NSF : Discovery .- Scientists track nighttime bird migration using weather radar.- Los científicos a rastrear la migración de aves durante la noche usando el radar meteorológico

Hola amigos: A VUELO DE UN QUINDE EL BLOG., Utilizando técnicas desarrolladas recientemente para el análisis de los datos de radar meteorológico Doppler, los investigadores analizaron los impedimentos - vientos cruzados y océanos - frente a la migración de las aves nocturnas, en el este de América del Norte.
Los migrantes la deriva hacia los lados en los vientos cruzados, los científicos descubrieron, pero compensados por que la deriva cerca de la costa atlántica.
Capacidad de las aves migratorias costeras 'para compensar la deriva del viento aumentó durante la noche, pero no se observaron cambios fuertes en zonas de interior. El comportamiento sugiere que las aves se adaptan en vuelo y compensar la deriva del viento cerca de las zonas costeras.

More information...........

http://www.nsf.gov/discoveries/disc_summ.jsp?cntn_id=137510&WT.mc_id=USNSF_51&WT.mc_ev=click

Weather radar offers new view of nocturnal bird flight

Researchers studied sandhill cranes, among the largest migrating birds in North America. Credit and Larger Version

February 16, 2016

Using recently developed techniques for analyzing Doppler weather radar data, researchers looked at the impediments -- crosswinds and oceans -- facing nighttime-migrating birds in eastern North America.

The migrants drifted sideways on crosswinds, the scientists found, but compensated for that drift near the Atlantic coast.

Coastal migrating birds' ability to compensate for wind drift increased through the night, but no strong changes were observed at inland sites. The behavior suggests that birds adapt in flight and compensate for wind drift near coastal areas.

Weather radar tracks bird migration

"The research has taken an innovative approach in showing how existing weather radar systems can be used to investigate the behavior of migrating birds," said Liz Blood, program director in the National Science Foundation (NSF) Division of Environmental Biology, which funded the research.

Blood said the ability to use the U.S. weather radar network to track migrating birds "opens new opportunities to study -- in real-time -- billions of birds during their migrations."

Kyle Horton and Phillip Stepanian of the University of Oklahoma developed an application for observing migrating birds during nighttime flight.

Jeffrey Kelly of the Oklahoma Biological Survey and the University of Oklahoma and Cornell University's Benjamin Van Doren, Wesley Hochachka and Andrew Farnsworth were also involved in the research.

The results are published in the current issue of the journal Scientific Reports.

"Until now, no studies have documented this large-scale phenomenon using weather radars," Horton said. "Our analyses are based on detection of millions of migrating birds, as many as five million on a single night."

The researchers looked at strategies of nocturnally migrating birds using Doppler polarimetric radars at three coastal and three inland sites in the eastern U.S. during the autumns of 2013 and 2014.

Radars collected data every five to 10 minutes, yielding approximately 1.6 million samples from 55 nights.

 

Birds drift sideways, then compensate

The results show a greater propensity of birds to drift sideways at inland sites; birds flying near the Atlantic coast increasingly oriented and tracked westward away from the coast.

The prediction that migrating birds compensate more for drift when encountering a migration barrier is consistent with the results, the scientists said.

The research indicates that at a regional scale, in a regularly and heavily traveled airspace of the bird migration system, birds routinely fly in crosswind conditions and have managed to compensate for such conditions, according to Kelly.

Migrants likely know their location relative to migration barriers while in flight, he said, and actively assess the degree to which they need to compensate for wind.

"The increasing automation of radar analysis will enable further exploration of U.S. weather radar data to achieve real-time monitoring of billions of birds during their migrations," Kelly said.

The U.S. weather radar network offers the largest sensor array worldwide for monitoring animal migrations, the scientists said, including birds, bats and insects.

--	Cheryl Dybas, NSF (703) 292-7734 cdybas@nsf.gov
--	Jana Smith, University of Oklahoma (405) 325-1322 jana.smith@ou.edu

Investigators Eli Bridge
Le Gruenwald
Jeffrey Kelly
Phillip Chilson
Valliappa Lakshmanan
Related Institutions/Organizations University of Oklahoma Norman Campus
Related Programs MacroSystems Biology and Early NEON Science
Related Awards #1340921 EAGER: Advancing Biological Interpretations of Radar Data
Total Grants $301,641

A ground-based weather radar station at the University of Oklahoma.
Credit and Larger Version

Biologist Kyle Horton records bird songs as part of the study of migration.
Credit and Larger Version

The white-throated sparrow is one of many species of nighttime migrating birds.
Credit and Larger Version

Snow geese, like other waterfowl, are fast-flying migrants.
Credit and Larger Version

The Atlantic Flyway is a major bird migration route.
Credit and Larger Versión
The National Science Foundation (NSF)
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
Inscríbete en el Foro del blog y participa : A Vuelo De Un Quinde - El Foro!

NSF : Discovery Feeding birds in your local park? If they're white ibises in Florida, think twice .- La alimentación de las aves descubrimiento en su parque local? Si son los ibis blancos en Florida, piense dos veces

Hola amigos: A VUELO DE UN QUINDE EL BLOG., En el folklore nativo americano, el ibis blanco era el último animal a buscar refugio antes de un huracán, y los primeros en salir después de la tormenta. Por consiguiente, el ibis simboliza el peligro de una tormenta que se aproxima, y también la seguridad después de la vorágine pasado.
Pero ahora ibis pueden más a menudo señal de peligro - al menos en los parques públicos.
Las personas que alimentan los ibis blancos en esos lugares están recurriendo aves silvestres en los más dóciles, dicen los científicos. Los investigadores creen que la práctica puede propagar la enfermedad entre los ibis, y entre ibis y los seres humanos.
Los biólogos están estudiando como parte de la lactancia está cambiando la salud, la ecología y el comportamiento de los ibis blancos en el sur de Florida, donde el desarrollo está allanando sobre los hábitats de humedales naturales de las aves.

More information..........

http://www.nsf.gov/discoveries/disc_summ.jsp?cntn_id=137557&WT.mc_id=USNSF_51&WT.mc_ev=click

White ibises may transmit diseases like salmonelosis
ibis blancos pueden transmitir enfermedades como la salmonella

White ibises congregate in flocks in urban parks, where they're inappropriately fed by people. Credit and Larger Version

February 3, 2016

The following is part 17 in a series on the NSF-NIH-USDA Ecology and Evolution of Infectious Diseases (EEID) Program. See parts: one, two, three, four, five, six, seven, eight, nine, 10, 11, 12, 13, 14, 15 and16.

In Native American folklore, the white ibis was the last animal to seek shelter before a hurricane, and the first to emerge after the storm. The ibis therefore symbolized the danger of an approaching storm, and also the safety after the maelstrom passed.

But now ibises may more often signal danger -- at least in public parks.

People feeding white ibises in such places are turning wild birds into tame ones, scientists say. The researchers believe the practice may spread disease among ibises, and between ibises and humans.

The biologists are studying how hand-feeding is changing the health, ecology and behavior of white ibises in south Florida, where development is paving over the birds' natural wetland habitats.

 

Shift in ibis behavior

 

White ibises usually prey on aquatic animals such as fish, snails and crayfish, but they're becoming accustomed to bread, fast food and popcorn from people, says Sonia Hernandez, a veterinarian and ecologist at the University of Georgia (UGA).

The shift in behavior could have serious consequences not just for the ibises, says Hernandez, but also for people. It may allow pathogens transmitted through feces, like salmonella, to build up and pose risks for both birds and humans.

"We found that the strains of salmonella bacteria white ibises are infected with are the same ones people get sick from, especially in Florida," Hernandez says. "Because white ibises fly from urban to natural environments fairly easily, they could move these strains across large distances."

 

White ibis infectious disease ecology

 

Hernandez is working with other UGA researchers on a white ibis project funded by the National Science Foundation (NSF) Ecology and Evolution of Infectious Diseases (EEID) Program. Additional UGA researchers involved are Jeff Hepinstall-Cymerman, Sonia Altizer, Richard Hall and Kristen Navara.

The findings will ultimately apply to other wildlife species that live alongside humans in public parks and similar landscapes, the scientists say.

"Our interactions with wildlife can enliven our cities, but they also carry the potential for increasing disease risk to wildlife and to us," says Sam Scheiner, EEID program director at NSF. 

"This study will provide important information on the consequences of our interactions with ibises -- and serve as a model for managing urban wildlife," says Scheiner. "The research is the most comprehensive to date on how food resources in human-dominated habitats influence wildlife responses to infectious diseases."

 

Global urbanization: the risks it carries

 

Urbanization is expanding across the globe, with two-thirds of the world's people expected to live in cities within the next 40 years.

Development is causing many wildlife species to decline. Some species, however, are capitalizing on new urban resources, especially food provided by humans.

Shifts in wildlife ecology in response to intentional or accidental feeding by people can alter animals' susceptibility to infectious diseases, says Hernandez.

"Human-altered diets might change the makeup of these species' gut bacteria and increase their susceptibility to infection," adds Scheiner.

 

Easier in a park

 

In their NSF EEID project, the researchers are focusing on white ibises in Palm Beach County, Florida, where Hernandez has monitored the birds since 2010.

White ibises live along the Atlantic coast as far north as North Carolina and on the Gulf Coast west to Louisiana. The birds are usually nomadic and spend much of their days searching for food.

Why expend energy searching for food when humans in parks will provide it? Because it's an easy meal. "If white ibises have a reliable food source, they often form large flocks that stay year-round in one place," says Altizer.

Increasing numbers of ibises in urban parks facilitate contact with animals the ibises wouldn't normally encounter, like mallard ducks, gulls and other city birds that are disease reservoirs.

 

Urban vs. natural áreas

 

The researchers are comparing six urban and six natural areas in Palm Beach County. They're placing identification bands on captured birds before releasing them, tracking movements using GPS devices, recording basic data about each ibis marked, taking blood samples and collecting feces for salmonella testing.

The scientists are focusing on salmonella because it causes one of the most significant diarrheal diseases in people and results in mortality in young wading birds such as ibises.

"Urban ibises have extremely high levels of stress hormones and weak immune systems compared with other birds," Navara says. "Ultimately, this could affect how pathogens, including salmonella, are transmitted among individual ibises and between the birds and humans."

To date, the biologists have found that GPS-tracked ibises at urban sites move very little compared to those at natural sites. The prevalence of salmonella in ibises at urban sites, as well as salmonella in city water and soil, is higher than that in ibises and in the environment at natural sites, says Hernandez.

Soon the scientists will have further insights to offer. Their next field work is planned for Feb. 10 to March 10, 2016. They will place GPS tracking devices on as many as 50 ibises in urban parks and 50 in natural areas.

The researchers hope the project will raise awareness about how "helping" wildlife species by feeding them may have unintended consequences. The findings will also lead to improved ways people and wildlife can share habitats in cities.

The result? Less danger in human-bird disease connections -- and more optimism for our co-existence with wild species.

--	Cheryl Dybas, NSF (703) 292-7734  cdybas@nsf.gov
--	Sandi Martin, UGA (706) 542-2079  smartin@warnell.uga.edu

Investigators Richard Hall
Sonia Altizer
Kristen Navara
Sonia Hernandez
Jeffrey Hepinstall-Cymerman

Related Institutions/Organizations University of Georgia Research Foundation Inc
Related Programs Ecology and Evolution of Infectious Diseases
Related Awards #1518611 Consequences of Anthropogenic Resources for the Cross-Scale Dynamics of an Enteric Pathogen in an Avian Host
Total Grants $1,222,344
Related WebsitesNSF Special Report: Ecology and Evolution of Infectious Diseases: http://www.nsf.gov/news/special_reports/ecoinf/
NSF News: To slow the spread of infectious diseases, NSF, NIH, USDA support new research: http://www.nsf.gov/news/news_summ.jsp?cntn_id=136044&org=NSF

White ibises with spoonbills, wood storks and other wading birds in Florida's Fisheating Creek.
Credit and Larger Version

White ibises are abundant in Florida; the species has become synonymous with the Everglades.
Credit and Larger Version

Biologists secure a backpack-style harness for a GPS transmitter on a white ibis.
Credit and Larger Version

Researchers release a white ibis outfitted with a GPS transmitter as part of the NSF EEID project.
Credit and Larger Version

Scientists take blood from an ibis for stress hormones, immune function, antibodies to pathogens.
Credit and Larger Versión
the National Science Foundation (NSF)
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabac@hotmail.com
ayabaca@yahoo.com
Inscríbete en el Foro del blog y participa : A Vuelo De Un Quinde - El Foro!

nsf.gov - National Science Foundation - 'Big bang' of bird evolution mapped by international research team .- Big Bang' de evolución de las aves asignada por el equipo de investigación internacional

Hola amigos : A VUELO DE UN QUINDE EL BLOG., hemos recibido la información de la Fundación Nacional de Ciencias de Los Estados Unidos; sobre la investigación de un equipo internacional sobre la evolución de las aves, que ellos denominan "The Big Bang" de las aves.

The National Science Foundation (NSF), nos dice "..........Los genomas de las aves modernas cuentan una historia: aladas gobernantes de hoy de los cielos surgieron y evolucionaron después de la extinción masiva que acabó con los dinosaurios y casi todo lo demás hace 66 millones años.......

Esa historia está saliendo a la luz, gracias a una colaboración internacional que ha estado en marcha desde hace cuatro años........

Los primeros resultados del Consorcio de la Phylogenomics aviar se están reportando casi simultáneamente en 23 documentos - ocho papeles en un número especial de esta semana de la Revista  Ciencia, y 15 más en Genome Biology, GigaScience y otras revistas.......

Los resultados son financiados en parte por la National Science Foundation (NSF)......

Los científicos ya sabían que las aves que sobrevivieron a la extinción en masa experimentaron un rápido estallido de la evolución.

Pero el árbol genealógico de las aves modernas tenía   a los biólogos confundidos durante siglos, y los detalles moleculares de cómo llegaron las aves en la espectacular biodiversidad de más de 10.000 especies fue apenas conocidos................

 

¿Cómo los pájaros vuelven tan diversos?

Para resolver estas cuestiones fundamentales, un consorcio liderado por Guojie Zhang del Banco Genético Nacional a BGI en China y la Universidad de Copenhague; neurocientífico Erich Jarvis, de la Universidad de Duke y del Instituto Médico Howard Hughes; y M. Thomas P. Gilbert del Museo de Historia Natural de Dinamarca ha secuenciado, montado y comparado los genomas completos de 48 especies de aves......

Los invito a leer con más detalles la versión en inglés abajo......

Genes reveal histories of bird origins, feathers, flight and song

Peregrine falcons are more closely related to parrots and songbirds than to hawks, eagles, or owls. Credit and Larger Version

December 11, 2014

The genomes of modern birds tell a story: Today's winged rulers of the skies emerged and evolved after the mass extinction that wiped out dinosaurs and almost everything else 66 million years ago.

That story is now coming to light, thanks to an international collaboration that has been underway for four years.

The first findings of the Avian Phylogenomics Consortium are being reported nearly simultaneously in 23 papers--eight papers in a special issue this week of Science, and 15 more in Genome Biology, GigaScience and other journals.

The results are funded in part by the National Science Foundation (NSF).

Scientists already knew that the birds that survived the mass extinction experienced a rapid burst of evolution.

But the family tree of modern birds has confused biologists for centuries, and the molecular details of how birds arrived at the spectacular biodiversity of more than 10,000 species was barely known.

 

How did birds become so diverse?

 

To resolve these fundamental questions, a consortium led by Guojie Zhang of the National Genebank at BGI in China and the University of Copenhagen; neuroscientist Erich Jarvis of Duke University and the Howard Hughes Medical Institute; and M. Thomas P. Gilbert of the Natural History Museum of Denmark has sequenced, assembled and compared the full genomes of 48 bird species.

The species include the crow, duck, falcon, parakeet, crane, ibis, woodpecker, eagle and others, representing all major branches of modern birds.

"BGI's strong support and four years of hard work by the entire community have enabled us to answer numerous fundamental questions on an unprecedented scale," said Zhang.

"This is the largest whole genomic study across a single vertebrate class to date. The success of this project can only be achieved with the excellent collaboration of all the consortium members."

Added Gilbert, "Although an increasing number of vertebrate genomes are being released, to date no single study has deliberately targeted the full diversity of any major vertebrate group.

"This is what our consortium set out to do. Only with this scale of sampling can scientists truly begin to fully explore the genomic diversity within a full vertebrate class."

"This is an exciting moment," said Jarvis. "Lots of fundamental questions now can be resolved with more genomic data from a broader sampling. I got into this project because of my interest in birds as a model for vocal learning and speech production in humans, and it has opened up some amazing new vistas on brain evolution."

This first round of analyses suggests some remarkable new ideas about bird evolution.

The first flagship paper published in Science presents a well-resolved new family tree for birds, based on whole-genome data.

The second flagship paper describes the big picture of genome evolution in birds.

Six other papers in the special issue of Science report how vocal learning may have independently evolved in a few bird groups and in the human brain's speech regions; how the sex chromosomes of birds came to be; how birds lost their teeth; how crocodile genomes evolved; and ways in which singing behavior regulates genes in the brain.

 

New ideas on bird evolution

 

"This project represents the biggest step forward yet in our understanding of how bird diversity is organized and in time and space," said paper co-author Scott Edwards, on leave from Harvard University and currently Director of NSF's Division of Biological Infrastructure.

"Because this information is so fundamental to our understanding of biodiversity, it will help everyone--from birdwatchers to artists to museum curators--better organize knowledge of bird diversity."

The new bird tree will change the way we think about bird diversity, said Edwards. "The fact that many birds associated with water--loons, herons, penguins, petrels and pelicans--are closely related suggests that adaptations to lakes or seas arose less frequently than we thought."

Added paper co-author David Mindell, an evolutionary biologist and program director in NSF's Division of Environmental Biology, "We found strong support for close relationships that might be surprising to many observers.

"Grebes are closely related to flamingos, but not closely related to ducks; falcons are closely related to songbirds and parrots but not closely related to hawks; and swifts are closely related to hummingbirds and not closely related to swallows."

Genome-scale datasets allowed scientists to "track the sequence of divergence events and their timing with greater precision than previously possible," said Mindell.

"Most major types of extant birds arose during a 5-10 million year interval at the end of the Cretaceous period and the extinction of non-avian dinosaurs about 66 million years ago."

 

It takes a consortium...of 200 scientists, 80 institutions, 20 countries

 

The Avian Phylogenomics Consortium has so far involved more than 200 scientists from 80 institutions in 20 countries, including the BGI in China, the University of Copenhagen, Duke University, the University of Texas at Austin, the Smithsonian Institution, the Chinese Academy of Sciences, Louisiana State University and others.

Previous attempts to reconstruct the avian family tree using partial DNA sequencing or anatomical and behavioral traits have met with contradiction and confusion.

Because modern birds split into species early and in such quick succession, they did not evolve enough distinct genetic differences at the genomic level to clearly determine their early branching order, the researchers said.

To resolve the timing and relationships of modern birds, consortium scientists used whole-genome DNA sequences to infer the bird species tree.

"In the past, people have been using 10 to 20 genes to try to infer the species relationships," Jarvis said.

"What we've learned from doing this whole-genome approach is that we can infer a somewhat different phylogeny [family tree] than what has been proposed in the past.

"We've figured out that protein-coding genes tell the wrong story for inferring the species tree. You need non-coding sequences, including the intergenic regions. The protein-coding sequences, however, tell an interesting story of proteome-wide convergence among species with similar life histories."

 

Where did all the birds come from?

 

This new tree resolves the early branches of Neoaves (new birds) and supports conclusions about relationships that have been long-debated.

For example, the findings support three independent origins of waterbirds.

They also indicate that the common ancestor of core landbirds, which include songbirds, parrots, woodpeckers, owls, eagles and falcons, was an apex predator, which also gave rise to the giant terror birds that once roamed the Americas.

The whole-genome analysis dates the evolutionary expansion of Neoaves to the time of the mass extinction event 66 million years ago.

This contradicts the idea that Neoaves blossomed 10 to 80 million years earlier, as some recent studies have suggested.

Based on this new genomic data, only a few bird lineages survived the mass extinction.

They gave rise to the more than 10,000 Neoaves species that comprise 95 percent of all bird species living with us today.

The freed-up ecological niches caused by the extinction event likely allowed rapid species radiation of birds in less than 15 million years, which explains much of modern bird biodiversity.

 

For answers, new computational tools needed

 

Increasingly sophisticated and more affordable genomic sequencing technologies, and the advent of computational tools for reconstructing and comparing whole genomes, have allowed the consortium to resolve these controversies with better clarity than ever before, the researchers said.

With about 14,000 genes per species, the size of the datasets and the complexity of analyzing them required new approaches to computing evolutionary family trees.

These were developed by computer scientists Tandy Warnow at the University of Illinois at Urbana-Champaign, funded by NSF, Siavash Mirarab of the University of Texas at Austin, and Alexis Stamatakis at the Heidelburg Institute for Theoretical Studies.

Their algorithms required the use of parallel processing supercomputers at the Munich Supercomputing Center, the Texas Advanced Computing Center, and the San Diego Supercomputing Center.

"The computational challenges in estimating the avian species tree used around 300 years of CPU time, and some analyses required supercomputers with a terabyte of memory," Warnow said.

The bird project also had support from the Genome 10K Consortium of Scientists (G10K), an international science community working toward rapidly assessing genome sequences for 10,000 vertebrate species.

"The Avian Genomics Consortium has accomplished the most ambitious and successful project that the G10K Project has joined or endorsed," said G10K co-leader Stephen O'Brien, who co-authored a commentary on the bird sequencing project in GigaScience.

-NSF-

Media Contacts Cheryl Dybas, NSF, (703) 292-7734,

 cdybas@nsf.gov
Karl Bates, Duke University, (919) 681-8054,

 karl.bates@duke.edu

The National Science Foundation (NSF) is an independent federal agency that supports fundamental research and education across all fields of science and engineering. In fiscal year (FY) 2014, its budget is $7.2 billion. NSF funds reach all 50 states through grants to nearly 2,000 colleges, universities and other institutions. Each year, NSF receives about 50,000 competitive requests for funding, and makes about 11,500 new funding awards. NSF also awards about $593 million in professional and service contracts yearly.

 Get News Updates by Email 
Useful NSF Web Sites:
NSF Home Page: http://www.nsf.gov
NSF News: http://www.nsf.gov/news/
For the News Media: http://www.nsf.gov/news/newsroom.jsp
Science and Engineering Statistics: http://www.nsf.gov/statistics/

View Video
Learn more about relationships among birds.
Credit and Larger Version

These rainbow lorikeets are representative of parrots.
Credit and Larger Version

About 70 million years ago, Columbea, which includes the crowned pigeon, diverged from Passerea.
Credit and Larger Version

The group Columbea includes the subdesert mesite.
Credit and Larger Version

Double-banded sandgrouse are also members of Columbea.
Credit and Larger Version

The researchers' work is described in the Dec. 12, 2014, issue of Science.
Credit and Larger Versión
The National Science Foundation (NSF)
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@yahoo.com
ayabaca@hotmail.com
Inscríbete en el Foro del blog y participa : A Vuelo De Un Quinde - El Foro!