Special Information About Bats

Bats are mammals of the order Chiroptera; with their forelimbs adapted as wings, they are the only mammals capable of true and sustained flight. Bats are more manoeuvrable than birds, flying with their very long spread-out digits covered with a thin membrane or patagium.

Scientific name: Chiroptera
Displayed higher classification: Mammal
Phylum: Chordata
Hibernation period: 183 days

For centuries, bats have been called sinister and spooky, likely because of their beady eyes and razor-sharp fangs. But there’s more to these nocturnal creatures than meets the eyes. There are more than 1,300 species of bats in the world, making them the second most common group of mammals after rodents. Some weigh less than a penny, while others have a wingspan of six feet, but all are impressive and vital members of their ecosystems.



Winging it

The scientific name for bats is Chiroptera, which is Greek for “hand wing.” That’s because bats have four long fingers and a thumb, each connected to the next by a thin layer of skin. They are the only mammals in the world that can fly, and they are remarkably good at it. Their flexible skin membrane and movable joints allow them to change direction quickly and catch mosquitoes in midair.

Classification

There are two main types of bats: microbats and megabats. Most bats are microbats, which eat insects like moths, that come out at night. Vampire bats are the only species of microbats that feed on blood rather than insects. But not to worry—they prefer to drink from cattle and horses, not humans.

To navigate dark caves and hunt after dark, microbats rely on echolocation, a system that allows them to locate objects using sound waves. They echolocate by making a high-pitched sound that travels until it hits an object and bounces back to them. This echo tells them an object’s size and how far away it is.

In contrast, megabats live in the tropics and eat fruit, nectar, and pollen. They have larger eyes and a stronger sense of smell than microbats but have smaller ears because they don’t echolocate. There are more than 150 species of megabats, which are usually, but not always, larger than microbats.

Roosting

Bats can be found nearly everywhere, except in polar regions, extreme deserts, and a few isolated islands. They spend their daylight hours hiding in roosts around the tropics, dense forests, and wetlands. Roosts are where bats go to rest, usually in cracks and crevices that keep them hidden and protected. The most common roosts are existing structures such as caves, tree hollows, and old buildings.

Seasons often dictate where any bats choose their homes. depending on the time of year because they hibernate during the winter. For example, in the winter, some may hibernate in cavBats are mammals of the order Chiroptera; with their forelimbs adapted as wings, they are the only mammals capable of true and sustained flight. Bats are more manoeuvrable than birds, flying with their very long spread-out digits covered with a thin membrane or patagium.

No matter where they spend their seasons, all bats roost upside down. They can hang from their hind feet and legs while resting. Scientists still aren’t sure why bats do this, but here’s one theory: Bats have to fall into flight, which makes hanging upside down the best way to escape quickly.

Nature’s conservationists

Despite all the misconceptions surrounding bats, they are very important to humans and the environment. Insect-eating microbats consume millions of bugs a night, acting as a natural pest control for plants. Thanks to bats, farmers might rely less on toxic pesticides, which costs them millions of dollars each year. Nectar-drinking bats pollinate plants so they can produce fruit. In fact, more than 500 plant species, including mangoes, bananas, and avocados, depend on bats for pollination. Finally, fruit-eating bats help disperse seeds so rainforests can grow, helping to mitigate the effects of widespread deforestation.es, and in the summer, they’ll return to an attic. Because good roosts can be hard to find, many live in giant colonies with millions of other bats.

Life cycle

Details of the life cycle are known for only a few species. In northern temperate zone species, there is an annual cycle of sexual activity, with birth taking place between May and July. In males the testes, normally located in the abdominal region, descend seasonally into the scrotum, and active spermatogenesis occurs. In females sexual receptivity may be associated with egg maturation and release. Tropical bats may exhibit a single annual sexual cycle or may be diestrous (i.e., have two periods of fertility) or polyestrous (have many).

The sexual cycles of entire populations are closely synchronized, so almost all mating occurs within a few weeks. The periods of gestation, birth, lactation, and weaning are also usually synchronized. Gestation varies in duration: five or six months in flying foxes (Pteropus), more than five months in vampire bats (Desmodus), three months in some small leaf-nosed bats (Hipposideros), and 6 or 7 to 14 weeks in several small vesper bats (family Vespertilionidae). The length of gestation may be influenced by both ambient (surrounding) and body temperature.

In several North American and northern Eurasian vesper and horseshoe bats that hibernate, copulation occurs in the fall, and the sperm are stored in the female genital tract until spring. Ovulation, fertilization, and implantation occur after emergence from hibernation, when the female again has available an abundant food supply and a warm roost. Such favourable environmental conditions greatly enhance the young bat’s chances of survival.

Most bats bear one young, but the big brown bat (Eptesicus fuscus) may bear twins, and the Eastern red bat (Lasiurus borealis) bears litters of one to four.

At birth the young, which may weigh from one-sixth to one-third as much as the mother, usually have well-developed hind legs with which they hold on to their mother or to the roost. Their wings are very immature. The young are hairless or lightly furred and are often briefly blind and deaf. Female bats normally have one pectoral (at the chest) or axillary (at the armpit) mammary gland on each side. Several species that carry their young while foraging also have a pair of false pubic nipples, which the infant may hold in its mouth when its mother flies. The infants are nourished by milk for a period of about five or six weeks in many small bats and for five months in the Indian flying fox (Pteropus giganteus). By two months of age, most smaller bats have been flying and foraging for three or four weeks and have achieved adult size.

In many species females late in pregnancy migrate to special nursery roosts, in which large numbers of pregnant females may aggregate, usually to the exclusion of nonpregnant females, males, and bats of other species. In some cases the nursery roosts seem to be chosen for their high temperature, which may derive from the sun, from the bats themselves, or from decomposing guano. When foraging, some bats (Erophylla) leave their infants hanging quietly, one by one, on the cave wall or ceiling. In the case of the Mexican free-tailed bat and a few others, the closely spaced infants may move about and mingle on the wall. Some bats carry their young with them for a short period of time. Generally, each mother, on returning to her roost, seeks out her own offspring by position, smell, and acoustical exchange.

Some bats achieve sexual maturity in their first year, others in their second. Infant mortality appears to be high. Developmental and genetic errors and disease take their toll, but accidents seem to cause more serious losses—the young may fall from the ceiling or perhaps have serious collisions in early flight attempts. A fair number of bats probably fail to make the transition from dependent infants to self-sufficient foragers.

Adult bats, on the other hand, have low mortality. Predation is rarely serious, especially for cave-dwelling species. Disease, parasitic infestation, starvation, and accidents apparently take small tolls. There are records of several big brown (Eptesicus fuscus), little brown (Myotis lucifugus), and greater horseshoe bats (Rhinolophus ferrumequinum) that have lived more than 20 years, and a few have lived more than 30. Probably many bats in temperate climates live more than 10 years. Longevity has not been established for most tropical species, but a few are known to live for more than 10 years.

Several factors probably contribute to the unusual longevity of bats. Generally isolated roosts and nocturnal flight substantially protect them from predation, from some elements of weather, and from exposure to the sun. Their largely colonial way of life may ensure that entire populations experience contagious infection and subsequent immunity; indeed, such a pattern in the past may have hastened adaptation to disease. The persistent use of various seasonal roosts probably ensures isolation and security, food and water supplies, and access to mates. Many bats, moreover, reduce their body temperature at rest. Not only is there a probability that this conserves some cellular “machinery,” since metabolism is reduced, but fewer hours need to be spent in actively seeking food and water.





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