Benefits of green plants

Traditional medicine,Lower Cholesterol,green in plants,green plants,Fruits,backlink automatic,health benefits,benefit of plants,medical plants,Plants for health benefits,benefits of fruits for beauty,vitamin

Benefits of green plants. In school, we often learn the Natural Sciences or what we call science. At the School, the science of science is very useful especially in the use of green plants. Therefore, masanega be GREEN SCHOOL. Masanega also available in many plants, which play an important role in the lives of their role.

In the TOGA (Medicinal Plants Masanega) is a lot of medicinal plants, such as ginger, turmeric, galangal, and others. Medicinal plants is highly beneficial to health. Thus the citizens Masanega always keep and care for it's medicinal plants.

Masanega also available in many ornamental plants that are useful for the needs of students siswinya that students are not bored or what we call the eye wash. Thus, students are cranky or bored like to come or go to the park Masanega.

In Masanega, ornamental plants that are available various kinds. For example, plants flowers, such as: roses with a wide range of colors, jasmine, hibiscus and many more are available at the park Masanega.

So my message to all my friends, watch and take care of the plants around you, lest you ruin it. Because, green plants are very useful for life.

teaching and learning is done outside the classroom with a convenient location

5:00 AM | 0 comments | Read More

Green plants for world

Green plants for world.Plants are living beings that have leaves, stems and roots. Plants able to get the highest feed themselves. Food ingredients produced not only used for the plant itself, but also humans and animals.

Not only food produced, but the plant can produce O2 or oxygen, and carbon dioxide change or CO2 produced by humans and animals to be oxygen that can be used by other living mehkluk.Contained an important role

 Once the importance of the role of green plants to live and also kelangsunggan this earth. Because of herbs as well as the first manufacturer in the food chain, also has an important role as the largest producer of oxygen for the survival of living things.  

As well as addressing the environmental crisis. In the reality of the matter, the construction of housing, offices and so on are built on agricultural land and open green spaces. Though the plants act as ecosystem dala

first manufacturer to convert solar energy into enegri of potential for other living beings. So by increasing the green then we reduce the environmental impact of air pollution in this case, reducing CO2 or other pollutants, reducing the impact of the greenhouse effect or climate disruption. 

One of the benefits of a green plant that is "photosynthesis"In the process of photosynthesis of green plants take CO2 and release O2 C6H12O6 and the role that is needed for living things.  

Therefore, the role of green plants is necessary to capture the CO2 and release O2 back into the air. In addition, the metabolic processes of green plants can bring a variety of functions for the needs of a living creature that can improve environmental quality.

Various kinds of benefits for living green plants

 1. As the lungs of the worldPlants as green elements, the plants produce oxygen (O2) that is necessary for living things to breath.

 2. As the regulatory environmentGreen tree vegetation will lead to environmental air becomes cool, comfortable and fresh 

3. Balancing naturalForming a natural living places for animals that live around it.

 4. Protection of the physical condition of the naturalThis protection can be in trying to protect the high winds, hot sun, gas and dust, noise and motor vehicles, etc.. 

5. Creator of environmental (ecological) 

6. The beauty (aesthetics)

 7. Health 

8. Educational (education + recreation) 

9. Socio economic polik 

10. Prevention of natural disasters

4:48 AM | 0 comments | Read More

Green roof

Traditional medicine,Lower Cholesterol,green in plants,green plants,Fruits,backlink automatic,health benefits,benefit of plants,medical plants,Plants for health benefits,benefits of fruits for beauty 

A green roof or living roof is a roof of a building that is partially or completely covered with vegetation and a growing medium, planted over a waterproofing membrane. It may also include additional layers such as a root barrier and drainage and irrigation systems. (The word "green" refers to environmentalism and not the color green, as with green roof tiles or roof shingles).




Container gardenson roofs, where plants are maintained in pots, are not generally considered to be true green roofs, although this is debated. Rooftop ponds are another form of green roofs which are used to treat greywater.


Green roofs serve several purposes for a building, such as absorbing rainwater, providing insulation, creating a habitat for wildlife, and helping to lower urban air temperatures and mitigate the heat island effect.


 There are two types of green roofs: intensive roofs, which are thicker and can support a wider variety of plants but are heavier and require more maintenance, and extensive roofs, which are covered in a light layer of vegetation and are lighter than an intensive green roof.


The term green roof may also be used to indicate roofs that use some form of green technology, such as a cool roof, a roof with solar thermal collectors or photovoltaic panels. Green roofs are also referred to as eco-roofs, oikosteges, vegetated roofs, living roofs, greenroofs and VCW_H^[1] (Horizontal Vegetated Complex Walls)


http://en.wikipedia.org/wiki/Green_roof

2:11 AM | 0 comments | Read More

Green plants

Introduction . Green plants include all organisms commonly known as green algae and land plants, including liverworts, mosses, ferns and other nonseed plants, and seed plants.

This tree diagram shows the relationships between several groups of organisms.

The root of the current tree connects the organisms featured in this tree to their containing group and the rest of the Tree of Life. The basal branching point in the tree represents the ancestor of the other groups in the tree. This ancestor diversified over time into several descendent subgroups, which are represented as inter 

You can click on the root to travel down the Tree of Life all the way to the root of all Life, and you can click on the names of descendent subgroups to travel up the Tree of Life all the way to individual species.


For more information on ToL tree formatting, please see Interpreting the Tree or Classification. To learn more about phylogenetic trees, please visit our Phylogenetic Biology pages. close box
Containing group: Eukaryotes


Introduction Green plants as defined here includes a broad assemblage of photosynthetic organisms that all contain chlorophylls a and b, store their photosynthetic products as starch inside the double-membrane-bounded chloroplasts in which it is produced, and have cell walls made of cellulose (Raven et al., 1992). In this group are several thousand species of what are classically considered green algae, plus several hundred thousand land plants.


Discussion of Phylogenetic Relationships There are two major lineages of green plants. One consists of most of what have been classically considered "green algae"--mostly microscopic freshwater forms and large seaweeds. The other lineage contains several groups of "green algae" that are more closely related to land plants. Because these two lineages are monophyletic, they have been placed in a single monophyletic group called green plants, or, in technical parlance, the subkingdom Chlorobionta (Bremer, 1985).


The groups of the primary "green algal" lineage included here (Prasinophytes, Chlorophyceae, Trebouxiophyceae, and Ulvophyceae) represent a synthesis of the most recent classifications based primarily on ultrastructure of motile cells (when present) and analysis of molecular data (small subunit rDNA) Melkonian and Surek, 1995; Friedl, 1995). The groups represent classes of green algae, except for the "Prasinophytes," which, although erected as a class (Prasinophyceae), is apparently a paraphyletic, basal radiation within the "green algal" lineage (Melkonian, 1990; Friedl, 1995; Melkonian and Surek, 1995). The name for the sister taxon to the Chlorophyceae used here (class Trebouxiophyceae) is has also been referred to as the order Microthmaniales (Melkonian and Surek, 1995); recent studies of small-subunit rDNA sequences led Friedl (1995) to raise the group to class level.


The other main lineage of green plants has been called the Streptophytes (Bremer, 1985), which consists of some organisms traditionally considered green algae plus the more familiar green plants found mostly on land. This lineage contains green algae that most textbooks include in the Class Charophyceae, but some members of this class are in fact more closely related to higher plants than to other members of the class (Mattox and Stewart, 1984; Mishler and Churchill, 1985; McCourt, 1995; Melkonian and Surek, 1995). Specifically, Chara and related algae (Order Charales) and Coleochaete and related algae (Order Coleochaetales) are probably the closest living "green algal" relatives of land plants. 


Ultrastructural and morphological studies were the first to support the relationship of these orders of green algae to land plants (embryophytes) (Pickett-Heaps, 1975; Mishler and Churchill, 1985; Graham et al., 1991). The orders were all placed in the class Charophyceae (Mattox and Stewart, 1984) and retained within the green algae (Division Chlorophyta in the classical sense [Bold and Wynne, 1985]. Recent analyses suggest that the Charophyceae is a paraphyletic group, and therefore the orders originally circumscribed within it have been placed within the Streptophyta (Bremer, 1985).


Later molecular studies (reviews in McCourt, 1995 and Melkonian and Surek, 1995) largely confirmed this close relationship, and confirmed what the ultrastructural and morphological data had first suggested: that the Charophyceae is a paraphyletic assemblage. Specifically, the Charales and Coleochaetales are most closely related to land plants (Chapman and Buchheim, 1991; Ragan et al. 1993; Surek et al., 1993; Bhattacharya et al., 1994). The Charales/Coleochaetales/Embryophyte clade is shown as unresolved because morphological and molecular studies to date have not fully resolved which of the green algae is the sister taxon of land plants (McCourt 1995; Melkonian and Surek, 1995).

Other Names for Green plants

Plantae
plants
Viridiplantae 

References


Bhattacharya, D., Surek, B., Rüsing, M., Damberger, S., and Melkonian, M. (1994) Group I introns are inherited through common ancestry in the nuclear-encoded rRNA of Zygnematales (Charophyceae). Proc. Natl. Acad. Sci. USA 91: 9916-20.


Bold, H. C. & Wynne, M. J. (1985) Introduction to the Algae. 2nd ed., Prentice-Hall, Inc., Englewood Cliffs, New Jersey, 720 pp.


Bremer, K. (1985) Summary of green plant phylogeny and classification. Cladistics 1:369-385.


Friedl, T. (1995) Inferring taxonomic positions and testing genus level assignments in coccoid green lichen algae: A phylogenetic analysis of 18S ribosomal RNA sequences from Dictyochloropsis reticulata and from members of the genus Myrmecia (Chlorophyta, Trebouxiophyceae Cl. Nov.). J. Phycol. 31:632-639.


Graham, L. E., Delwiche, C. F. & Mishler, B. D. 1991. Phylogenetic connections between the 'Green Algae' and the 'Bryophytes.' Adv. Bryol., 4, 213-244.


Mattox, K. R. & Stewart, K. D. (1984) Classification of the green algae: A concept based on comparative cytology. In: Systematics of the Green Algae. Irvine, D.E.G. & John, D.M. [Eds.] Academic Press, London, pp. 29-72.


McCourt, R. M. (1995) Green algal phylogeny. Trends in Ecology and Evolution 10:159-163.


Melkonian, M. (1990) Phylum Chlorophyta: Introduction to the Chlorophyta. In: Handbook of Protoctista. Margulis, L., Corliss, J. O., Melkonian, M., and Chapman, D. J., eds. pp. 597-599. Jones and Bartlett Publishers, Boston. [Note: This chapter is followed by several others on the "green algae."]


Melkonian, M. and Surek, B. (1995) Phylogeny of the Chlorophyta: Congruence between ultrastructural and molecular evidence. Bull. Soc. Zool. Fr. 120: 191-208.


Mishler, B. D. & Churchill, S. P. (1985) Transition to a land flora: phylogenetic relationships of the green algae and bryophytes. Cladistics 1:305-28.


Pickett-Heaps, J. D. (1975) Green Algae: Structure, Reproduction and Evolution in Selected Genera. Sinauer Associates, Inc., Sunderland, Massachusetts, 606 pp.


Raven, P. H., Evert, R. H., Eichhorn, S. E. (1992) Biology of Plants. 5th Edition. Worth Publishers, New York.


Surek, B., Beemelmanns, U., Melkonian, M. & Bhattacharya, D. 1993. Ribosomal RNA sequence comparisons demonstrate an evolutionary relationship between Zygnematales and charophytes. Pl. Syst. Evol., 191, 171-81.

Richard M. McCourt, R. L. Chapman, Mark Buchheim, and Brent D. Mishler 

http://tolweb.org/Green_plants

12:30 AM | 0 comments | Read More