Science, Art, Litt, Science based Art & Science Communication
Giraffes, camels and cattle can go non-veg!: When we see giraffes eating leaves in the wild or pics of them we think it is a gentle herbivore feeding on leaves hanging from the tops of trees. But a new video shows a giraffe in South Africa feeding on something entirely different—the skull of a buffalo.
While the act might look gruesome, feeding on bones provides giraffes with the calcium and phosphorous they need for their own skeletons. A 2013 study published in the Journal of Archaeological Science found that it's not just bones giraffes feed on. The tall mammal also regularly consumes antlers, horns, and ivory.
The behavior is known as osteophagia and varies by individual. Especially tall giraffes, for instance, may be more prone to feeding on bones than those that are shorter.
One past study theorized that giraffes more frequently consume bones as a result of nutritional stress. Seasonal changes that resulted in less foliage likely prompted the behavior, the study concluded.
Giraffes will rarely swallow much of the bones directly. Instead, they chew and suck on them using their saliva to dissolve nutrients, usually dropping the material once they're finished.
It's not just giraffes that supplement their diets with bones. Other herbivores, such as camels and cattle, also frequently scavenge the skeletal remains of animals.
Plants that went non-veg: Carnivorous plants occur in locations where the soil is too poor in minerals and/or too acidic for most plants to be able to grow.
Pitcher plants (or pitfall traps) are carnivorous plants whose prey-trapping mechanism features a deep cavity filled with liquid known as a pitfall trap.
Foraging, flying or crawling insects such as flies are attracted to the cavity formed by the cupped leaf, often by visual lures such as anthocyanin pigments, and nectar bribes.
The sides of the pitcher are slippery and may be grooved in such a way so as to ensure that the insects cannot climb out.
Through a mechanism of digestion, the prey is converted into a solution of amino acids, peptides, phosphates, ammonium and urea, from which the plant obtains its mineral nutrition (particularly nitrogen and phosphorus).
The path to carnivory was remarkably similar for the three species examined by scientists -- Cephalotus follicularis (the Australian pitcher plant, related to starfruit), Nepenthes alata (an Asian pitcher plant related to buckweat) and Sarracenia purpurea (an American pitcher plant related to kiwifruit). A genetic analysis, which included sequencing the entire genome of Cephalotus, found strong evidence that during their evolution into carnivores, each of these plants co-opted many of the same ancient proteins to create enzymes for digesting prey.
Over time, in all three species, plant protein families that originally assisted in self-defense against disease and other stresses developed into the digestive enzymes we see today, genetic clues suggest. These enzymes include basic chitinase, which breaks down chitin -- the major component of insects' hard, exterior exoskeletons -- and purple acid phosphatase, which enables plants to obtain phosphorus, a critical nutrient, from victims' body parts.
Enzymes in a fourth carnivorous species, the sundew Drosera adelae, a relative of Nepenthes that is not a pitcher plant, also appeared to share this evolutionary road.
Such parallel development often points to a particularly valuable adaptation
The findings represent an example of convergent evolution, in which unrelated species evolve independently to acquire similar traits.
Fishes that can climb waterfalls: A waterfall-climbing fish in Hawaii uses the same muscles to both rise and feed, researchers have discovered.
Scientists looked at the Nopoli rock-climbing goby (Sicyopterus stimpsoni), also known in Hawaiian as o'opu nopili. This plant-eating fish is found throughout Hawaii.
Many gobies can inch their way up waterfalls with the aid of a sucker on their bellies formed from fused pelvic fins. The Nopoli rock-climbing goby, on the other hand, can climb waterfalls as tall as 330ft. (100 meters) with the aid of a second mouth sucker, which develops after their mouthparts move from a forward-facing position to under the body during a two-day-long metamorphosis into an adult.
A worm that can create another itself from itself!
It develops itself inside itself, then bursts out of itself, leaving itself behind.
A typical nemertean reproduces in an orderly fashion. It lays eggs, those eggs are fertilized, and the fertilized eggs hatch a miniature version of the adult nemertean. Then there are the heteronemerteans, who come out of the egg as a larva, but that larva doesn't look like a worm. It looks a bit like a jellyfish, though some describe its shape as that of a deerstalker cap with the flaps let down. This larva — which just to make things weirder has no anus — eats plankton and flaps its way around the ocean.
So yes, this is a worm that has two stages of life, which both exist at the same time. What the hell, heteronemerteans? What even is that? Stop messing with my sense of self, nature!
Birds without great mimic power can make great sounds of the forest: The lyre bird is native of Australia...
Lyrebirds sing most in the winter (which is their breeding season). They sing to both proclaim a territory and to attract females, and these songs are not innate. Like all songbirds, lyrebirds are vocal learners. Male lyrebirds tend to learn their songs and, intriguingly, even their mimicry of other sounds, from older males rather than directly from their mimicked models.
What is clear, however, is that lyrebirds have a stunning ability to accurately mimic the sounds of the forests they inhabit. Most of their mimicry is of other avian species: calls, songs, wing beats, and beak claps, which they deliver in quick succession.
The avian sound-producing organ is the syrinx. Instead of the usual four pairs of syringeal muscles of other songbirds, lyrebirds have only three pairs. It is not known if this simplification makes them more adept at mimicry, nor is their motivation to mimic entirely clear.
While mimicry forms most of their vocal repertoire, lyrebirds also have their own songs and calls. While the “territorial” song can be melodious, the “invitation-display” call sounds mechanical to human ears. Twanging, clicking, scissors-grinding, thudding, whirring, “blick”-ing, galloping — these noisy or metallic sounds are the lyrebirds’ own and not mimicry. Nevertheless, they are often mistaken for that.
However, captive lyre birds have been found to imitate several things they hear like hammers, drills, and saws, sounds of machines and musical instruments they hear because they are familiar with several forest sounds that have resemblance with these sounds.
Trees that exhibit rainbow colours:
These colors are all natural. This peculiar tree is called Eucalyptus deglupta, commonly known as the Rainbow Eucalyptus, and also known as the Mindanao Gum, or the Rainbow Gum. The multi-coloured streaks on its trunk comes from patches of outer bark that are shed annually at different times, showing the bright-green inner bark. This then darkens and matures to give blue, purple, orange and then maroon tones.
It grows naturally in New Britain, New Guinea, Ceram, Sulawesi and Mindanao. This tree is cultivated widely around the world, mainly for pulpwood used in making paper, and also for ornamental purposes. Older layers of these colors peel off, displaying the full rainbow array of hues. One theory says that each bark layer has a one-cell-thick transparent overlay. Over time, the clear layer becomes flush with different colors of tannins and the accumulation of these tannins as well as a depletion of chlorophyll may lead to the colorful bark layers.
Goats that can climb trees and mountains : Just some goats who’ve been climbing Argan trees in Morocco for hundreds of years
When food is scarce and when only food they get is from argan trees which produce juicy fruits, goats have to adopt in order to survive! And these challenges made them to climb even harder and taller trees as well.
Worms that eat themselves in order to survive:
Ribbon worms normally consume crustaceans and molluscs as their main source of food.
Ribbon worm is another name for the Nemertea which are a branch of invertebrate animals. Usually less than 20 centimetres long and only a few millimetres wide, they are typically worm like creatures that also look flat. Some have been known to grow up to 60 metres long!
If food cannot be found, some ribbon worms will go ahead and eat themselves! It is claimed that they are able to consume 95% of themselves and still survive thereafter. The peculiar thing is that the ribbon worm is in fact poisonous for other animals.
Some animals can survive when eaten by their predators and can come out of their guts alive!
In 2012, biologists on an expedition to East Timor in southeast Asia spotted a brahminy blind snake wriggling out of somewhere quite unexpected: the rear end of a common Asian toad.Mark O'Shea from the University of Wolverhampton in the UK and his colleagues witnessed the unusual event by chance after finding the pair under a rock. It is the first account of prey surviving digestion by a toad and of an animal as big as a blind snake emerging from a digestive tract alive.
Male clownfish change sex when their partner dies, to take on their role of protecting territory and their fellow fish.
A new study has revealed the lengths that female clownfish will go to in defending their homes.
Experts from two universities in Paris have researched the behavioural, physiological and hormonal changes in anemonefish, or clownfish, over several years off the island of Moorea in French Polynesia.
Clownfish live in tropical climates on anemones where they stay their entire lives.
Male fish tend to look after the eggs and fan them while females act as security guards, issuing warning calls and even launching attacks.
It has been known for some time that the distinctively striped orange fish, become female if their mate is eaten or dies. If the female gets predated upon or dies, the male then changes sex with the help of hormones and becomes a reproductive female, the largest sub-adult male becomes her new mate with whom she lays eggs.