Wikispecies is a wiki-based online project supported by the Wikimedia Foundation. Its aim is to create a comprehensive free content catalogue of all species. Jimmy Wales stated that editors are not required to fax in their degrees, but that submissions will have to pass muster with a technical audience. Wikispecies is available under the GNU Free Documentation License and CC BY-SA 3.0. Started in September 2004, with biologists across the world invited to contribute, the project had grown a framework encompassing the Linnaean taxonomy with links to Wikipedia articles on individual species by April 2005. Benedikt Mandl co-ordinated the efforts of several people who are interested in getting involved with the project and contacted potential supporters in early summer 2004. Databases were evaluated and the administrators contacted, some of them have agreed on providing their data for Wikispecies. Mandl defined two major tasks: Figure out how the contents of the data base would need to be presented—by asking experts, potential non-professional users and comparing that with existing databases Figure out how to do the software, which hardware is required and how to cover the costs—by asking experts, looking for fellow volunteers and potential sponsorsAdvantages and disadvantages were discussed by the wikimedia-I mailing list.
The board of directors of the Wikimedia Foundation voted by 4 to 0 in favor of the establishment of a Wikispecies. The project is hosted at species.wikimedia.org. It was merged to a sister project of Wikimedia Foundation on September 14, 2004. On October 10, 2006, the project exceeded 75,000 articles. On May 20, 2007, the project exceeded 100,000 articles with a total of 5,495 registered users. On September 8, 2008, the project exceeded 150,000 articles with a total of 9,224 registered users. On October 23, 2011, the project reached 300,000 articles. On June 16, 2014, the project reached 400,000 articles. On January 7, 2017, the project reached 500,000 articles. On October 30, 2018, the project reached 600,000 articles, a total of 1.12 million pages. Wikispecies comprises taxon pages, additionally pages about synonyms, taxon authorities, taxonomical publications, institutions or repositories holding type specimen. Wikispecies asks users to use images from Wikimedia Commons. Wikispecies does not allow the use of content.
All Species Foundation Catalogue of Life Encyclopedia of Life Tree of Life Web Project List of online encyclopedias The Plant List Wikispecies, The free species directory that anyone can edit Species Community Portal The Wikispecies Charter, written by Wales
A tepal is one of the outer parts of a flower. The term is used when these parts cannot be classified as either sepals or petals; this may be because the parts of the perianth are undifferentiated, as in Magnolia, or because, although it is possible to distinguish an outer whorl of sepals from an inner whorl of petals, the sepals and petals have similar appearance to one another. The term was first proposed by Augustin Pyramus de Candolle in 1827 and was constructed by analogy with the terms "petal" and "sepal". Undifferentiated tepals are believed to be the ancestral condition in flowering plants. For example, thought to have separated earliest in the evolution of flowering plants, has flowers with undifferentiated tepals. Distinct petals and sepals would therefore have arisen by differentiation in response to animal pollination. In typical modern flowers, the outer or enclosing whorl of organs forms sepals, specialised for protection of the flower bud as it develops, while the inner whorl forms petals, which attract pollinators.
Tepals formed by similar sepals and petals are common in monocotyledons the "lilioid monocots". In tulips, for example, the first and second whorls both contain structures; these are fused at the base to form one large, six-parted structure. In lilies the organs in the first whorl are separate from the second, but all look similar, thus all the showy parts are called tepals. Where sepals and petals can in principle be distinguished, usage of the term "tepal" is not always consistent – some authors will refer to "sepals and petals" where others use "tepals" in the same context. In some plants the flowers have no petals, all the tepals are sepals modified to look like petals; these organs are described for example, the sepals of hellebores. When the undifferentiated tepals resemble petals, they are referred to as "petaloid", as in petaloid monocots, orders of monocots with brightly coloured tepals. Since they include Liliales, an alternative name is lilioid monocots. Terms used in the description of tepals include pubescent and puberulous.
Tepal shape is described in similar terms to those used for leaves. Flowers with tepals Glossary of plant morphology Plant reproductive morphology Botany: A Brief Introduction To Plant Biology - 5th ed. Thomas L. Rost. Plant Systematics - Jones.
A hemiepiphyte is a plant that spends part of its life cycle as an epiphyte. The seeds of primary hemiepiphytes germinate in the canopy and live epiphytically, they send roots downward, these roots make contact with the ground. Secondary epiphytes are root-climbers that begin as rooted vines growing upward from the forest floor, but break their connection to the ground; when this happens, they may send down long roots to the ground. Strangler figs are hemiepiphytic – they may begin life as epiphytes but after making contact with the ground they encircle their host tree and "strangle" it; this results in the death of the host tree, either through girdling or through competition for light. Strangler figs can germinate and develop as independent trees, not reliant on the support of a host
Simplified Chinese characters
Simplified Chinese characters are standardized Chinese characters prescribed in the Table of General Standard Chinese Characters for use in mainland China. Along with traditional Chinese characters, they are one of the two standard character sets of the contemporary Chinese written language; the government of the People's Republic of China in mainland China has promoted them for use in printing since the 1950s and 1960s to encourage literacy. They are used in the People's Republic of China and Singapore. Traditional Chinese characters are used in Hong Kong and the Republic of China. While traditional characters can still be read and understood by many mainland Chinese and the Chinese community in Malaysia and Singapore, these groups retain their use of simplified characters. Overseas Chinese communities tend to use traditional characters. Simplified Chinese characters may be referred to by their official name colloquially; the latter refers to simplifications of character "structure" or "body", character forms that have existed for thousands of years alongside regular, more complicated forms.
On the other hand, the official name refers to the modern systematically simplified character set, which includes not only structural simplification but substantial reduction in the total number of standardized Chinese characters. Simplified character forms were created by reducing the number of strokes and simplifying the forms of a sizable proportion of Chinese characters; some simplifications were based on popular cursive forms embodying graphic or phonetic simplifications of the traditional forms. Some characters were simplified by applying regular rules, for example, by replacing all occurrences of a certain component with a simplified version of the component. Variant characters with the same pronunciation and identical meaning were reduced to a single standardized character the simplest amongst all variants in form. Many characters were left untouched by simplification, are thus identical between the traditional and simplified Chinese orthographies; some simplified characters are dissimilar to and unpredictably different from traditional characters in those where a component is replaced by a simple symbol.
This has led some opponents of simplification to complain that the'overall process' of character simplification is arbitrary. Proponents counter that the system of simplification is internally consistent. Proponents have emphasized a some particular simplified characters as innovative and useful improvements, although many of these have existed for centuries as longstanding and widespread variants. A second round of simplifications was promulgated in 1977, but was retracted in 1986 for a variety of reasons due to the confusion caused and the unpopularity of the second round simplifications. However, the Chinese government never dropped its goal of further simplification in the future. In August 2009, the PRC began collecting public comments for a modified list of simplified characters; the new Table of General Standard Chinese Characters consisting of 8,105 characters was implemented for use by the State Council of the People's Republic of China on June 5, 2013. Although most of the simplified Chinese characters in use today are the result of the works moderated by the government of the People's Republic of China in the 1950s and 60s, character simplification predates the PRC's formation in 1949.
Cursive written text always includes character simplification. Simplified forms used in print are attested as early as the Qin dynasty. One of the earliest proponents of character simplification was Lufei Kui, who proposed in 1909 that simplified characters should be used in education. In the years following the May Fourth Movement in 1919, many anti-imperialist Chinese intellectuals sought ways to modernise China. Traditional culture and values such as Confucianism were challenged. Soon, people in the Movement started to cite the traditional Chinese writing system as an obstacle in modernising China and therefore proposed that a reform be initiated, it was suggested that the Chinese writing system should be either simplified or abolished. Lu Xun, a renowned Chinese author in the 20th century, stated that, "If Chinese characters are not destroyed China will die". Recent commentators have claimed that Chinese characters were blamed for the economic problems in China during that time. In the 1930s and 1940s, discussions on character simplification took place within the Kuomintang government, a large number of Chinese intellectuals and writers maintained that character simplification would help boost literacy in China.
In 1935, 324 simplified characters collected by Qian Xuantong were introduced as the table of first batch of simplified characters, but they were suspended in 1936. The PRC issued its first round of official character simplifications in two documents, the first in 1956 and the second in 1964. Within the PRC, further character simplification became associated with the leftists of the Cultural Revolution, culminating with the second-round simplified characters, which were promulgated in 1977. In part due to the shock and unease felt in the wake of the Cultural Revolution and Mao's death, the second-round of simplifications was poorly received. In 1986 the authorities retracted the second round completely. In the same year, the authorities promulgated a final list of simplifications, identical to the 1964 list except for six changes (including the restoration of three characters, simplified in the First Round: 叠, 覆, 像.
A cactus is a member of the plant family Cactaceae, a family comprising about 127 genera with some 1750 known species of the order Caryophyllales. The word "cactus" derives, through Latin, from the Ancient Greek κάκτος, kaktos, a name used by Theophrastus for a spiny plant whose identity is not certain. Cacti occur in a wide range of sizes. Most cacti live in habitats subject to at least some drought. Many live in dry environments being found in the Atacama Desert, one of the driest places on earth. Cacti show many adaptations to conserve water. All cacti are succulents, meaning they have thickened, fleshy parts adapted to store water. Unlike many other succulents, the stem is the only part of most cacti where this vital process takes place. Most species of cacti have lost true leaves, retaining only spines, which are modified leaves; as well as defending against herbivores, spines help prevent water loss by reducing air flow close to the cactus and providing some shade. In the absence of leaves, enlarged stems carry out photosynthesis.
Cacti are native to the Americas, ranging from Patagonia in the south to parts of western Canada in the north—except for Rhipsalis baccifera, which grows in Africa and Sri Lanka. Cactus spines are produced from specialized structures called areoles, a kind of reduced branch. Areoles are an identifying feature of cacti; as well as spines, areoles give rise to flowers, which are tubular and multipetaled. Many cacti have short growing seasons and long dormancies, are able to react to any rainfall, helped by an extensive but shallow root system that absorbs any water reaching the ground surface. Cactus stems are ribbed or fluted, which allows them to expand and contract for quick water absorption after rain, followed by long drought periods. Like other succulent plants, most cacti employ a special mechanism called "crassulacean acid metabolism" as part of photosynthesis. Transpiration, during which carbon dioxide enters the plant and water escapes, does not take place during the day at the same time as photosynthesis, but instead occurs at night.
The plant stores the carbon dioxide it takes in as malic acid, retaining it until daylight returns, only using it in photosynthesis. Because transpiration takes place during the cooler, more humid night hours, water loss is reduced. Many smaller cacti have globe-shaped stems, combining the highest possible volume for water storage, with the lowest possible surface area for water loss from transpiration; the tallest free-standing cactus is Pachycereus pringlei, with a maximum recorded height of 19.2 m, the smallest is Blossfeldia liliputiana, only about 1 cm in diameter at maturity. A grown saguaro is said to be able to absorb as much as 200 U. S. gallons of water during a rainstorm. A few species differ in appearance from most of the family. At least superficially, plants of the genus Pereskia resemble other trees and shrubs growing around them, they have persistent leaves, when older, bark-covered stems. Their areoles identify them as cacti, in spite of their appearance, too, have many adaptations for water conservation.
Pereskia is considered close to the ancestral species from. In tropical regions, other cacti grow as forest epiphytes, their stems are flattened leaf-like in appearance, with fewer or no spines, such as the well-known Christmas cactus or Thanksgiving cactus. Cacti have a variety of uses: many species are used as ornamental plants, others are grown for fodder or forage, others for food. Cochineal is the product of an insect. Many succulent plants in both the Old and New World – such as some Euphorbiaceae – bear a striking resemblance to cacti, may incorrectly be called "cactus" in common usage; the 1,500 to 1,800 species of cacti fall into one of two groups of "core cacti": opuntias and "cactoids". Most members of these two groups are recognizable as cacti, they have fleshy succulent stems. They have small, or transient leaves, they have flowers with ovaries that lie below the sepals and petals deeply sunken into a fleshy receptacle. All cacti have areoles—highly specialized short shoots with short internodes that produce spines, normal shoots, flowers.
The remaining cacti fall into only two genera and Maihuenia, are rather different, which means any description of cacti as a whole must make exceptions for them. Pereskia species superficially resemble other tropical forest trees; when mature, they have woody stems that may be covered with bark and long-lasting leaves that provide the main means of photosynthesis. Their flowers may have superior ovaries, areoles that produce further leaves; the two species of Maihuenia have globe-shaped bodies with prominent leaves at the top. Cacti show a wide variety of growth habits, which are difficult to divide into clear, simple categories. Arborescent cactiThey can be tree-like, meaning they have a single more-or-less woody trunk topped by several to many branches. In the genus Pereskia, the branches are covered with leaves, so the species of this genus may not be recognized as cacti. In most other cacti, the branches are more cactus-like, bare of leaves and bark, cov
In scientific nomenclature, a synonym is a scientific name that applies to a taxon that goes by a different scientific name, although the term is used somewhat differently in the zoological code of nomenclature. For example, Linnaeus was the first to give a scientific name to the Norway spruce, which he called Pinus abies; this name is no longer in use: it is now a synonym of the current scientific name, Picea abies. Unlike synonyms in other contexts, in taxonomy a synonym is not interchangeable with the name of which it is a synonym. In taxonomy, synonyms have a different status. For any taxon with a particular circumscription and rank, only one scientific name is considered to be the correct one at any given time. A synonym cannot exist in isolation: it is always an alternative to a different scientific name. Given that the correct name of a taxon depends on the taxonomic viewpoint used a name, one taxonomist's synonym may be another taxonomist's correct name. Synonyms may arise whenever the same taxon is named more than once, independently.
They may arise when existing taxa are changed, as when two taxa are joined to become one, a species is moved to a different genus, a variety is moved to a different species, etc. Synonyms come about when the codes of nomenclature change, so that older names are no longer acceptable. To the general user of scientific names, in fields such as agriculture, ecology, general science, etc. A synonym is a name, used as the correct scientific name but, displaced by another scientific name, now regarded as correct, thus Oxford Dictionaries Online defines the term as "a taxonomic name which has the same application as another one, superseded and is no longer valid." In handbooks and general texts, it is useful to have synonyms mentioned as such after the current scientific name, so as to avoid confusion. For example, if the much advertised name change should go through and the scientific name of the fruit fly were changed to Sophophora melanogaster, it would be helpful if any mention of this name was accompanied by "".
Synonyms used in this way may not always meet the strict definitions of the term "synonym" in the formal rules of nomenclature which govern scientific names. Changes of scientific name have two causes: they may be taxonomic or nomenclatural. A name change may be caused by changes in the circumscription, position or rank of a taxon, representing a change in taxonomic, scientific insight. A name change may be due to purely nomenclatural reasons, that is, based on the rules of nomenclature. Speaking in general, name changes for nomenclatural reasons have become less frequent over time as the rules of nomenclature allow for names to be conserved, so as to promote stability of scientific names. In zoological nomenclature, codified in the International Code of Zoological Nomenclature, synonyms are different scientific names of the same taxonomic rank that pertain to that same taxon. For example, a particular species could, over time, have had two or more species-rank names published for it, while the same is applicable at higher ranks such as genera, orders, etc.
In each case, the earliest published name is called the senior synonym, while the name is the junior synonym. In the case where two names for the same taxon have been published the valid name is selected accorded to the principle of the first reviser such that, for example, of the names Strix scandiaca and Strix noctua, both published by Linnaeus in the same work at the same date for the taxon now determined to be the snowy owl, the epithet scandiaca has been selected as the valid name, with noctua becoming the junior synonym. One basic principle of zoological nomenclature is that the earliest published name, the senior synonym, by default takes precedence in naming rights and therefore, unless other restrictions interfere, must be used for the taxon. However, junior synonyms are still important to document, because if the earliest name cannot be used the next available junior synonym must be used for the taxon. For other purposes, if a researcher is interested in consulting or compiling all known information regarding a taxon, some of this may well have been published under names now regarded as outdated and so it is again useful to know a list of historic synonyms which may have been used for a given current taxon name.
Objective synonyms refer to taxa with same rank. This may be species-group taxa of the same rank with the same type specimen, genus-group taxa of the same rank with the same type species or if their type species are themselves objective synonyms, of family-group taxa with the same type genus, etc. In the case of subjective synonyms, there is no such shared type, so the synonymy is open to taxonomic judgement, meaning that th
Natural Resources Conservation Service
Natural Resources Conservation Service known as the Soil Conservation Service, is an agency of the United States Department of Agriculture that provides technical assistance to farmers and other private landowners and managers. Its name was changed in 1994 during the presidency of Bill Clinton to reflect its broader mission, it is a small agency comprising about 12,000 employees. Its mission is to improve and conserve natural resources on private lands through a cooperative partnership with state and local agencies. While its primary focus has been agricultural lands, it has made many technical contributions to soil surveying and water quality improvement. One example is the Conservation Effects Assessment Project, set up to quantify the benefits of agricultural conservation efforts promoted and supported by programs in the Farm Security and Rural Investment Act of 2002. NRCS is the leading agency in this project; the agency was founded through the efforts of Hugh Hammond Bennett, a soil conservation pioneer who worked for the Department of Agriculture from 1903 to 1952.
Bennett's motivation was based on his knowledge of the detrimental effects of soil erosion and the impacts on U. S lands. On September 13, 1933, the Soil Erosion Service was formed in the Department of the Interior, with Bennett as chief; the service was transferred to the Department of Agriculture on March 23, 1935, was shortly thereafter combined with other USDA units to form the Soil Conservation Service by the Soil Conservation and Domestic Allotment Act of 1935. The Soil Conservation Service was in charge of 500 Civilian Conservation Corps camps between 1933 and 1942; the primary purpose of these camps was erosion control. Hugh Bennett continued as chief, a position he held until his retirement in 1952. On October 20, 1994, the agency was renamed to the Natural Resources Conservation Service as part of the Federal Crop Insurance Reform and Department of Agriculture Reorganization Act of 1994. NRCS offers financial assistance to farmers and ranchers; the financial assistance is authorized by the Farm Bill, a law, renewed every five years.
The 2014 Farm Bill consolidated 23 programs into 15. NRCS offers these services to private land owners, conservation districts and other types of organizations. NRCS collects and shares information on the nation's soil, water and plants; the Conservation Title of the Farm Bill provides the funding to agricultural producers, a conservation plan must be included. All of these programs are voluntary; the main programs include: The purpose of EQIP is to provide assistance to landowners to help them improve their soil and related natural resources, including grazing lands and wildlife habitat. Conservation Stewardship Program CSP is targeted to a producers who maintain a higher level of environmental stewardship. Regional Conservation Partnership Program RCPP consolidated four programs from the prior 2008 Farm Bill, it aims at more watershed scale projects, rather than individual farms and ranches. Agricultural Conservation Easement Program ACEP was another consolidation effort of the 2014 Farm Bill, which includes the former Grasslands Reserve Program and Ranch Lands Protection Program, Wetlands Reserve Program.
ACEP includes technical and financial help to maintain or improve land for agriculture or environmental benefits. Landowners volunteer to protect forests in 30 or 10 year contracts; this program hands assisting funds to participants. The objectives of HFRP are to: Promote the recovery of endangered and threatened species under the Endangered Species Act Improve plant and animal biodiversity Enhance carbon sequestration Serves 10 states in the Midwest United States in helping to reduce Nitrate levels in soil due to runoff from fertilized farmland; the project began in 2010 and focused on the Mississippi Basin area. The main goal of the project is to implement better methods of managing water drainage from agricultural uses, in place of letting the water drain as it had done in the past. In October 2011, The National "Managing Water, Harvesting Results" Summit was held to promote the drainage techniques used in hopes of people adopting them nationwide. Includes water supply forecasts and the Surface Water Supply Index for Alaska and other Western states.
NRCS agents collect data from snowpack and mountain sites to predict spring runoff and summer streamflow amounts. These predictions are used in decision making for agriculture, wildlife management and development, several other areas; these predictions are available within the first 5 days of each month from January to June. Is a blanket program which involves conservation efforts on soil and water conservation, as well as management of agricultural wastes and general longterm sustainability. NRCS and related agencies work with landowners, communities, or developers to protect the environment. Serve to guide people to comply with acts such as the Highly Erodible Land and Conservation Compliance Provisions acts; the CTA can cover projects by state and federal governments. Is a program to assist gulf bordering states improve water quality and use sustainable methods of farming and other industry; the program will deliver up to 50 million dollars over 2011-2013 to apply these sustainable methods, as well as wildlife habitat management systems that do not hinder agricultural productivity, prevent future over use of water resources to protect native endangered spe