User:Awlamprecht/cursorial

A cursorial organism is one that is adapted specifically to run. An animal can be considered cursorial if it has the ability to run fast (e.g. cheetah) or if it can keep a constant speed for a long distance (high endurance). “Cursorial” is often used to categorize a certain locomotor mode, which is helpful for biologists who examine behaviors of different animals and the way they move in their environment. Cursorial adaptations can be identified by morphological characteristics (e.g. loss of lateral digits (e.g. ungulate species), physiological characteristics (e.g. muscle action and biomechanics), stamina, maximum speed, and how often running is used in life. There is much debate over how to define a cursorial animal specifically . The most accepted definitions include that a cursorial organism could be considered adapted to long-distance running at high speeds or has the ability to accelerate quickly over short distances. Among vertebrates, animals under 1 kg of mass are rarely considered cursorial, and cursorial behaviors and morphology is thought to only occur at relatively large body masses in mammals . There are a few mammals that have been termed “micro-cursors” that are less than 1 kg in mass and have the ability to run faster than other small animals of similar sizes.

Animals and Adaptations
Typically, cursors will have long, slender limbs mostly due to the elongation of distal limb proportions (metatarsals/metacarpals) and loss or reduction of lateral digits with a digitigrade or unguligrade foot posture. These characters are understood to decrease weight in the distal portions of the limb which allows the individual to swing the limb faster (minimizing the moment of inertia). This gives the individual the ability to move their legs fast and is assumed to contribute to the ability to produce higher speeds. A larger concentration of muscles at the pectoral and pelvic girdles, with less muscle and more tendons as you move distally down the limb, is the typical configuration for quadrupedal cursors (e.g. cheetah, greyhound, horse). All ungulates are considered cursorial based on these criteria, but in fact there are some ungulates that do not habitually run. Elongation of the limbs does increase stride length, which has been suggested to be more correlated with larger home ranges and foraging patterns in ungulates. Stride length can also be lengthened by the mobility of the shoulder girdle. Some cursorial mammals have a reduced or absent clavicle, which allows the scapula to slide forward across the ribcage.

Cursorial animals tend to have increased elastic storage in their epaxial muscles, which allows them to store elastic energy while the spine flexes and extends in the dorso-ventral plane. Furthermore, limbs in cursorially adapted mammals will tend to stay in the dorso-ventral (or sagittal) plane to increase stability when moving forward at high speeds, but this hinders the amount of lateral flexibility that limbs can have. Some felids are special in that they can pronate and supinate their forearms and run fast, but this is not the case in most other quadrupedal cursors. Ungulates and canids have restricted motion in their limbs and therefore could be considered more specialized for cursorial locomotion. Several rodents are also considered cursorial (e.g. the mara, capybara, and agouti) and have similar characters to other cursorial mammals such as reduced digits, more muscles in the proximal portion than distal portion of the limb, and straight, sagittally oriented limbs. Some rodents are bipedal and can hop quickly to move around, which is called ricochetal or saltatorial instead of cursorial.

There are also bipedal cursors. Humans are bipedal and considered to be built for endurance running. Several species of birds are also cursorial, mainly those that have attained larger body sizes (ostrich, greater rhea, emu). Most of the stride length in birds comes from movements below the knee joint, because the femur is situated horizontally and the knee joint sits more towards the front of the body. This has a lot to do with the center of mass. Different birds will increase their speed in one of two ways: by increasing the frequency of footfalls or increasing the stride length. Several studies have also found that many theropod dinosaurs (specifically coelurosaurs) were also cursorial to an extent.