Grazing pressure is defined as the number of grazing animals of a specified class (age, species, physiological status like pregnant) per unit weight of herbage (herbage biomass). It is well established in general usage. ^[1]

Grazing pressure is the demand for feed from herbivores and detritivores within an environment compared to the amount available for consumption. This could come from domestic animals, such as goats and cattle; feral animals, such as rabbits; and wild animals, such as insects, rodents, kangaroos, water buffalo, or moose. Even some microbes are grazers. Total grazing pressure is the ratio of the demand for forage and the supply of forage available.^[2] Demand can come from both livestock and native or feral animals. Grassland ecosystems in particular have evolved in the presence of grazing from large herbivores and are well-adapted to it.

Grazing pressure due to livestock can be regulated and controlled more easily compared to that from native and feral animals.^[3] Rather than use open fields for grazing among domestic animals, cereal pastures may be used as an alternative. This reduces the grazing pressure on local shrublands. In areas of the Mediterranean, both mature goats and their kids were found to affect local shrubbery. Older goats spent about a third of their time grazing in the shrubs, while their young spent at least half their time. The amount of time spent in each type of grazing are also correlated with the genotype of the goat. While the goats were found in the pastures a majority of the time, their grazing patterns still affected local wildlife and shrub growth.^[4] Grazing pressure is not only a problem regarding natural grasslands and shrubbery. In northwestern Europe, the rising goose population has caused an increase in grazing pressure on agricultural lands.^[5]

While grazing pressure is more commonly thought in larger herbivores such as cattle, geese, and goats, it is also found within bacterium and on a more microbial level. Leaf-litter colonizing bacteria are a type of bacterium that have been studied regarding grazing pressure on a smaller scale. While it seems that grazing pressure in such a localized environment would not have any large effects, one study found the opposite. Conducted in 2014, researchers found that when they added nitrogen and phosphorus, as well as increased the temperature, it increased the density of the bacteria within a freshwater environment. While this was a controlled experiment, there are real life consequences that should be considered as global warming becomes a greater issue. If the populations of bacteria increase enough then it is possible that the grazing pressure will reach a detrimental level. Once it reaches this peak, the bacteria will have depleted their food resources and may perhaps cause a collapse within the environmental food chain in that area.^[10]

Another negative effect caused by grazing pressure was found in mangrove forest soils. Sulfate, which is used in the oxidation of organic matter, is dependent on the surplus of carbon left by aerobic organisms due to oxygen depletion. When a mix of tidal exposure and camel grazing pressure were placed on the habitat, there was a decrease in primary production, which in turn affected sulfate-cycling. A decrease in sulfate-cycling could cause the trees in the forest to slow down their oxidation process.^[11]

The native kangaroo population in Australia is kept under control by hunters. This helps to contain the grazing pressure level while turning a profit for locals. Hunters must abide by a quota set by the Australian federal government. Kangaroo hunting is an effective control method in open areas but are less effective in dense areas where human accessibility is limited. While effective in the native kangaroo population, shooting is not effective within the goat population where herds are much larger. Instead, large herds are mustered together by a plane or trapped.^[12] Trapping is illegal within the kangaroo population.

Another method of population control is limiting the water in the area. Australian governments have been known to cap bores or troughs in order to get feral kangaroos or goats to move on. Some farmers have created kangaroo-proof fences with swing or trap gates that allows cattle and sheep in but keeps other animals out. These fences protect water sources and pastures, forcing kangaroos to move on elsewhere for resources. One problem with this method of reducing grazing pressure in one area, is simply pushing the problem on neighboring pastures and croplands.

In other areas of the world, such as Europe, where rising goose levels are becoming a problem for local agricultural pastures, other ideas have been contemplated. It was proposed that by managing nature reserves in the area, this might help decrease the negative effect of grazing pressure on farmland. By increasing the number of geese that can make use of the native flora on the reserves, this will cut costs for the crops lost to geese grazing on farmlands.^[13]