Also known as: Great Red Island, Isle of Saint Lawrence, Madagasikara, Malagasy Republic, République de Madagascar, Repoblikan’i Madagasikara, Republic of Madagascar
The first round of Madagascar’s long-awaited presidential election was finally held on October 25, 2013, with more than 30 candidates vying for the presidency. Richard Jean-Louis Robinson, supported by Ravalomanana, and Hery Martial Rakotoarimanana Rajaonarimampianina, seen as an ally of Rajoelina, received the most votes—about 21 percent and 16 percent, respectively—and they advanced to a runoff election held on December 20, 2013. Voting was relatively peaceful, and international observers did not note any significant problems. Provisional results, released in early January 2014, showed that Rajaonarimampianina was the winner, with 53.5 percent of the vote. Even before the results were released, however, Robinson and others voiced allegations of fraud and filed numerous complaints with the electoral court. Later that month the electoral court upheld the provisional results, declaring Rajaonarimampianina the president-elect. He was inaugurated on January 25, 2014. With Rajaonarimampianina’s inauguration signifying a return of constitutional order in Madagascar, the AU and SADC lifted their suspensions of the country in the following days.
Former president Ravalomanana remained in exile for most of the year in South Africa, as amnesty had not been granted for the offenses of which he had been found guilty by a Malagasy court in 2010. Regardless, in October 2014 he returned to the island country, where he was soon detained by the authorities without being charged of any crime. He was allowed to return to his home at the end of the year, although he was under an order of house arrest that was not lifted until May 2015.
Rajaonarimampianina’s popularity with lawmakers dwindled by early 2015, and there was also an apparent split between the president and Rajoelina and his supporters. In late May, Malagasy lawmakers in the National Assembly voted in favour of impeaching Rajaonarimampianina. The legislature’s impeachment request was then subject to being ruled upon by the country’s High Constitutional Court, which in June ruled against it, stating that the request was unfounded.
The return to constitutional order in 2014 led to a resumption of economic aid, and the country’s economy experienced some growth under Rajaonarimampianina. In spite of that, however, the general Malagasy population did not see economic relief, which was a source of tension.
Madagascar’s presidential election was scheduled to be held by the end of 2018. Controversy erupted in April of that year when Rajaonarimampianina was accused of having new electoral laws passed in an attempt to prohibit some likely potential candidates—including former president Ravalomanana—from being able to stand in the presidential election. After two civilians were killed while demonstrating against the new electoral laws, crowds continued to gather to protest against the laws as well as to denounce Rajaonarimampianina and the actions of the security forces toward the protestors, and there were calls for Rajaonarimampianina to resign. The new electoral laws were challenged at the High Constitutional Court, which struck down part of the new laws on May 4; some of the restrictions on candidates put in place by the laws were soon lifted. Later in the month, the High Constitutional Court ordered that a coalition government be established in an effort to end the ongoing political crisis. In June, Rajaonarimampianina named a new prime minister, Christian Ntsay, to head a government of national unity and appointed a new cabinet. Ntsay scheduled the upcoming presidential election for November 7, 2018.
Rajaonarimampianina, as the incumbent running for reelection, stepped down 60 days before the November election, as dictated by Madagascar’s constitution. The president of the Senate, Rivo Rakotovao, an ally of Rajaonarimampianina, became acting president of Madagascar. Rajaonarimampianina was among three dozen contenders for the presidential post, which, as expected, also included Ravalomanana as well as Rajoelina. As none of the candidates in the November 7 election won more than the requisite 50 percent of the vote, the two top vote-getters—Rajoelina, with about 39 percent, and Ravalomanana, with about 35 percent—were set to advance to a runoff scheduled for December. Rajaonarimampianina trailed the two former presidents, winning less than 9 percent of the vote. Provisional results from the December 19, 2018, runoff election showed Rajoelina as the winner, taking more than 55 percent of the vote. Ravalomanana, however, denounced the results as being tainted by electoral problems and filed complaints with the High Constitutional Court, seeking to have the election results cancelled. On January 8, 2019, however, the court upheld the results, having rejected Ravalomanana’s complaints, and Rajoelina was cleared to ascend to the presidency. His inauguration ceremony was held on January 19, 2019.
measuring biodiversityWays to measure biodiversity. Although examining counts of species is perhaps the most common method used to compare the biodiversity of various places, other methods may be used, such as looking at the genetic diversity within species, investigating ecosystem diversity, and considering the presence of endemic species.
biodiversity
ecology
Also known as: biological diversity, species diversity
Biodiversity, also called biological diversity, is the variety of life found in a place on Earth or, often, the total variety of life on Earth. A common measure of this variety, called species richness, is the count of species in an area. Biodiversity also encompasses the genetic variety within each species and the variety of ecosystems that species create.
What are the ways to measure biodiversity?
Examining counts of species is the most common method used to compare the biodiversity of various places. A second way to weigh species biodiversity is to recognize the unique biodiversity of those habitats that contain few but unusual species, such as volcanoes, thermal vents, and hot springs. In practice, biodiversity is weighted differently for different species.
What has led to the decline in biodiversity in recent times?
The pace of decline and extinctions in biodiversity has risen dramatically over the last century, as the effects of climate change increased and human activities such as agriculture, fishing, and hunting continued to encroach into more remote natural areas all over the world.
Which year was named the International Year of Biodiversity?
The United Nations named 2010 as the International Year of Biodiversity. It was a yearlong celebration intended to raise public awareness about the importance of biodiversity and the need to reinforce conservation efforts.
How many species are on the extinction list in the biodiversity report for 2019?
A 2019 report by the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services noted that up to one million plant and animal species are facing extinction because of human activity.
biodiversity, the variety of life found in a place on Earth or, often, the total variety of life on Earth. A common measure of this variety, called species richness, is the count of species in an area. Colombia and Kenya, for example, each have more than 1,000 breeding species of birds, whereas the forests of Great Britain and of eastern North America are home to fewer than 200. A coral reef off northern Australia may have 500 species of fish, while the rocky shoreline of Japan may be home to only 100 species. Such numbers capture some of the differences between places—the tropics, for example, have the highest numbers of species, and species richness generally decreases as one moves further from the Equator and toward each pole. In addition, vast areas, such as large islands and continents, tend to support more species than smaller areas, such as tiny islands. However, raw species count is not the only measure of diversity. Furthermore, biodiversity encompasses the genetic variety within each species and the variety of ecosystems that species create.
How Manú National Park in Peru protects biodiversityLearn how and why inventories of the high level of reptile and amphibian biodiversity are maintained at Manú National Park, southern Peru.
Although examining counts of species is perhaps the most common method used to compare the biodiversity of various places, in practice biodiversity is weighted differently for different species, the reason being that some species are deemed more valuable or more interesting than others. One way this “value” or “interest” is assessed is by examining the diversity that exists above the species level, in the genera, families, orders, classes, and phyla to which species belong (seetaxonomy). For example, the count of animal species that live on land is much higher than the count of those that live in the oceans because there are huge numbers of terrestrial insect species; insects comprise many orders and families, and they constitute the largest class of arthropods, which themselves constitute the largest animal phylum. In contrast, there are fewer animal phyla in terrestrial environments than in the oceans. No animal phylum is restricted to the land, but brachiopods (seelamp shell), pogonophorans (seebeardworm), and other animal phyla occur exclusively or predominantly in marine habitats.
Some species have no close relatives and exist alone in their genus, whereas others occur in genera made up of hundreds of species. Given this, one can ask whether it is a species belonging to the former or latter category that is more important. On one hand, a taxonomically distinct species—the only one in its genus or family, for example—may be more likely to be distinct biochemically and so be a valuable source for medicines simply because there is nothing else quite like it. On the other hand, although the only species in a genus carries more genetic novelty, a species belonging to a large genus might possess something of the evolutionary vitality that has led its genus to be so diverse.
Yellowstone National ParkMorning Glory Pool hot spring, Upper Geyser Basin, Yellowstone National Park, northwestern Wyoming, U.S.
A second way to weight species biodiversity is to recognize the unique biodiversity of those environments that contain few species but unusual ones. Dramatic examples come from extreme environments such as the summits of active Antarctic volcanoes (e.g., Mt. Erebus [seeRoss Island] and Mt. Melbourne in the Ross Sea region), hot springs (e.g., Yellowstone National Park in the western United States), or deep-sea hydrothermal vents (seemarine ecosystem: Organisms of the deep-sea vents). The numbers of species found in these places may be smaller than almost anywhere else, yet the species are quite distinctive. One such species is the bacteriumThermus aquaticus, found in the hot springs of Yellowstone. From this organism was isolated Taq polymerase, a heat-resistant enzyme crucial for a DNA-amplification technique widely used in research and medical diagnostics (seepolymerase chain reaction).
Ka‘u silverswordThe Ka‘u silversword (Argyroxiphium kauense) is an endangered plant found only on the slopes of Mauna Loa on the island of Hawaii.
More generally, areas differ in the biodiversity of species found only there. Species having relatively small ranges are called endemic species. On remote oceanic islands, almost all the native species are endemic. The Hawaiian Islands, for example, have about 1,000 plant species, a small number compared with those at the same latitude in continental Central America. Almost all the Hawaiian species, however, are found only there, whereas the species on continents may be much more widespread. Endemic species are much more vulnerable to human activity than are more widely distributed species, because it is easier to destroy all the habitat in a small geographic range than in a large one.
In addition to diversity among species, the concept of biodiversity includes the genetic diversity within species. One example is our own species, for we differ in a wide variety of characteristics that are partly or wholly genetically determined, including height, weight, skin and eye colour, behavioral traits, and resistance to various diseases. Likewise, genetic variety within a plant species may include the differences in individual plants that confer resistance to different diseases. For plants that are domesticated, such as rice, these differences may be of considerable economic importance, for they are the source of new disease-resistant domestic varieties.
Are you a student?
Get a special academic rate on Britannica Premium.
The idea of biodiversity also encompasses the range of ecological communities that species form. A common approach to quantifying this type of diversity is to record the variety of ecological communities an area may contain. It is generally accepted that an area having, say, both forests and prairies is more diverse than one with forests alone, because each of these assemblages is expected to house different species. This conclusion, however, is indirect—i.e., it is likely based on differences in vegetation structure or appearance rather than directly on lists of species.
Forest and prairie are just two of a plethora of names applied to ecological assemblages defined in a variety of ways, methods, and terms, and many ideas exist regarding what constitutes an assemblage. Technical terms that imply different degrees to which assemblages can be divided spatially include association, habitat, ecosystem, biome, life zone, ecoregion, landscape, or biotype. There is also no agreement on the boundaries of assemblages—say, where the forest biome ends and the prairie biome begins. Nonetheless, especially when these approaches are applied globally, as with the ecoregions used by the World Wide Fund for Nature (World Wildlife Fund, WWF), they provide a useful guide to biodiversity patterns.
Counting species
biodiversity lossThe primary drivers of biodiversity loss are influenced by the exponential growth of the human population, increased consumption as people strive for more affluent lifestyles, and reduced resource efficiency.
The catalog of Earth’s biodiversity is very incomplete. About 1.9 million species have scientific names. Estimates of the total number of living species cluster around 10 million, which means that most species have not been discovered and described. (These estimates omit bacteria because of the practical problems in defining bacterial species.) Simply counting species must be, at best, an incomplete measure of biodiversity, for most species cannot be counted within a reasonable time. At the present rate of describing new species, it will take about 1,000 years to complete the catalog of scientific names. Of the approximately 1.9 million species now described, perhaps two-thirds are known from only one location and many from examining only one individual or a limited number of individuals, so knowledge of the genetic variation within species is even more constrained. From just a few well-studied species, it is clear that genetic variability can be substantial and that it differs in extent between species.
To assist in the daunting challenge of protecting species, a number of biologically rich but threatened regions containing high numbers of endemic species have been identified and mapped. Such “hot spots” of biodiversity have been described to assist governments and nongovernmental organizations in the development of conservation priorities.
How is biodiversity good for the economy?Learn how biodiversity is good for the economy.
The United Nations named 2010 as the International Year of Biodiversity (IYB)—a yearlong celebration intended to raise public awareness about the importance of biodiversity and to reinforce conservation efforts. Many of the conservation goals promoted by the IYB have resurfaced periodically in later United Nations awareness campaigns—such as the International Year of Forests (2011), the International Year of Soil (2015), and the International Year of SustainableTourism for Development (2017).
Our editors will review what you’ve submitted and determine whether to revise the article.
print
Print
Please select which sections you would like to print:
verifiedCite
While every effort has been made to follow citation style rules, there may be some discrepancies.
Please refer to the appropriate style manual or other sources if you have any questions.
Select Citation Style
Kent, Raymond K., Deschamps, Hubert Jules, Covell, Maureen Ann, Dresch, Jean, Southall, Aidan William. "Madagascar". Encyclopedia Britannica, 23 Apr. 2025, https://www.britannica.com/place/Madagascar. Accessed 1 May 2025.
Our editors will review what you’ve submitted and determine whether to revise the article.
print
Print
Please select which sections you would like to print:
verifiedCite
While every effort has been made to follow citation style rules, there may be some discrepancies.
Please refer to the appropriate style manual or other sources if you have any questions.
Select Citation Style
Pimm, Stuart L.. "biodiversity". Encyclopedia Britannica, 14 Apr. 2025, https://www.britannica.com/science/biodiversity. Accessed 1 May 2025.
