WHAT DO ALLIGATORS EAT?



What alligators eat will depend on its age and how big it is, and to be fair if an alligator can catch it and get it into its mouth then any prey if fair game!

When young, alligators will eat small fish, insects, snails, crustaceans, and worms. As they mature into a larger beasts, they will eat progressively larger prey. This will include larger fish such as gar, turtles, various mammals such as water birds and deer, and other reptiles. They will even consume carrion if they are sufficiently hungry. Adult alligators can take razorbacks and deer and are well known for killing and eating smaller alligators!

In areas where human populations encroach on alligator territories larger alligators are also known to ambush dogs. Attacks on humans are rare but not unknown. Unlike large crocodiles, alligators do not immediately regard a humans as prey, but they may still attack in self-defence if provoked.

Due to the design of their teeth alligators are unable to chew their food so their stomachs also often contain gizzard stones which are used to help break down and digest their food.

For related articles click onto the following links:
ALLIGATOR
THE SALTWATER CROCODILE
WHAT DO ALLIGATORS EAT?
WHAT DO KOMODO DRAGONS EAT?
WHAT IS THE DIFFERENCE BETWEEN ALLIGATORS AND CROCODILES
WHAT IS THE WORLD'S LARGEST REPTILE?

THE RAINFOREST



Rainforests are forests that are characterized by high rainfall, with definitions based on a minimum normal annual rainfall of 1750-2000 mm (68-78 inches). The monsoon trough - alternatively known as the inter-tropical convergence zone - plays a significant role in creating the climatic conditions necessary for the Earth's tropical rainforests.

Around 40% to 75% of all biotic species are indigenous to the rainforests. In fact it has been estimated that there may be many millions of species of plants, insects and microorganisms still undiscovered in tropical rainforests. Tropical rainforests have been called the 'Jewels of the Earth' and the 'World's Largest Pharmacy'. Why? Because over one quarter of natural medicines have been discovered here.

Rainforests are also responsible for 28% of the world's oxygen turnover, sometimes misnamed oxygen production, processing it through photosynthesis from carbon dioxide and consuming it through respiration.

Rainforests support a very broad array of fauna, including mammals, reptiles, birds and invertebrates. Mammals may include primates, felids and other families. Reptiles include snakes, turtles, chameleons and other families; while birds include such families as vangidae and Cuculidae. Dozens of families of invertebrates are found in rainforests.

Fungi are also very common in rainforest areas as they can feed on the decomposing remains of plants and animals. Many rainforest species are rapidly disappearing due to deforestation, habitat loss and pollution of the atmosphere.

The undergrowth in a rainforest is restricted in many areas by the poor penetration of sunlight to ground level. This makes it easy to walk through an undisturbed, mature rainforest. If the leaf canopy is destroyed or thinned, the ground beneath is soon colonized by a dense, tangled growth of vines, shrubs and small trees.

WHAT IS THE RAINFOREST MADE UP OF?

A tropical rainforest is typically divided into four main layers, each with different plants and animals adapted for life in that particular area. These layers are as follows:

1. The Emergent layer

The emergent layer contains a small number of very large trees called emergents, which grow above the general canopy, reaching heights of 45–55m, although on occasion a few species will grow to 70–80m tall. They need to be able to withstand the hot temperatures and strong winds that occur above the canopy in some areas. Eagles, butterflies, bats and certain monkeys inhabit this layer.

2. The Canopy layer

The canopy layer contains the majority of the largest trees, typically 30–45 m tall. The densest areas of biodiversity are found in the forest canopy, a more or less continuous cover of foliage formed by adjacent treetops. The canopy, by some estimates, is home to 50 percent of all plant species, suggesting that perhaps half of all life on Earth could be found there. Epiphytic plants attach to trunks and branches, and obtain water and minerals from rain and debris that collects on the supporting plants. The fauna is similar to that found in the emergent layer, but more diverse.

A quarter of all insect species are believed to exist in the rainforest canopy. Scientists have long suspected the richness of the canopy as a habitat, but have only recently developed practical methods of exploring it.

3. Understory or under-canopy layer

The understory layer lies between the canopy and the forest floor. It is home to a number of birds, snakes and lizards, as well as predators such as jaguars, boa constrictors and leopards. The leaves are much larger at this level. Insect life is also abundant.

Many seedlings that will grow to the canopy level are present in the understory. Only about 5% of the sunlight shining on the rainforest canopy reaches the understory. This layer can be called a shrub layer, although the shrub layer may also be considered a separate layer.

4. Forest floor or shrub layer

The forest floor, the bottom-most layer, receives only 2% of the sunlight. Only plants adapted to low light can grow in this region. Away from riverbanks, swamps and clearings, where dense undergrowth is found, the forest floor is relatively clear of vegetation because of the low sunlight penetration. It also contains decaying plant and animal matter, which disappears quickly, because the warm, humid conditions promote rapid decay. Many forms of fungi growing here help decay the animal and plant waste.

The world’s rainforests - and therefore the world at large - are already at risk from catastrophic climate change. In less than 50 years we have seen the destruction of over half of the world's rainforest environment due to logging and ‘slash and burn’ farming. However the loss of the rainforest continues to progress at an alarming rate - equivalent to an area of two football fields every second!

What is often not realised is that rainforests benefit everyone, and not just the local populations of where they are found. Rainforests store water, regulate rainfall, and are home to over half the planet's biodiversity, but more importantly they play a critical role in helping to limit the amount of fossil fuel emissions that build up in our atmosphere every year by absorbing CO2 as part of their normal photosynthetic process. The trouble is that when they are cut down and burned, not only are they then unable to absorb these emissions, they actually release yet more CO2 into the atmosphere. Currently, rainforest destruction accounts for 17% of global CO2 emissions which is more than the global transport sector releases.

Tough decisions

They want an amnesty for farmers who may have cleared forest land illegally in the past, proposing that - instead of being fined - farmers who have broken the law should be required to buy more forest, equivalent to what they have cut down, in return for an undertaking to leave it untouched.

Brazil now exports more beef than any other country in the world, and agriculture makes up a quarter of the country's entire economic output.

It is also the world's second biggest producer of soya, which is an essential ingredient in animal feed, and pressure from the huge soya producers south of the Amazon who are desperate to buy more land is pushing smaller farmers like Waldemar Vieira Neves deeper into the forest.

On the one hand, President Rousseff does not want to risk jeopardising Brazil's rapid economic growth by damaging its powerful agribusiness interests. On the other, she is under intense pressure from environmentalists not to approve any law that could encourage more deforestation in the Amazon.

Before her election last year, she pledged to veto any plan that would weaken the Forest Code and, within the coming months, she is going to have to decide whether to honour that pledge.

For related articles click onto the following links:
THE RAINFOREST
WHAT IS ‘SLASH AND BURN’ FARMING AND HOW DOES IT AFFECT THE RAINFORESTS?
WHERE IS THE RAINFOREST?
WHY ARE TROPICAL RAINFORESTS SO IMPORTANT?
WHY SHOULD WE PROTECT THE RAINFOREST?

THE FLYING DUTCHMAN



Brought to popular attention by the excellent 'Pirates of the Caribbean' franchise, the Flying Dutchman is now part of most people's vocabulary. However, the flying Dutchman is not the figment of some faceless script writers imagination, it is in fact based on an old ghost ship legend that began over 400 years ago.

The legend of the Flying Dutchman

As the story is told, an ancient 17th Century Dutch sailing ship is occasionally seen by ship’s crews as their vessels battle the elements to clear the Cape of Good Hope at the southern tip of Africa. However, as with all good legends, the origins are clouded and in dispute!

It appears that the story has its origins in both Dutch and German legend. The most common is a tale about a Captain Hendrick Vanderdecken. He set sail in 1680 from Amsterdam to Batavia in Dutch East India and disappeared in a gale while rounding the cape.

It is said that Vanderdecken ignored the danger and pressed on into the teeth of the tempest. The ship foundered, sending all aboard to their deaths. As punishment for his foolishness Vanderdecken and his ship were doomed to spend eternity fighting the tempest at the Cape.

However there is a second version of the story. One that tells of a Captain Bernard Fokke who was infamous for the uncanny speed of his trips from Holland to Java. So fast was his ship that people believed he was in league with the devil!

A third version changes the name to van Straaten, and yet a fourth version claims the captain’s name was Rambout van Dam. In all of the stories, the ship remains unnamed. It seems that the reference to the “Flying Dutchman” is used to describe the cursed captain and not the ship.

According to most versions, the captain refuses to retreat in the face of the storm. In yet other stories, some terrible crime occurs on the ship, or the crew is struck by the plague and is not allowed to enter any port. For whatever the reason, the ship and its crew are doomed to sail forever.

While there is general agreement that the Lost Dutchman is merely a legend, there have been actual reported sightings of a 17th Century sailing ship battling the elements at the Cape of Good Hope over the years.

The first reference in print to the ship appears in Chapter VI of A Voyage to Botany Bay (1795) attributed to George Barrington (1755–1804):

I had often heard of the superstition of sailors respecting apparitions, but had never given much credit to the report; it seems that some years since a Dutch man of war was lost off the Cape of Good Hope, and every soul on board perished; her consort weathered the gale, and arrived soon after at the Cape. Having refitted, and returning to Europe, they were assailed by a violent tempest nearly in the same latitude. In the night watch some of the people saw, or imagined they saw, a vessel standing for them under a press of sail, as though she would run them down: one in particular affirmed it was the ship that had foundered in the former gale, and that it must certainly be her, or the apparition of her; but on its clearing up, the object, a dark thick cloud, disappeared. Nothing could do away the idea of this phenomenon on the minds of the sailors; and, on their relating the circumstances when they arrived in port, the story spread like wildfire, and the supposed phantom was called the Flying Dutchman. From the Dutch the English seamen got the infatuation, and there are very few Indiamen, but what has someone on board, who pretends to have seen the apparition.

Perhaps the first officially reported sighting occurred in 1835 when a crew of a British ship was rounding the cape and observed a “phantom ship” approaching in the shroud of a severe storm. The British crew said the vessel appeared to be on a collision course, but then it suddenly vanished.

The H.M.S. Bacchante encountered the Flying Dutchman again in 1881, also at the cape. The following day one of the two men that made the sighting fell to his death from the rigging, thus enhancing the story to include a curse on those that see the ghostly vessel.

A more recent sighting was made by people on the shore in March, 1939. What was astounding was that it was seen by dozens of people who all gave a detailed description of a Dutch merchantman from the 17th Century.

The most famous witness ever to have seen the Flying Dutchman was the future King George V of England. His tutor, Dalton, recorded the sighting as follows:
At 4 a.m. the Flying Dutchman crossed our bows. A strange red light as of a phantom ship all aglow, in the midst of which light the masts, spars, and sails of a brig 200 yards distant stood out in strong relief as she came up on the port bow, where also the officer of the watch from the bridge clearly saw her, as did the quarterdeck midshipman, who was sent forward at once to the forecastle; but on arriving there was no vestige nor any sign whatever of any material ship was to be seen either near or right away to the horizon, the night being clear and the sea calm. Thirteen persons altogether saw her ... At 10.45 a.m. the ordinary seaman who had this morning reported the Flying Dutchman fell from the fore topmast crosstrees on to the topgallant forecastle and was smashed to atoms.
The last recorded sighting occurred at Cape Town in 1942 when four witnesses saw a sailing ship enter Table Bay and then disappear before their eyes.

For related articles click onto the following links:
THE FLYING DUTCHMAN

WHERE IS THE RAINFOREST?



The world’s rainforests - and therefore the world at large - are at risk from catastrophic climate change. In less than 50 years we have seen the destruction of over half of the world's rainforest environment from logging and ‘slash and burn’ farming. However the loss of the rainforest continues to progress at an alarming rate, equivalent to an area of two football fields every second!

What is often not realised is that rainforests benefit everyone, and not just the local populations of where they are found. Rainforests store water, regulate rainfall, and are home to over half the planet's biodiversity, but more importantly they play a critical role in helping to limit the amount of fossil fuel emissions that build up in our atmosphere every year by absorbing CO2 as part of their normal photosynthetic process. The trouble is this, when they are cut down and burned not only are they then unable to absorb these emissions they actually release yet more CO2 into the atmosphere. Currently, rainforest destruction accounts for 17% of global CO2 emissions which is more than what the global transport sector releases.

So where are the rainforests?

Many of the world's rainforests are associated with the location of the monsoon trough, also known as the intertropical convergence zone.

As the name suggests, tropical rainforests are rainforests in the tropics, and they are mainly found in the equatorial zone (between the Tropic of Cancer and Tropic of Capricorn). However, tropical rainforests are also present in south-east Asia (from Myanmar (Burma) to Philippines, Malaysia, Indonesia, Papua New Guinea and north-eastern Australia), Sri Lanka, sub-Saharan Africa from Cameroon to the Congo (Congo Rainforest), South America (e.g. the Amazon Rainforest), Central America (e.g. Bosawás, southern Yucatán Peninsula-El Peten-Belize-Calakmul), and on many of the Pacific Islands (such as Hawaiʻi). Tropical rainforests have been called the "Earth's lungs", although it is now known that rainforests contribute little net oxygen addition to the atmosphere through photosynthesis.

For related articles click onto the following links:
THE RAINFOREST
WHAT IS ‘SLASH AND BURN’ FARMING AND HOW DOES IT AFFECT THE RAINFORESTS?
WHERE IS THE RAINFOREST?
WHY ARE TROPICAL RAINFORESTS SO IMPORTANT?
WHY IS THE AMAZON RAINFOREST BEING DESTROYED?
WHY SHOULD WE PROTECT THE RAINFOREST?

WHO WAS CHARLES DARWIN?



Charles Darwin was a gifted naturalist, a prolific writer and author, and one of the most important figures in the history of science. Born on February 12th 1809 in Shropshire, England, he was grandson to Erasmus Darwin - a famous natural philosopher, and Josiah Wedgwood - known for the industrialisation of the production of pottery.

Darwin's scientific career began in 1825 as an apprentice doctor moved home to Scotland in order to study medicine at Edinburgh University.

However, Darwin became disinterested in this subject and neglected his medical studies to spend time on his latest fascination for taxonomy - the classification of living things, and marine invertebrates.

In 1828, Darwin was sent to Cambridge with the intention of studying for a Bachelor of Arts, but once again his focus became diverted, concentrating his energies on beetle collecting, botany, geology and natural philosophy.

Perhaps the cornerstone event of Darwin's life was a five year voyage around the world on the ship HMS Beagle.

This voyage took place between 1831 and 1836, and while the ship's primary mission was to survey and chart coasts to survey and chart the South American coastlines,

At this time, most Europeans believed that the world was created by God in seven days as described in the bible.

On the Beagles historic voyage, Darwin read Lyell's 'Principles of Geology' which suggested that the fossils found in rocks were actually evidence of animals that had lived many thousands or millions of years ago. Lyell's argument was reinforced in Darwin's own mind by the rich variety of animal life and the geological features he saw during his voyage. The breakthrough in his ideas came in the Galapagos Islands, 500 miles west of South America.

Of these, the most important and best known, was his theory of evolution by natural selection. Although, evolutionary ideas had been common since at least the 18th century, Darwin was able to describe how the process of natural selection (Darwin's theory of how which evolution occurred) by presenting overwhelming arguments and clear evidence of his position. This path of scientific discovery was backed by extensive 'evolution-based' experimentation.

On his return to England in 1836, Darwin tried to solve the riddles of these observations and the puzzle of how species evolve. Influenced by the ideas of Malthus, he proposed a theory of evolution occurring by the process of natural selection. The animals (or plants) best suited to their environment are more likely to survive and reproduce, passing on the characteristics which helped them survive to their offspring. Gradually, the species changes over time.

Darwin worked on his theory for 20 years. After learning that another naturalist, Alfred Russel Wallace, had developed similar ideas, the two made a joint announcement of their discovery in 1858. In 1859 Darwin published 'On the Origin of Species by Means of Natural Selection'.

The book was extremely controversial, because the logical extension of Darwin's theory was that homo sapiens was simply another form of animal. It made it seem possible that even people might just have evolved - quite possibly from apes - and destroyed the prevailing orthodoxy on how the world was created. Darwin was vehemently attacked, particularly by the Church. However, his ideas soon gained currency and have become the new orthodoxy.

Darwin died on 19 April 1882 and was buried in Westminster Abbey.

For related articles click onto the following links:
CHARLES DARWIN'S GREATEST EXPERIMENT
CHARLES DARWIN'S LEGACY - 200 years on
DARWIN'S THEORY OF EVOLUTION
WHO WAS CHARLES DARWIN?
WHO WAS GENERAL JAMES WOLFE 

DARWIN'S THEORY OF EVOLUTION

Based on a transcript written by the brilliant Sir David Attenborough

Our Earth is the only known planet that sustains life, and it does so in abundance.The sheer number and variety of plants and animals is astonishing. Estimates of the number of different species vary from 6 million to 100 million, and there are often a multitude of variations on a single pattern. For example, there are nearly 200 different kinds of monkey, 315 hummingbirds, nearly 1000 bats, and around 350,000 species of beetle. Not to mention a quarter of a million different species of flowering plant!

Even in one small English woodland, you might see four or five different kinds of finches! Why should there be such dazzling variety, and how can we make sense of such a huge range of living organisms?

200 years ago, a man was born who was to explain this incredible diversity of life, and in doing so he revolutionised the way in which we see the world and our place in it. His name was Charles Darwin.

The Bible explains how this wonderful diversity came about:

'...on the third day after the creation of the world - God created plants. On the 5th day, fish and birds and then, on the sixth day mammals and finally man...'

'...and when God had finished, he said to Adam and Eve, "Be fruitful and multiply, and replenish the earth and subdue it, and have dominion over the fish of the sea, and over the fowl in the air and over every living thing that moveth upon the earth"...

This made it clear that according to the bible, humanity could exploit the natural world as they wished, and this explanation was believed - literally - by most of western Europe for the best part of 2000 years!

In 1831, a British survey ship 'The Beagle' set off on a voyage around the world. On board, as a companion to the captain, was a 22 year old Charles Darwin. They crossed the Atlantic and made landfall on the coast of Brazil. There, the sheer abundance of tropical nature astonished the newcomer. As a boy, Darwin was a fanatical collector of insects and here he was enthralled almost to the point of ecstasy. In one day - and only in a small area, he discovered 69 different species of beetle. In his journal, he wrote

'...its enough to disturb the composure of the entomologists mind to contemplate the future dimension of a complete catalogue...'

They went south, rounded Cape Horn and so reached the Pacific. Then in September 1835 - after they had been away for four years, they landed on the little known islands of the Galapagos. Here they found creatures that existed nowhere else in the world. Cormorants that had lost the power of flight, and lizards that swam out to the surf to graze on the bottom of the sea.

Darwin, who had studied botany and geography at Cambridge university, collected specimens of the animals and plants, and as usual, when he went ashore to investigate he described what he found in his journal.

'...my servant and self were landed a few miles to the north-east in order that I might examine the district, mentioned above - as resembling chimneys, volcanic chimneys presumably, the comparison would have been more exact if I had said the iron furnaces near Wolverhampton...'

The British resident in the Galapagos claimed that he knew from the shape of the giant tortoises shell, which island it had come from. If it had a rounded front to its shell, it came from a well watered island where it fed on lush ground plants. Whereas one from a drier island had a peak at the front which enabled it to reach up to higher vegetation. Were these tortoises - each on their separate islands - different species, and if so, was each one a separate act of divine creation?

The differences that Darwin had noticed amongst these Galapagos animals were of course all tiny, but if they could develop, wasn't it possible that over the thousands or millions of years a whole series of such differences might add up to one revolutionary change?

On his voyage home, Darwin had time to ponder on such things. Could it be that species were not fixed for all time, but could in fact slowly change? On his return, he sorted out his specimens and sent them off to relevant experts so that each could be identified and classified. Most of the mammal bones and fossils he sent to Richard Owen.

Owen was one of the most brilliant zoologists of his time. He was the first to recognise dinosaurs and was indeed the very man who invented their name. Owen would later become the creator, and then director of the Natural History Museum in London.

Many of the specimens that Darwin collected are still preserved and treasured at the Natural History Museum amongst the 17 million other specimen housed in the museum that Owen founded.

Soon after his return from his voyage, Darwin made his home at Downe House in Kent. Here, he wrote an account of his travels and worked on detailed scientific treatises about corals and barnacles, and the geology and fossils of South America. But he also pondered deeply on what he had seen in the Galapagos and elsewhere. Maybe species were not fixed!

Every day, Charles Darwin took a walk down to a small spinney which was planted at the end of his garden, and it was here that he came to ponder on the problems of natural history, including that mystery of mysteries. How could one species turn into another?

He noted that most, if not all, animals produced many more young than was required than live and breed themselves. A female blue tit for example may well lay a dozen eggs a year, and perhaps 50 or so in her lifetime. Yet only two of her chicks needed to survive and breed themselves in order to maintain the numbers of the blue tit population. Those survivors of course, are likely to be the healthiest and best suited to their particular environment. Their characteristics are then inherited so perhaps over many generations, and particularly if there are environmental changes, species may well change. Only the fittest survived and that was the key. Charles Darwin called this - Natural Selection!

This observation would explain the differences that he had noted in the finches that he had brought back from the Galapagos. They were very similar except for their beaks.

One species had a thin, delicate beak which it used to catch insects, while another - on the other hand - came from an environment where there was a lot of nuts, has a big heavy beak that enables it to crack them. So maybe over the vastness of geologic time, particularly is species were invading new environments, those changes would amount to very radical changes indeed.

Darwin drew a sketch in his notebooks to illustrate his idea, showing how a single ancestral species might give rise to several different ones, and wrote above it a tentative:

I think!

Now, Darwin had to prove his theory and he spent years gathering abundant and convincing evidence. He was an extraordinary letter writer. In fact he wrote as many as a dozen letters every day to scientists and naturalists all over the world.

He also realised that when people had first started domesticating animals, they had been doing experiments for him for centuries. All domestic dogs are descended from a single ancestral species, the wolf! Dog breeders selected those pups which had the characteristics which happened to please them. Nature of course, selects those young animals that are best suited to a particular environment, but the process is essentially the same and in both cases it has produced an astonishing variety.

In effect many dog breeds could be considered to be different species, because they do not and indeed they cannot interbreed. For purely mechanical reasons, there is no way a Pekingese could mate with a Great Dane! Of course, it's true that if you used artificial insemination you could get crosses between almost any breed of dog, but that is because human beings have been selecting dogs for only a few centuries. Nature has been selecting between animals for millions of years, tens of millions of years, in fact even hundreds of millions of years. So what might have started out as we would have considered breeds, have now become so different, they are species.

Darwin, sitting in Downe House, wrote to pigeon fanciers and rabbit breeders asking all kinds of detailed questions about their methods and results. He himself, being a country gentleman and running an estate knew about breeding horses, sheep and cattle and he also conducted careful experiments on plants in his greenhouse. But Darwin knew that species could appear without Divine intervention would appal society in general and it was also contrary to the beliefs of his wife Emma who was a devout christian. Perhaps for that reason, he was keen to keep the focus of his work scientific.

He made a point of not being drawn in public about his religious beliefs, but in the latter part of his life he withdrew from attending church. Perhaps because he feared that his theory would cause outrage in some quarters, he delayed publishing it year after year after year - but he wrote a long abstract of it. Then, on July 5th 1844, he wrote this letter to his wife:
My dear Emma, I have just finished this sketch of my species theory, I therefore write this in case of my sudden death that you would devote £400 to its publication.

He then goes on to list his various naturist friends who would be asked to edit and check it, and he ends the letter charmingly:


My dear wife, yours affectionately, C.R. Darwin.

He continued to accumulate evidence and refine his theory for the next fourteen years, but then his hand was forced. In June 1858, 22 years after he got back from the Galapagos, he received a package from a naturalist who was working in what is now Indonesia. His name was Alfred Russel Wallace.

Wallace had been corresponding with Darwin for some years, but this package was different! It contained an essay that set out exactly the same idea as Darwin's - of evolution by natural selection! The idea had come to Wallace as he lay in his hut semi delirious in a malarial fever. But although his idea of natural selection was the same as Darwin's he had not spent twenty years gathering the mountain of evidence to support it as Darwin had done, but whose idea was it?

In the end the senior members of the Linnean Society decided that the fairest thing was for a brief outline of the theory from each of them would be read out one after the other at a meeting of the society in Burlington House, London. The Linnean, then as now, was a place where scientists studying the natural world held regular meetings to present and discuss papers about their observations and thoughts.

The one held on July 1st 1858 was attended by only about 30 people, and neither of the authors were present. Wallace was 10,000 miles away in the East Indies, and Darwin was ill and devastated by the death a few days earlier of his infant son,so he was still at his home in Kent. As a consequence, the two papers had to be read by the secretary and as far as we can tell they made very little impression on anyone!

Darwin spent the next year writing out his theory in detail, then he sent the manuscript to his publisher John Murray whose firm, then as now, had offices in Piccadilly, London. Murray was the great publisher of his day, and dealt with the works of Jane Austen, and Lord Byron.

Darwin regarded his work as simply as a summery, but even so, it is 400 pages long! It was published on November 24th 1859, and changed forever how humans see themselves and the world in which we live.


For related articles click onto the following links:
CHARLES DARWIN'S GREATEST EXPERIMENT
CHARLES DARWIN'S LEGACY - 200 years on
DARWIN'S THEORY OF EVOLUTION
THE EVOLUTION AND DEVOLUTION OF MAN - FINALLY EXPLAINED
THE EVOLUTION OF MAN AND MACHINE
WHO WAS CHARLES DARWIN?

PANDA BEAR



The western world first learned of the giant panda in 1869 when the French missionary Armand David received a skin from a hunter on 11 March 1869. The first living giant panda to be seen outside China was by the German zoologist Hugo Weigold, who purchased a cub in 1916. In 1938, five giant pandas were sent to London, but no more to follow for the next half of the century due to the Second World War and its repercussions.

As the emblem of the WWF (World Wide Fund for Nature) and more recently the main character in the hit Kung Fu Panda films, the Giant Panda is among the world's most adored and protected rare animals, and is one of the few in the world whose natural inhabitant status was able to gain a UNESCO World Heritage Site designation.

Where do pandas live?

Giant Pandas are solitary animals confined to the highly fragmented mountain forests found only in remote China. And because a panda’s diet consists mostly of bamboo shoots, pandas are usually found in bamboo rich forests situated 1500 meters above sea level. However, recent research from Chinese Academy of Sciences has managed to find out a whole lot more about where pandas live.

They generally avoid the higher peaks - as bamboo has difficulties growing in the higher altitude, as well as the lower areas which are now dominated by people.

They also tend to limit their movements to high altitude conifer forests and mixed forests, as well as historically clear-felled forest. Why? Because such areas are better for raising their young. Furthermore, female pandas are now known to be selective about the choice of their den sites and often make their dens in stands of large conifer trees more than 200 years old. Furthermore, it also turns out that they prefer habitats that slope at an angle of between 10 and 20 degrees, and abandoned logging trails - though this could be an artefact of the number of roads of this type that crisscross the region. Conversely, male pandas have been found to frequent habitat close to roads used by vehicles, perhaps due to their need to move greater distances to find prospective female mates.

The discovery could inform strategies for conserving wild pandas and releasing them back into the wild.

Dun Wu Qi and Fuwen Wei of the Institute for Zoology at the Chinese Academy of Sciences in Beijing and colleagues studied the movements of giant pandas within the Liangshan Mountains of south central China.

They conducted transect surveys recording the presence of pandas by sight or by their droppings. By studying the DNA in these faecal samples, the researchers were able to determine the sex of the pandas encountered.

That means they are likely to be disproportionately affected by habitat loss and people exploiting the forest.

It should also be taken into account when breeding programmes release giant pandas back into the wild.

For related articles click onto the following links:
PANDA BEAR
PANDA FACTS
WHAT DO PANDA BEARS EAT?

LAVENDER

Lavender
Lavender



Lavender is without doubt one of the most popular of all hardy shrubs, and why not? Tolerant of drought, heat, poor soils and most pests and diseases, not only does will lavender flower its heart out, it is a fantastic source of nectar for pollinating insects! However, you can't just plant lavender anywhere and they can easily be killed by too much kindness.

So, just how do you successfully plant lavender?

Lavender
Lavender
Lavender is a genus of 39 species of flowering plants that are native to Africa, the Mediterranean, South-West Asia, Arabia, Western Iran and South-East India. And this is important because knowing where lavender comes from will allow you to - at least in part - mimic the conditions that they have evolved to survive.

Lavenders flourish best in dry, well-drained, sandy or gravelly soils in full sun. All lavender species need little or no fertilizer and good air circulation. This is particularly important in areas of high humidity as root rot due to fungus infection can be a problem. Avoid organic mulches as this can trap moisture around the plants' bases, again encouraging root rot. Instead, use pea gravel, decomposed granite, or sand instead.

If the flowers are used for drying, pick the blooms when they are showing colour but before they are fully open. Cut the whole flower stalks and hang these, tied in bunches in a cool dry airy position.

Pruning

Lavender
Lavender - http://plant-passion.typepad.com/
Remove the dead flower stems as they arise and cut back hard straggly plants in August as this will encourage new growth from the base. A light trim to help shape more formal plants can be undertaken in late March or April.

Unfortunately Lavenders will tend to grow leggy with age and if left to their own devices may need to be discarded or replaced after 5 or 6 years.

Pests

When kept in sunny, well-drained conditions lavender are relatively pest and disease resistant. Be that as it may they do tend to be prone to infestations of froghopper larvae commonly known as cuckoo spit. Froghopper larvae can be controlled with an application of a systemic insecticide, or knocked away from the plant with a jet of water.

For related articles click onto the following links:
GROW LAVENDER SEED
HOW TO CONTROL CUCKOO SPIT ON LAVENDER
HOW TO GROW EUCRYPHIA X NYMANSENSIS 'Nymansay'
How to grow Isoplexis canariensis
HOW TO GROW LAVENDER
HOW TO GROW LAVENDER FROM SEED
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RHS: Lavender
THE MARLBOROUGH ROCK DAISY - Pachystegia insignis
WHEN AND HOW SHOULD YOU PRUNE BACK LAVENDER?
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CAN DOLPHINS KILL SHARKS?



Dolphins and many shark species are similar in shape and size, and inhabit the same regions and depths of the ocean. Sharks have a reputation for being fierce predators. hardly surprising when they are armed with rows of sharp serrated teeth that can easily bite through flesh and bone. Unlike dolphins, sharks have a very rough, sandpaper-like skin that is not easily punctured.

Dolphins, on the other hand, are seen as intelligent, playful creatures. They only have a single row of peg-like teeth which is mainly used for catching smaller fish. Their skin is soft, flexible and can be cut easily.

So at face value, it would seem that sharks would have the edge over a dolphin in a face to face fight - but all is not as it seems!

Since dolphins normally travel together in a group - known as a pod, if one of them is threatened by a shark, the other members of the group will join in to defend the dolphin that is in danger.

The dolphin's main weapon is their snout, otherwise known as their beak. It is made of very strong and thick bone, and has a hard, rounded end.

If the pod decides to defend against a likely shark attack, the dolphins will circle the shark very rapidly from different directions. This causes the shark to become confused and is then unable to choose a specific dolphin to chase.

When a dolphin becomes suitably positioned below a shark - usually at a distance of several meters, the dolphin will make a sudden rush at the shark's softer underbelly ramming it with his snout. This has the effect is like an extremely powerful punch. The shark can be seriously injured with a single blow, and they are often stunned or knocked unconscious. The dolphins will sometimes repeatedly ram a shark that has been very aggressive, and are quite capable of killing a large, dangerous shark.

However, attacking dangerous sharks clearly has an element of serious risk and so dolphins are often unwilling to attack the 'bigger boys' such as white sharks, tiger sharks, mako sharks and bull sharks, unless of course they have good reason to ie. protecting pregnant females, calves or injured individuals.

However, if a pod has no good reason to stay and fight then they will, more often than not, swim away.

For related articles click onto the following links:
CAN DOLPHINS KILL SHARKS?
GREAT WHITE SHARK FACTS
HOW DO DOLPHINS BREATHE WHEN THEY SLEEP?
LIVING DINOSAUR SHARK - The Frilled Shark
PERFECTLY TIMED DOLPHIN PHOTOGRAPH
WHAT DO DOLPHINS EAT?
WHAT DOES THE GREAT WHITE SHARK EAT?
WHAT IS THE WORLD'S BIGGEST SHARK?
WHERE DO YOU FIND GREAT WHITE SHARKS?

HOW TO GROW CAULIFLOWERS FROM SEED

How to grow cauliflowers from seed


While the cauliflower is not the easiest brassica to grow, a large white cauliflower with tight pure-white curds is a truly thing of beauty and producing one is a source of great satisfaction. Furthermore, I am obsessed with having cauliflower cheese with every Sunday roast and you just cannot beat the texture and flavour of a cauliflower you have grown yourself!

Unfortunately, cauliflowers can be very vulnerable to club root but you can still grow them so long as you take some proven cultural steps on coping with clubroot. Click here to find out more about controlling clubroot in brassicas. Luckily, some clubroot resistant cauliflowers are in the process of being bred and the first of these, Clapton, is now available.

Growing cauliflowers from seed

Before starting your cauliflowers off it is important to remember they require a firm, fertile soil as the main cause of failure - button heads - is due to loose, infertile soil. This is where having a fairly heavy soil is a definite advantage to the vegetable gardener. Also, try choosing a bed that is in a reasonably sunny spot. If you find that you have relatively poor soil then you will need to dig in plenty of well-rotted compost or farm manure. Try and have this done as early in the autumn as possible in order to give the the soil plenty of time to firm up before sowing you cauliflower seed.

Come early spring, rake over and level the area you have chosen as a seed bed as the frosts would have done most of the work for you by then.

If you didn't manage to prepare your seed bed by adding manure last autumn then cover the bed with sifted mature compost or blended farm manures instead. Choose a dry day for this job and tread over the bed afterwards to help keep it firm. Afterwards, give it a light raking over.

Mark out the rows using string stretched between two stakes for a straight line and make shallow drills along the length of the string with a trowel 1/2" deep and rows 6" apart.

Sow the seed thinly into the drills and cover them over with soil, lightly firming with the head of the rake. Mark both ends of the row, labelling one end with the variety and date of sowing. Keep the seedbed moist, always use a fine spray.

When the cauliflower plants are about 1" tall, thin the seedlings to about 3" apart in the rows. This is to stop overcrowding otherwise the seedlings can become weak and spindly.

The seedlings will be ready to plant out into their permanent position when they are about 4" to 6" tall or have 5 or 6 true leaves. Water the bed the previous day before moving them.

Hoe regularly to keep down weeds but don't loosen the soil to deeply as you need the bed to remain firm.

Cauliflower plants must never be kept short of water - especially as young plants - otherwise small premature `button heads` will soon form.

One of the main problems you may come across is having your cauliflower seedlings destroyed by birds - especially in country gardens. Protect the smaller plants from sparrows by growing under plastic and the bigger mature plants from wood pigeons by covering with a plastic mesh.

Consider applying a foliar feed during summer as cauliflower plants will respond very well to this.

For related articles click onto the following links:
GROWING CELERY FROM SEED
HOW TO GROW CELERY FROM SEED
HOW TO GROW CHINESE SPINACH FROM SEED
HOW TO GROW KOHLRABI
HOW TO GROW SPINACH FROM SEED
ORGANIC CONTROL OF CLUBROOT IN BRASSICAS

Kalanchoe daigremontiana - THE DEVIL'S BACKBONE

The 'Devil's Backbone' - Kalanchoe daigremontiana
The 'Devil's Backbone' - Kalanchoe daigremontiana

The 'Devil's Backbone' - Kalanchoe daigremontiana, is a bizarre succulent and almost unique amongst plants. Why? Well, because it has a highly unusual method of self propagation. More specifically, the Devil's Backbone is capable of producing genetically identical progeny from the tips of its serrated leaves.

A native of the Fiherenana valley and Androhibolava mountains in southwest Madagascar, the Devil's Backbone has several other common names such as the Alligator Plant, the Mother of Thousands, or the slightly misleading Mexican Hat Plant.

The 'Devil's Backbone' - Kalanchoe daigremontiana
The 'Devil's Backbone' - Kalanchoe daigremontiana
The Devil's Backbone can reach up to 3 feet tall with opposite, fleshy oblong-lanceolate "leaves" that reach as much as 6-8 inches long and 1 1/4 inches wide. These are medium green above and, as they mature, display purple blotches underneath. As mentioned before, at the tips of the leaf serrations, are spoon-shaped bulbiferous spurs that bear young plants. These plantlets will even form roots while still on the plant.

Adult plants can also develop lateral root structures on its main stalk, as high up as 10-15 cm from the ground. The plant has several nodes with two or three leaves on each node. The upper leaves of the plant tend to develop into disproportionately large structures, causing the main stalk to bend downwards and the lateral roots to take up root of their own, anchoring into the soil and eventually developing new primary stalks which establish themselves as independent plants.

The 'Devil's Backbone' - Kalanchoe daigremontiana
Kalanchoe daigremontiana flowers
Furthermore, Kalanchoe daigremontiana can go through a flowering season, where the main stalk elongates vertically upwards by as much as 30 cm, within a couple of days, developing an umbrella-like terminal inflorescence (a compound cyme) of small bell-shaped pink flowers.

Flowering is, however, not an annual event and will occur sporadically if at all.

WARNING: Please be aware that all parts of the plant are poisonous, which can even be fatal if ingested by infants or small pets.

For related articles click onto the following links:
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HOW TO GROW COURGETTES FROM SEED




Although considered to be a vegetable, courgettes - otherwise known as zucchini - are actually the immature fruit of a marrow squash – more specifically, the swollen ovary of the female flower. Courgettes can be yellow, green or light green, and generally have shape similar to a ridged cucumber, although there are a few cultivars available that can produce a rounded or bottle-shaped fruit.

Image credit - https://www.quickcrop.co.uk/
Like all summer squash, courgettes can trace their ancestry back to the American continent, however the varieties of squash typically known as ‘courgette’ were actually developed in Italy - many generations after their introduction from their country of origin. The first records of courgettes in the United States date back to the early 1920s - almost certainly brought over by Italian immigrants.

Courgettes prefer heavier soils, and will always do best in a sunny, sheltered position - away from cold winds. When it comes to preparing the ground, it is well worth adding plenty of well rotted farm manure before hand – in fact, this can be done as early as the previous autumn.

.If you intend starting early, you can protect your seedlings by planting under a cloche. It is a good idea to put your cloche in place where you plan to plant your courgette plants a couple of weeks before you need them as this will to help warm up the soil below. Doing this will greatly increase your early planting chances of success.

If you are going to sow your courgettes from seed directly into the ground then you can do this any time from early May onwards – around about the time of the last late frosts. With cloches you can sow courgette seed up to three weeks earlier.
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The trouble with courgettes is that they like lots of moisture around the roots, but ironically the plants can rot off if there is too much moisture around the base of the plant. To try and overcome this, courgettes are often grown on ridges in order to improve drainage – how to make a courgette ridge is outlined as follows.

.Begin by digging a small trench about 4 inches deep, then fill the bottom of this trench with well-rotted farm manure until the trench is refilled back to its original soil level – now dig over the trench so that the compost and soil is nicely mixed. Now dig a second trench next to this first one placing the soil along to top of the original trench so that you a have formed an elongated mound. This will form a ridge into which the courgette seeds can be planted into - 3 ft apart. Alternatively, if you are only growing a few courgette plants, just make one individual mound per plant roughly 1ft 6in square. These mounts do not need to be too high - no more than a few inches at most.
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When sowing courgette seed outside, sow two seeds per planting position – covering with ½in of soil. Each planting position should be about 3 ft apart. When the seeds have germinated they can be thinned out by removing the weaker of the two vigorous seedlings. If you are transplanting courgette seedlings, then they should be planted into the ridge at the same depth as they were in the pot.

Courgettes require plenty of water so that they are able to grow and fully develop so soak the roots thoroughly and regularly. However, try to keep as much water as you can away from the foliage to help prevent the incidence of fungal infections.

For related articles click onto the following links:
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