Bactrian camels are exceptionally adept at withstanding wide variations in temperature, ranging from freezing cold to blistering heat. They can go without water for months at a time, but when water is available they may drink up to . A thirsty camel in a hot dry season can drink up to of water in one day. When well fed, the humps are plump and erect, but as resources decline, they shrink and lean to the side. When moving faster than a
walking speed, they
pace, by stepping forwards with both legs on the same side (as opposed to
trotting, using alternate diagonals as done by most other quadrupeds). Speeds of up to have been recorded, but they rarely move this fast. Usually doing sustained speeds of Domestic Bactrian camels have also been observed swimming.
Reproduction Bactrian camels are
induced ovulators – they
ovulate after insemination (insertion of semen into the
vagina); the seminal plasma, not the
spermatozoa, induces ovulation. Ovulation occurs in 87% of females after insemination: 66% ovulate within 36 hours and the rest by 48 hours (the same as natural mating). The least amount of
semen required to elicit ovulation is about 1.0 ml. Males during mating time are often quite violent and may bite, spit, or attempt to sit on other male camels. The age of
sexual maturity varies, but is usually reached at 3–5 years. Gestation lasts around 13 months. One or occasionally two calves are produced, and the female can give birth to a new calf every other year. Young Bactrian camels are
precocial, being able to stand and run shortly after birth, and are fairly large at an average birth weight of . They are nursed for about 1.5 years. The young calf stays with its mother for three to five years, until it reaches sexual maturity, and often helps raise subsequent generations for those years. Wild camels sometimes breed with domesticated or feral camels. Bactrian camels have been domesticated for thousands of years and are widely bred by pastoralist and agricultural communities across Central Asia, the Middle East, and parts of China and Mongolia. Breeding practices vary by region, but most focus on traits such as hardiness, milk production, load-bearing ability, and temperament. In Mongolia, herders traditionally manage breeding by selectively mating camels during the rutting season, often using older, experienced bulls known for their vigor and fertility. These males are isolated with females to encourage mating and reduce aggression toward other camels. In Iran and parts of Afghanistan, camel breeding is commonly integrated into mixed farming systems, where camels provide transport and milk alongside other livestock. Semen collection and artificial insemination techniques are increasingly used in breeding programs in Central Asia, particularly in Kazakhstan and Uzbekistan, to improve genetic stock and ensure ovulation timing aligns with optimal conditions for conception. In China's Xinjiang region, large-scale camel farms are maintained by both government-supported operations and private breeders, focusing on conserving the genetics of the domesticated Bactrian camel and improving reproductive efficiency. Advances in veterinary care, nutritional supplementation, and controlled breeding environments have increased calving rates in recent decades. Across these regions, breeding cycles are timed to coincide with favorable seasonal conditions to maximize calf survival. Female camels are usually bred every two years to allow for full recovery after gestation and lactation, although in some cases, higher-frequency breeding is practiced under intensive management systems. Offspring are commonly used in transportation, wool production, or sold in local markets, forming a critical part of the livelihood for many camel-rearing communities. == Climate adaptations ==