Category Plants & Animals

          You must have seen insects buzzing around a glowing lamp or bulb in your homes. The surprising aspect is that it is only the male insects that get attracted towards light. Moreover, insects are not attracted equally to all sources of light. Do you know why this happens? 

          The attraction of insects to light has been a subject of interest to researchers since Aristotle’s time. In the late nineteenth century, this phenomenon was studied in great detail by S.W. Frost of Pennsylvania University, U.S.A. Later, from an extensive study of this subject, a French entomologist, J.H. Fabre was able to provide a proper explanation.

          Fabre put forth the theory that certain radiations coming out from the light source are responsible for the attraction of insects. This has now been confirmed by some experiments that a series of narrow bands of infrared radiations emitted by the source of light, produce the attraction for insects. This study was conducted on moths.

          There is a gland at the tip of the female’s abdomen from which it releases some acetate molecules. These are called pheromone or sex scent. This chemical emits some infrared radiations which spread through air. The male moth, flying at some distance from the female, picks up these radiations and gets attracted towards the female.

          The most acute sense of smell exhibited in nature is that of the male emperor moth (Eudia pavonia) which according to German experiments in 1961, can detect the sex attachment of the female at a distance of almost 11 km. Some moths get attracted towards light under the impression that some female moths are there. Thus the search for the female leads it to the light.

          Candle lights emit sufficient amount of such radiations, thus attracting a lot of male insects. Insects are also attracted to street lights for the same reason.

          It has been found from different studies that the pheromones of different insects are not alike. That is why all insects are not equally attracted towards light. Similar is the case with different light sources. If a light source does not produce these infra-red radiations, insects will not be attracted towards it. This process of insect communication is very complicated and needs sophisticated equipment for study.

          Insect is such a tiny creature that it is difficult to believe that it has a circulatory system and has blood in its body. But interestingly insects have a heart, blood and other organs.

          Insects are found everywhere in the world, except in the deep seas. Fossils indicate that they have existed on earth for more than 400 million years. They have been able to adapt quickly and efficiently, to environmental and climatic changes.

          The body of an insect is divided into three sections: head, thorax and abdomen. The head has one pair of antennae which serve to convey the senses of touch, taste and smell. There are usually two compound eyes which provide proper vision and two or three simple eyes (ocelli) which detect light or darkness. The mouth may have biting or chewing jaws or piercing and sucking structures. The head also contains a brain which connects with nerve cords in all parts of the body.

          The thorax or middle part of the body has three pairs of jointed legs. These legs are equipped with sticky pads or claws at the end. Insects are the only invertebrates with wings. Although most insects have two pairs of wings, some have only one pair or no wings at all.

Continue reading “Do insects have organs and blood?”

            In cold countries, when the temperature falls below the freezing point, water, lakes and rivers get frozen. Under such conditions, how do aquatic plants and animals survive?

            Generally all liquids expand on heating, but water is an exception. At 0°C, if water is heated gradually, its volume decreases and this contraction continues till the temperature rises to 4°C. Above 4°C water starts expanding and keeps on expanding with further rise in temperature. This shows that at 4°C, the volume occupied by a given mass of water is minimum. In other words, the density of water at 4°C is maximum. This irregular expansion of water is known as anomalous expansion.

            This anomalous expansion of water plays an important role in nature. Due to this only the upper layers of water in the ponds and lakes in cold countries get freezed. Lower layers remain as water, and as a result aquatic animals survive.

            In cold countries, during winter when the atmospheric temperature is very low, the upper layers of water in the lakes and ponds start cooling. When the temperature of the surface layer falls to 4°C, the water acquires maximum density and sinks down. The lower layers of water then rise up. This water also gets cooled to 4°C and again sinks down. The process continues till the temperature of the whole water falls to 4°C. As the temperature falls below 4°C, the density of water decreases and as a result water at the surface becomes lighter and does not sink down. The surface water finally freezes while the lower layers remain at 4°C. As ice is a bad conductor of heat, freezing in the lower layers is a very slow process. Thus underneath the frozen layer, fish and other aquatic animals and plants survive. Had the expansion of water been uniform, the lakes or ponds would have been completely frozen, along with the aquatic plants and animals. In this situation no plant and animal would have survived.

               According to ornithologists, the hearing abilities of birds are similar to those of man. Birds have ears for hearing which are in many respects similar to those of reptiles. The outer ear consists of a short external passage or meatus, ordinarily hidden under the feathers at the side of the head. Most birds have a muscle in the skin around the meatus that can partially or completely close the opening. The tympanic membrane bulges out. From the inner surface of the tympanic membrane, an ocular chain transmits vibrations of cochlea. The chain consists of an osseous inner element, the columella and a cartilaginous extra-columella that extends the columella peripherally and connects with the tympanic membrane. 

               It has been observed experimentally that most of the birds respond over a frequency range from 100 to 12,800 Hz. The frequency range of human ear is from 20 Hz to 20,000 Hz. Birds can separate sounds which appear as continuous to the human ear.

              Birds use their hearing power to guard themselves against enemies and other kinds of danger. Some birds also use vocalizations to identify their mates or group member. Owls locate and catch their prey by auditory cues.

               Birds are warm-blooded animals of the class ‘Aves’. Like mammals they are vertebrates. They do not bear their young but lay eggs from which they are hatched.

               Birds have feathers, wings and beaks that make them different from other animals. They don’t have any teeth. They mainly feed on insects, seeds and animal flesh. Their sight is well-developed and highly efficient, but their sense of smell is rather poor.

               There are about 9000 species of birds. They range in size from the tiny humming bird of about 5 cm in length, to the ostrich, which can grow 2.5 metres in height and can weigh as much as 136 kg!