Rainforest land in Costa Rica

Of Victoria's 8.8 million hectares of public land - more than one third of the State - the Forests Service manages 3.5 million hectares. This land is called State forest, and is managed to balance a variety of values. These values include the conservation of flora and fauna, protection of water catchments and water quality, the provision of timber and other forest products on a sustainable basis, the protection of landscape, archaeological (fossils etc) and historic values, and the provision of recreational and educational opportunities.

What about Rainforest across the world?

Generally speaking, a rainforest is an environment that receives high rainfall and is dominated by tall trees. Animals and plants interact with each other in a complex way. The way they interact is called the ecosystem. A wide range of ecosystems fall into this category, of course, including the old-growth temperate forests on islands in the north Pacific Ocean. But most of the time when people talk about rainforests, they mean the tropical rainforests located near the equator. These forests, concentrated in Africa, Australia, Asia, and Central and South America, receive between 160 and 400 inches (406.4 to 1016 cm) of rain per year. Unlike the rainforests farther to the north and south, tropical rainforests don't really have a "dry season." In fact, they don't have distinct seasons at all. The total annual rainfall is spread pretty evenly throughout the year, and the temperature rarely dips below 16 degrees Celsius.

This steady climate is due to the position of rainforests on the globe. Because of the orientation of the Earth's axis, the Northern and Southern hemispheres each spend part of the year tilted away from the sun. Since rainforests are at the middle of the globe, located near the equator, they are not especially affected by this change. They receive nearly the same amount of sunlight, and therefore heat, all year. Consequently, the weather in these regions remains fairly constant.

The consistently wet, warm weather and ample sunlight give plant life everything it needs to thrive. Trees have the resources to grow to tremendous heights, and they live for hundreds, even thousands, of years. These giants, which reach 18 to 46 m in the air, form the basic structure of the rainforest. Their top branches spread wide in order to capture maximum sunlight. This creates a thick canopy level at the top of the forest (ie. the roof top of the forest), with thinner greenery levels underneath. Some large trees, called emergents, grow so tall 76 m that they even tower over the canopy layer.

As you go lower, down into the rainforest, you find less and less greenery. The forest floor is made up of moss, fungi, and decaying plant matter that has fallen from the upper layers. The reason for this decrease in greenery is very simple: The overabundance of plants gathering sunlight at the top of the forest blocks most sunlight from reaching the bottom of the forest. The lowest levels of the rainforest are extremely dark, making it difficult for robust plants to thrive. As little as 1 percent of the light shining onto the forest reaches the lowest levels.

This makes for a fascinating biological community in which plant life is striving to reach 100 ft into the air, and most food for animals comes from above. In the next couple of sections, we'll look at some of the plants and animals of the rainforests to see how they live and interact in this sumptuous, yet highly competitive, world.

Forest Food

Roughly 80 percent of the food we eat originally came from tropical rainforests. Without rainforests, we wouldn't have the seeds that produce coffee and chocolate. Other rainforest foods include tomatoes, potatoes, rice, bananas, cinnamon, sugar cane, coconuts, oranges, figs, avocados, grapefruit, black pepper, pineapples and corn. There are over 3,000 fruits found in rainforests. People in the Western World make use of only about 200 of them, but the indigenous tribes of the rainforest make use of over 2,000. Rainforest tribes also have a knowledge of rainforest medicine that far exceeds the Western World's.

One of the major problems with deforestation is the devastating effect it has on these tribes. As these cultures are lost, so is their extensive knowledge of the vast resources of the rainforest, whose wild plants are vital to our well being. For instance, cross-breeding a wild plant with a domesticated one can revitalize crops, building their resistance to new diseases.

We saw in the last section that the ample sunlight and extremely wet climate of many tropical areas encourages the growth of towering trees with wide canopies. This thick top layer of the rainforest dictates the lives of all other plants in the forest. New tree seedlings rarely survive to make it to the top unless some older trees die, creating a "hole" in the canopy. When this happens, all of the seedlings on the ground level compete intensely to reach the sunlight. Most other plants survive by taking advantage of the trees that form the canopy layer.
Many plant species reach the top of the forest by climbing the tall trees. It is much easier to ascend this way, because the plant doesn't have to form its own supporting structure. Lianas, long, woody plants that can grow more than 20 cm across, will often climb tall trees all the way up to the canopy layer. At the top of the forest, these climbers may spread from tree to tree, making the canopy ceiling even thicker.

Some plant species, called epiphytes, grow directly on the surface of the giant trees. These plants, which include a variety of orchids and ferns, make up much of the understory, the layer of the rainforest right below the canopy. Epiphytes are close enough to the top to receive adequate light, and the runoff from the canopy layer provides all the water and nutrients they need, which is important since they don't have access to the nutrients in the ground.

Some epiphytes eventually develop into stranglers. They grow long, thick roots that extend down the tree trunk into the ground. As they continue to grow, the roots form a sort of web structure all around the tree. At the same time, the strangler plant's branches extend upward, spreading out into the canopy. Eventually, the strangler may block so much light from above, and absorb such a high percentage of nutrients from the ground below, that the host tree dies. When the host decomposes, the strangler's lattice of roots remains, giving the plant the structure it needs to reach from the forest floor to the canopy.

Competition over nutrients is almost as intense as competition for light. The excessive rainfall rapidly dissolves nutrients in the soil, making it relatively infertile except at the top layers. For this reason, rainforest tree roots grow outward to cover a wider area, rather than downward to lower levels. This makes rainforest trees somewhat unstable, since they don't have very strong anchors in the ground. Some trees compensate for this by growing natural buttresses. These buttresses are basically tree trunks that extend out from the side of the tree and down to the ground, giving the tree additional support.

Rainforest trees are dependent on bacteria that are continually producing nutrients in the ground. Rainforest bacteria and trees have a very close, symbiotic relationship. The trees provide the bacteria with food, in the form of fallen leaves and other material, and the bacteria break this material down into the nutrients that the trees need to survive. Even with this amazing symbiotic cycle, nutrients are scarce. Some plant species gather additional nutrients by capturing bugs or catching plant material that falls from the canopy above.

On the right, many tropical trees have stilt roots as a mechanism to counter the shallow, loose soil of the tropics. Instead of the roots splitting off the trunk underground, stilt roots split several feet above ground, making the tree more stable, and allowing it to utilize the soil more efficiently.

Creatures in the Rainforest

Rainforests are home to the majority of animal species in the world. And a great number of species who now live in other environments, including humans, originally inhabited the rainforests. Researchers estimate that in a large rainforest area, there may be more than 10-million different animal species.

On the left, this flower has adapted to be pollinated by hummingbirds. The long, curved, tubular bloom is the perfect size and shape for the hummingbird's bill. The inside of the blossom holds nectar for the hummingbirds to drink. While drinking, the hummingbird's head bumps against the flower's anther (the stem protruding out of the blossom; it holds the pollen). This allows the hummingbird to transfer the pollen from that anther to the stigma and fertilize the flower.

Most of these species have adapted for life in the upper levels of the rainforest, where food is most plentiful. Insects, which can easily climb or fly from tree to tree, make up the largest group (ants are the most abundant animal in the rainforest). Insect species have a highly symbiotic relationship with the plant life in a rainforest. The insects move from plant to plant, enjoying the wealth of food provided there. As they travel, the insects may pick up the plants' seeds, dropping them some distance away. This helps to disperse the population of the plant species over a larger area -- underneath the canopy, the wind is not strong enough to carry seeds a significant distance, so plants depend entirely on animals for seed dispersal. Less-harmful insects may also help a plant by fighting off more destructive insect species.

The numerous birds of the rainforest also play a major part in seed dispersal. When they eat fruit from a plant, the seeds pass through their digestive system. By the time they excrete the seeds, the birds may have flown many miles away from the fruit-bearing tree.

Most people are familiar with the colorful parrots of the tropical rainforests, but this is only one part of the total bird population. Rainforest bird species come in all shapes and sizes, from tiny hummingbirds to large toucans. Over one-fourth of all bird species in the world today live in tropical rainforests.

There are also a large number of reptiles and mammals in the rainforest. Many of these species have remarkable adaptations for life in the trees. Some animals have very thin webs of skin that let them glide from branch to branch. Many mammals, including a wide variety of monkeys, have developed prehensile tails. Essentially, the tail works like an extra hand to grasp hold of tree branches. Obviously, this adaptation makes life much easier for animals who spend their lives in the trees. For example, a monkey might grab onto a branch with its tail so it can reach down to grab a piece of fruit that would otherwise be inaccessible.

This Howler monkey can grab ahold of branches with its prehensile tail.

Since the weather is so hot and humid during the day, most rainforest mammals are active only at night, dusk or dawn. The many rainforest bat species are especially well adapted for this lifestyle. Using their sonar, bats navigate easily through the mass of trees in the rainforest, feeding on insects and fruit.

While most rainforest species spend their lives in the trees, there is also a lot of life on the forest floor. Great apes, such as gorillas and orangutans, wild pigs, big cats and even elephants can all be found in rainforests. There are a number of people who live in the rainforests, as well. These indigenous tribes -- which, up until recently, numbered in the thousands -- are being forced out of the rainforests at an alarming rate because of deforestation. In the next section, we'll look at this deforestation process to see how it affects people everywhere.

Deforestation

In the past hundred years, humans have begun destroying rainforests at an alarming rate. Today, roughly 1.5 acres of rainforest are destroyed every second. People are cutting down the rainforests in pursuit of three major resources: The World's Lungs? In the past, scientists often referred to tropical rainforests as the "lungs of the world" because of the large amount of oxygen they produce. More recent evidence shows that rainforests don't have much of an effect on the world's oxygen supply. The decomposition of dead plant matter consumes roughly the same amount of oxygen that the living plants produce.

But rainforests do play a key role in the global ecosystem. Some experts are now calling them the "air conditioners to the world," because their dark depths absorb heat from the sun. Without the forest cover, these regions would reflect more heat into the atmosphere, warming the rest of the world. Losing the rainforests may also have a profound effect on global wind and rainfall patterns, potentially causing droughts throughout the United States and other areas.

The act of deforestation itself affects the environment as a whole. Roughly 30 percent of the carbon dioxide released in the air (a leading cause of global warming) comes from burning the rainforests.

In the current economy, people obviously have a need for all of these resources. But almost all experts agree that, over time, we will suffer much more from the destruction of the rainforests than we will benefit. There are several factors involved in this scientific assessment:

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