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Trees Trees, Πυλαία. 4,387 likes · 75 talking about this · 311 were here. Greek Style Guinguette
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- Overview
- Classification of trees
- Phylogenetic classifications
- Ecological and evolutionary classification
tree, woody plant that regularly renews its growth (perennial). Most plants classified as trees have a single self-supporting trunk containing woody tissues, and in most species the trunk produces secondary limbs, called branches.
To many, the word tree evokes images of such ancient, powerful, and majestic structures as oaks and sequoias, the latter being among the most massive and longest-living organisms in the world. Although the majority of Earth’s terrestrial biomass is represented by trees, the fundamental importance of these seemingly ubiquitous plants for the very existence and diversity of life on Earth is perhaps not fully appreciated. The biosphere is dependent on the metabolism, death, and recycling of plants, especially trees. Their vast trunks and root systems store carbon dioxide, move water, and produce oxygen that is released into the atmosphere. The organic matter of the soil develops primarily from decayed leaves, twigs, branches, roots, and fallen trees, all of which recycle nitrogen, carbon, oxygen, and other important nutrients. There are few organisms as important as trees for maintaining Earth’s ecology.
The ancient Greeks developed a classification about 300 bce in which plants were grouped according to their general form—that is, as trees, shrubs, undershrubs, and vines. This classification was used for almost 1,000 years. Modern classifications of plants attempt to assign a plant to a particular taxon and establish relationships with other plants based on genetics, cytology, ecology, behaviour, and probable evolutionary lineages, in addition to gross morphology. Popular classifications, however, remain useful tools for studying the common stresses that the environment exerts on all plants and the general patterns of adaptation that are shown no matter how distantly plants are related.
Britannica Quiz
Trees are represented in each of the major groups of the vascular plants: pteridophytes (seedless vascular plants that include the tree ferns), gymnosperms (cycads, ginkgoes, and conifers), and angiosperms (flowering plants).
Although tree ferns account for only a small percentage of ferns, many are conspicuous members of a forest, attaining heights of 7 to 10 metres (23 to 33 feet); some are 15, 18, or occasionally 24 metres tall (49, 59, or 79 feet). These graceful trees, which are natives of humid montane forests in the tropics and subtropics and of warm temperate regions of the Southern Hemisphere, have huge lacy leaves; they are the remnants of a vastly more numerous flora that populated much of Earth during the Carboniferous Period (about 358.9 to 298.9 million years ago).
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Cycads compose the Cycadophyta, a division of gymnospermous plants consisting of 4 families and approximately 140 species. Natives of warm regions of the Eastern and Western hemispheres, they also are remnants of a much larger number of species that in past geologic ages dominated Earth’s flora.
The ginkgo is the only living representative of the gymnosperm division Ginkgophyta. It is a relic that has been preserved in cultivation around ancient Buddhist temples in China and planted elsewhere as an ornamental since the mid-18th century; the tree probably no longer exists in a wild state.
The tree is not an immutable biological category but rather a human concept based on visual criteria. Perhaps a general definition would describe a tree as a perennial woody plant that develops along a single main trunk to a height of at least 4.5 metres (15 feet) at maturity. This may be contrasted with a shrub, which might be loosely defined as a woody plant with multiple stems that is, in most cases, less than 3 metres (about 10 feet) tall. However, a species fitting the description of either in one area of the world might not necessarily do so in other regions, since a variety of stresses shape the habit of the mature plant. Thus, a given woody species may be a tree in one set of habitats within its range and a shrub elsewhere. For example, the spruce and fir may thrive in the tree form at the base of a mountain but assume a shrub form near the mountaintop, the variation due principally to stresses exerted by such environmental conditions as altitude, temperature, and oxygen tension.
As seen in the section above, trees are found among many plant families that also include shrubs and herbs, so that the concept of tree is not a phylogenetic one. Further, there is no clear consensus as to whether the tree form is the advanced or primitive condition. Some paleobotanists suggest that trees are the most primitive members within these plant families. However, tree forms are found in all the vascular plants, from the club mosses and ferns to the gymnosperms and angiosperms. It is furthermore true that, among the flowering plants, trees are found not only among the most primitive members (order Magnoliales) but also among the more specialized, or advanced, members, such as the roses (order Rosales).
Consequently, from both a taxonomic and a phylogenetic perspective, the tree is an artificial category. On an ecological basis, however, the tree can be recognized as a natural construct, as it represents an adaptive strategy by many different taxa to exploit and dominate the habitat above the ground.
In the early stages of the development of terrestrial life, land plants were rootless and leafless. Since they had their origins in aqueous environments, they did not require the specialized conducting and supporting tissues afforded by roots and stems, nor did they require localized regions of carbohydrate synthesis, since each cell was involved in metabolism, water and nutrient absorption, and respiration. Habitats farther from the water as well as aerial habitats represented available uninhabited environments.
One key to exploiting terrestrial habitats is increasing complexity of the plant’s form to allow specialization of function. This requires physiological and morphological complexity as well as biological optimization. If all the tissues of massive tree trunks were alive, for example, the physiological cost of maintaining these structures in the living state would be enormous and probably unattainable. An elegant solution came in the form of tremendous structural adaptations: new tissues and organs permitted localization of the functions of the plant body.
The evolution of discrete plant body parts with separate functions allowed plants to move onto the land and undergo an incredible adaptive radiation. Leaves evolved as specialized photosynthetic organs. Stems provided mechanical strength as well as a conductive capacity to transport water and nutrients from the roots to the leaves. Roots provided anchorage and absorption of sufficient water and nutrients to support the remainder of the plant.
22 de ene. de 2024 · By Jessica Nolan, Gardening Expert Trees. All types of trees play an important role in our ecosystem. Trees provide shade, shelter, oxygen, and many even produce fruit. There are over 60,000 species of trees that come in all shapes and sizes, from majestic cedars to smaller fruit trees and shrubs.
Trees play a significant role in reducing erosion and moderating the climate. They remove carbon dioxide from the atmosphere and store large quantities of carbon in their tissues. Trees and forests provide a habitat for many species of animals and plants. Tropical rainforests are among the most biodiverse habitats in the world.
21 de may. de 2020 · Meet the Trees in Your Neighborhood. We hope this list will help you branch out and enjoy the trees all around you. And we hope you’ll continue to learn more about the species that thrive in the wetlands, prairies, forests and other wild places The Nature Conservancy works hard to protect for people and nature.
Trees for the Future is a United Nations World Restoration Flagship. As a UN World Restoration Flagship, TREES is recognized as one of the best large-scale ecosystem restoration efforts on the planet.
9 de oct. de 2020 · #1: Trees eat the greenhouse gases that cause climate change—for breakfast. More like breakfast, lunch and dinner. Trees’ food-making process, photosynthesis, involves absorbing carbon dioxide from the air and storing it in its wood.
