Breaking News: Understanding the coevolving web of life as a network - News Paper

News Saleb-,Newspapers are usually issued daily or weekly. Breaking News: Understanding the coevolving web of life as a network - News Paper, Magazine News weekly, but they also had a magazine format. Newspapers with common interests usually publish news articles and articles about national and international news as well as local news. These include news events and personalities of the political, business and finance, crime, weather, and natural hazards; health and medicine, science, and computers and technology; Sports; and entertainment, community, food and cuisine, apparel and home fashion, and the arts.

A wide range of materials have been published in newspapers. In addition to news,Breaking News: Understanding the coevolving web of life as a network - News Paper ,information and opinions expressed above, including weather forecasts; Criticism and reviews Arts (including literature, film, television, theater, art, and architecture) and local services such as a restaurant; obituaries, notices of birth and graduation announcements; Entertainment features such as crossword puzzles, horoscopes, editorial cartoons, jokes, cartoons and comics; Advice column, food, and other columns; and a list of radio and television (program schedule). In the year 2017, newspapers can also provide information about new movies and TV shows available on streaming video services such as Netflix. The newspaper has been classified ad section in which people and businesses can buy a small ad to sell goods or services; In the year 2013, a large increase in internet sites to sell goods, such as Craigslist and eBay have caused ad sales are much less classified for newspapers.Breaking News: Understanding the coevolving web of life as a network - News Paper Since 1983, it has been known mainly because of its annual report and rankings that influence in college and grad school, lies in most fields and subjects. U.s. News World Report is and academic institution is the oldest and most famous in America, [5] and covering the areas of business, law, medicine, engineering, social sciences, education and public affairs, in addition to many other areas. Print Edition] has consistently included in the list of national bestsellers, coupled with online subscriptions. Additional rankings published by U.s. News World Report and includes hospitals,Breaking News: Understanding the coevolving web of life as a network - News Paper, medical and specialty cars.
Breaking News: Understanding the coevolving web of life as a network - News Paper-News of the United States was founded in 1933 by David Lawrence (1888-1973), which also started the World Report in 1946. The two magazines are covering national and international news separately, but Lawrence combines them into news reports of U.S. in World and 1948 [1] and Later sold the magazine to its employees. Historically, this magazine tends to be a bit more conservative than the two main competitors, Time and Newsweek, and focus more on the story of economic, health, and education. It's also distancing news, entertainment and sports celebrities. [2] an important milestone in the history of the beginning of the magazine is including the introduction of the "Washington Whispers" column in 1934 and the column "News You Can Use" in 1952. [3] [4] in 1958, the circulation of the weekly magazine passed one million and two million in 1973. (wikipedia) Breaking News: Understanding the coevolving web of life as a network - News Paper


Coevolution, which occurs when species interact and adapt to each other, is often studied in the context of pair-wise interactions between mutually beneficial symbiotic partners. But many species have mutualistic interactions with multiple partners, leading to complex networks of interacting species.

Understanding the coevolving web of life as a network
Toucans, such as this green-billed toucan, are major dispersers of seeds of some tropical forest trees, 
including palms [Credit: John Thompson]
In a paper published in the journal Nature, a group of ecologists and evolutionary biologists from five universities has attempted to understand how species coevolve within large webs of mutualistic species. The study yielded surprising findings about the relative importance of direct and indirect effects within such networks.

"When pair-wise interactions are embedded within a larger web of interactions, what happens as the effects diffuse through the network? It's a really difficult problem to solve, and not just in biology," said coauthor John Thompson, distinguished professor of ecology and evolutionary biology at UC Santa Cruz.

Webs and networks

The power of webs and networks is familiar in this internet age. The internet and its users form webs, as do roads and cars, businesses and cities, and the neurons within our bodies. Earth's millions of species also form webs as species prey on each other, parasitize each other, compete for food, and form mutually beneficial associations.

Natural selection favors predators that are better at capturing prey, prey that have better defenses, and individuals that compete better against other species. Among mutualistic species, natural selection favors, for example, plants that are better at attracting pollinating insects and flower-visiting insects that are better at extracting pollen and nectar from flowers.

Understanding the coevolving web of life as a network
Webs of mutualistic species often expand as new species are introduced. Here a female Anna's hummingbird 
visits a Mexican bush sage in a Californian garden [Credit: John Thompson]
Just describing the full pattern of connections within these webs is a daunting task. In the new study, the authors began with a set of 75 webs of interacting species that other researchers had previously described from a wide range of terrestrial and marine environments. These webs included, for example, plants and pollinators, plants and fruit-eating birds and mammals, and anemones and anemone fish.

Each web had, at one extreme, species that interact with only one other species and, at the other extreme, species that interact with many other species. When drawn as a network, each species is a node and each interaction between species is a line between two nodes. Each line is therefore a direct interaction between two species.

Mathematical model

Using these webs as a starting point, the authors developed a mathematical model that allowed them to explore for the first time how coevolution might shape the traits of species throughout complex webs of many interacting species. They wanted to understand how coevolution shapes species that interact both directly and indirectly. If two species interact and coevolve with each other, then their coevolution, in turn, could indirectly affect the future evolution of other species within the web. The authors studied the relative effects of direct and indirect coevolution on the evolution of traits within webs of different shapes.

Their analyses suggested two counterintuitive results. First, the stronger the importance of coevolutionary selection between partners, the greater the importance of indirect effects on overall evolution throughout the network. Second, in mutualisms involving multiple partners, the most specialized species -- those species with the fewest direct partners -- are more influenced by indirect effects than by their direct partners.

These two results, together with other results reported in the paper, have many implications for the understanding of evolution and coevolution within webs of interacting species. Among the most important are two conclusions that link evolution, coevolution, and the rate of environmental change.

With slow environmental change, the indirect effects of species on the evolution of other species may help mutualistic interactions persist over long periods of time. In contrast, rapid environmental change may slow the overall rate of evolution driven by direct interactions within large networks, making each species more vulnerable to extinction. With rapid environmental change, then, environments may change faster than species can adapt within large mutualistic networks.

"The indirect effects serve to buffer the system under slow environmental change, keeping it stable. With the kinds of rapid environmental changes we're seeing now, however, this buffering effect can actually prevent species from adapting fast enough," Thompson said.

The problem of direct and indirect effects within networks is not unique to biology. How to study indirect effects within webs has troubled scientists in physics, engineering, computer science, and other disciplines. The modeling framework developed by the authors is applicable to many types of networks.

Author: Tim Stephens | Source: University of California - Santa Cruz [October 18, 2017]

from The Archaeology News Network http://ift.tt/2gWJUX7
Breaking News: Understanding the coevolving web of life as a network - News Paper

Title :Breaking News: Understanding the coevolving web of life as a network - News Paper
Source :Breaking News: Understanding the coevolving web of life as a network - News Paper

News Info:


Share on Facebook
Share on Twitter
Share on Google+

Related : Breaking News: Understanding the coevolving web of life as a network - News Paper

0 komentar:

Post a Comment