As in all mammals, there are a variety of means of communication. Bats use vocalizations to communicate with each other while they are in their roosts. Mothers and infants use tactile and vocal communication. There are probably some scent cues which help mothers to recognize their young.
Echolocation is used primarily to locate food. However, communication also occurs between predator and prey through echolocation. Some insects (particularly moths) can receive the sonar pulses from the bats and fly erratically to avoid being eaten.
Communication Channels: visual ; tactile ; acoustic ; chemical
Perception Channels: visual ; tactile ; acoustic ; echolocation ; chemical
M. grisescens is considered endangered by both the United States Fish and Wildlife service, according to the Endangered Species Act, and the IUCN Red List. Although CITES does not list this species of bat on Appendix I, II, or III, it is difficult to see why.
Gray bats began encountering problems in prehistorical times when tribes of Native Americans began camping and living in the entrances of caves. The smoke from their fires likely suffocated the bats. It is also thought that they were placed in stews by Native Americans.
Guano was extracted from nearly every substantial gray bat cave in the south during the Civil War. This guano was used for gunpowder, not for fertilizer, as is commonly thought. It is thought that gray bat colonies suffered some of their largest losses during the Civil War. Studies of guano deposits in formerly occupied caves shows that gray bats (a highly resilient species) were able to prosper once again in spite of these losses.
Currently, the biggest threat to gray bat populations appears to be human disturbance at hibernation and maternity colonies. The bats in the maternity colonies do not tolerate disturbance, especially when flightless newborn young are present. Thousands of baby bats may be dropped to their deaths or abandoned by panicked parents. A colony will even completely abandon a cave in the presence of excessive disturbance. This is particularly bad because so few caves are habitable for gray bats. Starvation in the winter can also be a problem. When bats are aroused during hibernation, their important fat reserves are used up more quickly. If the disturbance is intense or frequent enough the bats may starve to death.
Despite once being one of the most abundant mammals of the southeastern United States, M. grisescens has been listed as an endangered species since 1976. In 1970 the population was estimated at 2.25 million bats after a census of 120 caves. However, a census in 1976 of 22 of the 120 caves found that these colonies had declined by an average of 54 percent each.
Other factors that influence the decline of Gray Bat populations are: vandalism, cave commercialization, toxins (like organochlorine pesticides, PCB’s, and lead), natural causes like cave-ins and flooding (killing bats and destroying important habitat), loss of caves by inundation by man-made impoundments, and reduction of insect prey over streams that have been degragaded by excessive pollution and siltation. (Arkansas Game and Fish Commission, 199; Clawson and Clark, 1989)
Improper gating at cave entrances also presents a problem. Gates must allow the airflow, temperature, humidity, and amount of light entering the cave to be the same as it was prior to the gate installment. Although steel bar gates do provide excellent protection from humans, these gates may be detrimental to bats by giving predators a place to perch and wait for bats to emerge. It has also been found that bats prefer to use un-gated entrances. The alternative, if possible, would be to put up a chain link fence topped with barbedwire around the cave. This would prevent humans from entering the bats' caves, and allow the bats to fly OVER the gate, rather than through it. This would also protect them from predators perched on the gates.
Due to protective increases at high priority colony sites, declines in M. grisescens populations have been halted in some locations, and others exhibit an increase in population. Currently there are about 1.5 million gray bats in existence. Important conservation measures that have been taken to aid in the stabilization of the population, especially the acquisition of caves by the U.S. Fish and Wildlife Service. This organization is currently in control of Blowing Wind Cave in northern Alabama. This is the most important summer cave for gray bats known. Fern Cave is the largest hibernaculum for gray bats and is also under the protection of the U.S. Fish and Wildlife Service.
Additional conservation measures are needed to help M. grisescens. The purchase and protection through proper gating and restricted use of other gray bat caves is very important. Education of spelunkers and other cave visitors who may unintentionally disturb the bats is key, as well as the continuation of federal efforts to reduce pesticide use (or at least limit their lifetime in the environment).
Temperate North American bats are now threatened by a fungal disease called “white-nose syndrome.” This disease has devastated eastern North American bat populations at hibernation sites since 2007. The fungus, Geomyces destructans, grows best in cold, humid conditions that are typical of many bat hibernacula. The fungus grows on, and in some cases invades, the bodies of hibernating bats and seems to result in disturbance from hibernation, causing a debilitating loss of important metabolic resources and mass deaths. Mortality rates at some hibernation sites have been as high as 90%. While there are currently no reports of Myotis grisescens mortalities as a result of white-nose syndrome, the disease continues to expand its range in North America.
US Federal List: endangered
CITES: no special status
IUCN Red List of Threatened Species: near threatened
After entering the winter cave, female Gray Bats are inseminated by sexually active male bats. The females exhibit delayed fertilization. After copulating, the females hold the sperm through hibernation. Fertilization between the sperm and ova occurs when the female emerges from hibernation. Females do not reach sexual maturity until they are two years old. For their size, bats are among the world’s slowest reproducing mammal.
One offspring per sexually mature female is born in June when the colonies have migrated to their summer ranges. The period between birth and weaning is two months. During these two months there is segregation between members of the colony. The adult females and their newborns roost in maternity caves. The adult males and yearlings of both sexes roost in bachelor caves. By August, all the juveniles are flying (most are capable of flight 20-25 days after birth) and general mixing and dispersal of the colony occurs over the summer range. The growth rates of young vary with the temperature at the maternity roosts. It has been discovered that young in warmer roost situations grow more rapidly. (U.S. Fish and Wildlife Service, 1992; U.S. Fish and Wildlife Service Division of Endangered Species, 1991)
Development - Life Cycle: colonial growth
They do not adversely affect humans. Gray Bats are great!
Insectivorous bats remove millions of insects a night, aiding in the control of these populations. Also, because of their roosting habits, inhabiting a small number of specific caves for long periods of time, these bats produce huge piles of feces on the floors of caves. Historically, this guano was used to make gunpowder during the civil war. Also, native americans used to eat these bats in stews.
Positive Impacts: food ; body parts are source of valuable material; produces fertilizer; controls pest population
One bat can catch up to 3,000 insects in one night. Because of this, they play an important role in the checks and balances of nature as the primary controllers of night-flying aquatic insects.
M. grisescens forages over streams and reservoirs where they consume night-flying aquatic insects. Like all microchiropterans, gray bats rely on echolocation to locate their food.
Most foraging occurs within 5 meters of the water surface over which they are feeding.
Until most recently, studies focusing on the diet of gray bats were not preformed. Data on this subject are therefore preliminary. Whether gray bats are opportunistic or selective feeders is still in debate. Recent studies suggest that this species feeds selectively, but more information is needed.
Originally it was thought that gray bats fed primarily on mayflies. M. grisescens has been seen feeding in large swarms of mayflies, but this insect has not been turning up in fecal analysis in the proportion that might have been expected. It is possible that mayflies are wholly digested, thus not often seen in the fecal records.
Analysis of gray bat feces has shown that thes bats most often select moths, flies, and beetles as prey when these species are present.
Other prey includes spiders, bugs, leafhoppers, scorpionflies, lacewings, dragonflies, stoneflies, grasshoppers, thrips and wasps. Various insects occur sporadically in fecal pellet analysis.
Animal Foods: insects; terrestrial non-insect arthropods
Primary Diet: carnivore (Insectivore )
Myotis grisescens is widely distributed in the southeastern United States of America. The distribution of gray bats within their range has always been patchy. Gray bats inhabit the cave regions of northern Arkansas, Missouri, Kentucky, Tennessee, and Alabama. There are also occasional colonies in northwestern Florida, western Georgia, southwestern Kansas, southern Indiana, southern and southwestern Illinois, northeastern Oklahoma, northeastern Mississippi, western Virginia, and possibly western North Carolina.
Biogeographic Regions: nearctic (Native )
Gray bats are restricted entirely to areas with caves or cave-like habitats. These caves are in limestone karst areas of the southeastern United States. Gray bats do not inhabit barns or other similar structures. This leads to extremely restricted nesting opportunities. Due to their requirement of unique cave types, Gray bats can only use 0.1% of available caves in the winter and 2.4% in the summer.
Ninety-five percent of the total Gray bat population hibernates in only eight or nine caves. Two are located in Tennessee, three in Missouri, one in Kentucky, one in Alabama, and one in Arkansas. The Arkansas hibernation cave houses about 250,000 Gray bats. The winter caves utilized by Gray bats have deep, vertical passages with large rooms that function as cold air traps. The temperature of these caves ranges between 6 and 11 degrees Celsius (42 and 52 degrees Fahrenheit).
As they are for the winter sites, gray bats are highly selective for caves providing specific temperature and roost conditions in the summer. These caves are warm, ranging between 14 and 25 degrees Celsius (57 and 77 degrees Fahrenheit). As an alternative to finding a cave within this temperature range, they can roost in caves with small rooms or dorms that trap the body heat of the roosting bats. Summer colonies of gray bats occupy a home range that often contains several roosting caves scattered along as much as 81 kilometers of river or lake shore. Banding studies have indicated that gray bats prefer summer caves that have a feeding area (river or other reservoir of water) not over 2 kilometers away. Despite this, they have been known to fly as far as 19 kilometers from the colony to feed.
Habitat Regions: temperate ; terrestrial
Other Habitat Features: riparian
The maximum lifespan for gray bats is 14-15 years.
Typical lifespan
Status: wild: 14 to 15 years.
M. grisecens is the largest member of its genus in the eastern United States. They weigh between 7 and 16 g and are 75 to 101 mm in length. Forearm length ranges between 40 and 46 mm. Gray bats can be distinguished from all other eastern bats by their uni-colored dorsal fur (all others have bi- or tri-colored dorsal fur). They are also the only species of Myotis in which the wing membrane connects to the foot at the ankle as opposed to connecting at the base of the first toe.
Gray bats are dark gray in color directly after they molt in July or August. Between molts, they bleach to a russet color. This difference in fur color is most apparent in females during the reproductive season (May or June).
Range mass: 7 to 16 g.
Range length: 75 to 101 mm.
Other Physical Features: endothermic ; heterothermic ; bilateral symmetry
Sexual Dimorphism: sexes alike
Gray bats may fall prey to howks, owls, skunks, foxes, mice, snakes, and housecats. Anti-predator adaptations include avoiding crowded cave entrances and flying more rapidly when exiting and entering the cave.
Known Predators:
Information on the mating system of these animals is sparse. They are reportedly polygynous.
Mating System: polygynous
Breeding in this species occurs shortly after the bats enter their hiberation caves. After entering the winter cave, the female gray bat is inseminated. Females exhibit delayed fertilization. After copulating, a female holds the sperm through hibernation. Fertilization of ova occurs when the female emerges from hibernation.
Females do not reach sexual maturity until they are two years old. For their size, bats are among the world’s slowest reproducing mammal.
Females give birth to a single offspring in June, after migration to the summer caves has taken place. The period between birth and weaning is two months. During these two months there is segregation between members of the colony. The adult females and their newborns roost in maternity caves. The adult males and yearlings of both sexes roost in bachelor caves.
By August, all the juveniles are flying (most are capable of flight 20-25 days after birth) and general mixing and dispersal of the colony occurs over the summer range.
The growth rates of young vary with the temperature at the maternity roosts. It has been discovered that young in warmer roost situations grow more rapidly.
Breeding interval: These animals breed once per year.
Breeding season: Breeding occurs in the fall, when the bats enter their winter caves.
Range number of offspring: 1 to 1.
Average weaning age: 60 days.
Average age at sexual or reproductive maturity (female): 2 years.
Average age at sexual or reproductive maturity (male): 2 years.
Key Reproductive Features: iteroparous ; seasonal breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; fertilization (Internal ); viviparous ; sperm-storing ; delayed fertilization
Average birth mass: 2.9 g.
Average number of offspring: 1.
Average age at sexual or reproductive maturity (male)
Sex: male: 456 days.
Average age at sexual or reproductive maturity (female)
Sex: female: 456 days.
As in all mammals, the mother provides milk to her growing young. Neonate gray bats are altricial. The mother attends to her young in a nursery cave. This is especially interesting, because the mother can locate her own offspring among the hundreds of baby bats which may be in the cave.
Parental Investment: altricial ; pre-hatching/birth (Provisioning: Female, Protecting: Female); pre-weaning/fledging (Provisioning: Female, Protecting: Female)
