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Drift seeds (also sea beans) and drift fruits are seeds and fruits adapted for long-distance dispersal by water. Most are produced by tropical trees, and they can be found on distant beaches after drifting thousands of miles through ocean currents .
What we do know is, the moths benefit when the sloths leave their trees to poop. The more moths that make the sloth fur their home, the more the algae can grow, and the greener the sloth fur becomes.
Inside the pods are ten to fifteen seeds, each of which have a diameter of 6 cm (2.4 in) and a thickness of 2 cm (0.79 in). [6] The seeds contain a hollow cavity, which gives them buoyancy. After being washed by rain into rivers and then the ocean, the seeds of E. gigas drift long distances on ocean currents. Seed buoyancy and vitality lasts at ...
Of the six major plant parts, [n 2] seeds are the dominant source of human calories and protein. [1] A wide variety of plant species provide edible seeds; most are angiosperms, while a few are gymnosperms. As a global food source, the most important edible seeds by weight are cereals, followed by legumes, nuts, [2] then spices.
They sometimes remain hanging from branches even after death. On the ground, the maximum speed of sloths is 3 m (9.8 ft) per minute. Two-toed sloths are generally better able than three-toed sloths to disperse between clumps of trees on the ground. [34] Sloths are surprisingly strong swimmers and can reach speeds of 13.5 m (44 ft) per minute. [35]
Sloths are sexually matured by the age 3 and are ready to start reproducing of their own. [26] In captivity, the two-toed sloth was seen giving birth by hanging upside down and attempting to pull the infant between her hind limbs and onto her abdomen. Other sloths were seen hanging under the mother and infant to protect the infant from falling ...
Lianas do not derive nutrients directly from trees but live on and derive nutrients at the expense of trees. [ 3 ] [ 4 ] Specifically, they greatly reduce tree growth [ 5 ] and tree reproduction, [ 6 ] greatly increase tree mortality, [ 7 ] prevent tree seedlings from establishing, [ 5 ] alter the course of regeneration in forests, [ 8 ] and ...
Unlike other ground sloths which put a lot of stress on their hind limbs for locomotion—specifically from standing on two legs —the leg bones of Thalassocnus are slender. Bipedalism also led to shorter tibiae in ground sloths; the opposite is seen in Thalassocnus where the tibiae and femora are about the same length. [19]