Some plants, such as succulents, have managed to grow very plump leaves. For that to happen, according to a new study in Current Biology, plants had to evolve 3-D arrangements of their leaf veins in order to maintain adequately efficient hydraulics for photosynthesis.
PROVIDENCE, R.I. [Brown University] — A garden variety leaf is a broad, flat structure, but if the garden happens to be somewhere arid, it probably includes succulent plants with plump leaves full of precious water. Fat leaves did not emerge in the plant world easily. A new Brown University study published in Current Biology reports that to sustain efficient photosynthesis, they required a fundamental remodeling of leaf vein structure: the addition of a third dimension. (more…)
A study of its basin paves the way for cleaner water everywhere
The Minnesota River’s usually placid surface belies its status as a river —and a watershed—in need of help.
The river is naturally prone to heavy sediment loads. It runs through rich glacial deposits, in a channel carved by a catastrophic flood at the end of the last ice age, when a large lake formed by glacial meltwater gave way.(more…)
When it comes to evolution, humans can learn a thing or two from primeval sea lampreys.
In the current issue of Nature Genetics, a team of scientists has presented an assembly of the sea lamprey genome – the first time the entire sequence has been decoded. The data is compelling as the sea lamprey is one of the few ancient, jawless species that has survived through the modern era.
The paper not only sheds light on how the venerable invasive species adapted and thrived, but it also provides many insights into the evolution of all vertebrates, species with backbones and spinal cords, which includes humans, said Weiming Li, Michigan State University fisheries and wildlife professor, who organized and coordinated the team. (more…)
Collaboration Led by Berkeley Lab Researchers Creates High-Resolution Map of Gene Regulatory Elements in the Brain
Future research into the underlying causes of neurological disorders such as autism, epilepsy and schizophrenia, should greatly benefit from a first-of-its-kind atlas of gene-enhancers in the cerebrum (telencephalon). This new atlas, developed by a team led by researchers with the U.S. Department of Energy (DOE)’s Lawrence Berkeley National Laboratory (Berkeley Lab) is a publicly accessible Web-based collection of data that identifies and locates thousands of gene-regulating elements in a region of the brain that is of critical importance for cognition, motor functions and emotion.
“Understanding how the brain develops and functions, and how it malfunctions in neurological disorders, remains one of the most daunting challenges in contemporary science,” says Axel Visel, a geneticist with Berkeley Lab’s Genomics Division. “We’ve created a genome-wide digital atlas of gene enhancers in the human brain – the switches that tell genes when and where they need to be switched on or off. This enhancer atlas will enable other scientists to study in more detail how individual genes are regulated during development of the brain, and how genetic mutations may impact human neurological disorders.” (more…)
History has long denied the political genius of the Black Panther Party. At worst, its members have been cast as unconscionable criminals. At best, such seminal figures as party founders Huey Newton and Bobby Seale and early supporter Stokely Carmichael have been portrayed as outlaw folk heroes who, propelled by the progressive winds of the late 1960s, dared to take on the establishment.
But a UCLA graduate student in sociology who worked alongside former Panthers a decade ago as a community organizer in Oakland, Calif., didn’t buy the conventional wisdom. (more…)
Future of organizational development Employee Development Roundtable topic
Remember the personnel department? It’s an old fashioned concept now with its focus on record-keeping and employee policies, evolving into “human resources management” in the latter half of the 20th century.
But the future of human resources is also changing. Panelists and attendees at the University of Delaware’s Employee Development Roundtable in December discussed how organizations will develop their employees in the future, how local and global business pressures will affect the field, how technology will change employee development and what organizational development professionals should do now to shape the future. (more…)
Technologically valuable ultrastable glasses can be produced in days or hours with properties corresponding to those that have been aged for thousands of years, computational and laboratory studies have confirmed.
Aging makes for higher quality glassy materials because they have slowly evolved toward a more stable molecular condition. This evolution can take thousands or millions of years, but manufacturers must work faster. Armed with a better understanding of how glasses age and evolve, researchers at the universities of Chicago and Wisconsin-Madison raise the possibility of designing a new class of materials at the molecular level via a vapor-deposition process. (more…)
