, blue light will be better because it calms them down.
Livestock including beef and dairy cattle can be highly affected by lights. Beef cattle requires 80-100 lux of light for a 16 hour period per day. Dairy cattle needs more light than beef cattle. Dairy Cattle needs 150 lux for 16-18 hours per day. This has proved to produce a 5-16% increase in their milk production as compared to cows who were under 13 hours of illumination. The other factor is that livestock are nervous in the shade, so the best light design for a livestock farm would reduce the area of shade as much as possible.
Figure 5 below shows a typical livestock farm with artificial light illumination.
Allied Scientific Pro’s lighting passport is the perfect tool to assess the illuminating light for animal farms and get a quantitative measure for lux level, CRI index, flicker, spectrum, colour temperature and many other important lighting parameters as shown in Figure 6 below.
The Lighting Passport is portable and the data transfer is done through Bluetooth so it is very easy to carry it in an animal farm and make measurements. This tool should help animal farmers to adjust their lighting and increase productivity. For more information regarding the lighting passport, refer to www.lightingpassport.com