Budding research links climate change and earlier flowering plants

percent) bloomed earlier from 2005 to 2008 than when he recorded the same species' blooming times from 1992 to 1996. Forty-five percent of the plants bloomed at the same time, and 16 percent bloomed earlier.

"I was doing a plant survey to see how the wetlands had changed over the years, and I noticed a lot of the plants were blooming earlier than they had in the previous survey," said Conover.

The biologist pointed out that the mean annual temperature during the survey periods increased nearly 2 degrees from 53.38 degrees (11.88 C) to 55.27 degrees (12.93 C) in roughly a decade's time.

"This is a big change for such a short time period," said Conover. "There is a lot of data coming from all over the world indicating that biological communities are being impacted by warmer temperatures."

To determine the impact of these changes, Conover said scientists would need to look closely at the complete ecological picture, including the impact on insects and birds that interact with the plants.

"If the right insects aren't out at the right time, it could affect some of the cross-pollination that goes on," he said. Or it could affect certain birds that depend on the seeds from those plants. Everything is interrelated. It is hard to say what impact it will have. We could also see things like more invasive species moving in because of the warmer conditions."

Conover worked closely with UC's Steve Pelikan, a math professor, who crunched all the data from the surveys. Pelikan said he found both the number of earlier-flowering plants and the temperature change from one survey to the next to be statistically significant.

Conover's wild-plant research follows a similar pattern of findings from a recent 30-year garden-plant study in southwestern Ohio (McEwan, et al.). Pelikan points out that Conover's published research is significant because it is one of the first to highlight the earlier flowering phenomena among plants in a natural habitat as opposed to a more-controlled garden setting.

"His is one of the first papers to reach this conclusion when working with native plants in a native setting," said Pelikan.

Further substantiating the work, Conover has found that his observations also aren't unique to the Shaker Trace Wetlands. He's finding similar results as he compares data he collected from a plant survey in 2000 at Oxbow -- a wetland at the confluence of the Great Miami and Ohio Rivers that spans southeastern Indiana and southwestern Ohio -- to data from today.

He's also noticed the presence of new invasive species in the Oxbow area such as Callery pear, Japanese stiltgrass and Japanese chaff flower.

Story Source:

The above story is reprinted (with editorial adaptations by ScienceDaily staff) from materials provided by University of Cincinnati. The original article was written by John Bach.

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Research In Motion 3Q Profit Jumps 45% On Higher Revenue

11.1 million, or $1.74 a share, up from $628.4 million, or $1.10 a share, a year earlier. Revenue jumped 40% to $5.49 billion.

The company in September had forecast third-quarter, share earnings between $1.62 and $1.70 and revenue ranging from between $5.3 billion and $5.55 billion--both were estimates well above analysts' forecasts at the time.

Gross margin rose to 43.6% from 42.7%.

The company also forecast fourth-quarter earnings of $1.74 to $1.80 a share on revenue of $5.5 billion to $5.7 billion. Analysts surveyed by Thomson Reuters expect $1.61 on $5.46 billion.

RIM shares zig-zagged after hours, jumping initially before falling into the red only to shift back into positive territory. The stock was recently up 4.3% to $61.80 in after-hours Nasdaq trading.

As of Thursday's close, the stock had fallen 12% this year, but was up nearly 40% since hitting a 52-week low of $42.53 on August 31.

The recent share-price increase reflects significant hype over its upcoming tablet, the PlayBook, though that device isn't set to come to market until early next year. It wasn't immediately clear if RIM's fourth-quarter guidance includes any revenue from the Playbook.

RIM has also taken numerous steps to fend off a fierce competitive challenge from the iPhone and a slew of Android-enabled devices. For instance, the company recently revamped support for third-party application developers, overhauled its BlackBerry operating system, making it more user friendly and introduced the BlackBerry Torch, the first BlackBerry model to include a touch screen and slide-out keyboard.

RIM also unveiled the Playbook, which will include Adobe Inc.'s (ADBE) Flash, and run on a highly-touted operating system made by QNX Software Systems. RIM acquired QNX earlier this year and followed that up with the purchase of The Astonishing Tribe, or TAT, this month. TAT is a Swedish sofware company best known for designing user interfaces for mobile devices.

Still, BlackBerry's image has suffered in the past 18 months, as RIM was late to recognize the importance of third-party applications, touch-screen interfaces and the need for a snazzy operating system. This has translated into declining market share in the key North American market, though RIM continues to post strong growth internationally.

According to Gartner, RIM's share of the North American smartphone market slipped to 27.3% at the end of the calendar third quarter from 51% a year earlier. Devices running on the Android operating system surged to 39.1% from 5% during the same period, while the iPhone dipped slightly to 27.7% from 29.5%.

stuart.weinberg@dowjones.com

(Nathan Becker in New York contributed to this article.)

Copyright © 2010 Dow Jones Newswires

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Spontaneous mutations important cause of mental retardation, research finds

ScienceDaily (Dec. 7, 2010) — New research by Dutch geneticists affiliated with the Radboud University Nijmegen Medical Centre demonstrates that spontaneous mutations are an important cause of mental retardation. The majority of mental retardation is caused by spontaneous mutations in paternal sperm or maternal egg cells, the scientists say.

With this conclusion, the researchers have not only resolved an important paradox but have also caused a small revolution in the world of medical genetics. They present their work in the journal Nature Genetics.

Mental retardation is a severe disorder that affects approximately two percent of the general population. Over the last few years, several genes have been identified to cause this disorder, but these have so far only explained a limited number of cases. The main genetic cause, referred to as the 'missing heritability', still awaits discovery. But what is this missing heritability for mental retardation?

Dutch researchers affiliated with the Radboud University Nijmegen Medical Centre, under supervision of Joris Veltman and Han Brunner, show in their article in Nature Genetics that newly generated (de novo) mutations explain a large portion of mental retardation. As such, mental retardation is not transmitted from one generation to the next, but occurs through spontaneously arisen genetic changes in the egg or sperm cells of the parents; The child has a defect in one of the genes, which still shows a normal function in both parents.

Genetic difference in parents and children

The researchers read the genetic code of all 20.000 genes for 10 patients with mental retardation. A similar analysis was performed for their healthy parents. By comparing the genetic codes obtained, differences in genes between parents and child could be precisely determined.

For nine out of ten children, the researchers indeed found such changes, each time in a different gene. For three children, the change identified was irrelevant to their disorder. But more important, for the remaining six children, they found two changes that are definitely relevant to their disorder and the four other changes are most likely related to their disorder. Geneticist Joris Veltman: "Apparently, the mental retardation observed in six of these ten children can be explained by a novel genetic change, a de novo mutation. This is more than half of all - so far - unexplained mental retardation!"

Paradox resolved

In the world of medical genetics, mental retardation reflects an intriguing paradox. Individuals with mental retardation seldom have children themselves; as such, they do not pass their impairment on to the next generation. Nonetheless, the frequency of mental retardation in the general population balances and remains around two percent. How can this be possible? Then what is the cause of mental retardation? This question has never been answered to full satisfaction.

Veltman and Brunner now offer a surprising resolution for this paradox. A majority of mental retardation occurred by chance; by novel mutations in the genetic code of the children. It is expected that approximately 1,000 of all 20,000 genes can cause mental retardation. When a de novo mutation hits one of these genes, it will result in mental retardation.

Reassuring message

Parents of children with mental retardation often want to understand the cause of the mental retardation, but also want to estimate their recurrence risk for future pregnancies. Clinical geneticist Han Brunner: "In more than half of the cases we could not answer this question as we did not know the cause. With this approach, it is now possible to elucidate up to sixty percent of all currently unsolved causes. In addition, we can now determine the recurrence risk for those families in which a de novo mutation caused the mental retardation. This risk will be only marginally increased compared to the general population. For many parents this is a reassuring message which may play a role in their decision making process for additional children."

Small revolution

On average, one new mutation will appear during the process that copies all parental genes to their child. With 1,000 of all 20,000 genes potentially playing a role in mental retardation, the chance of having a child with mental retardation is relatively high. A similar scenario is likely to be true for other diseases in which a large number of genes play a role, such as schizophrenia and autism. The concept of de novo mutations might be equally important for these diseases.

These findings may cause a small revolution for genetic research, a shift in paradigm. Veltman: "So far, mental retardation was thought to be caused by an interaction of multiple genes. We describe this as complex genetics. Indeed, in the general population mental retardation can be caused by as many as thousand genes. But on an individual level, each case -- as we now found -- is caused by a mutation in a single gene. This newly generated mutation can be readily identified by reading the genetic code of the parents and their child, because there is only one distinguishing factor, which is the causative mutation. This opens a new window of opportunity to look at disease, diagnostics, therapy and prevention."

Next generation sequencing

This research has only now been made possible due to recent technological developments. Brunner: "At the beginning of this year, the department of human genetics heavily invested in state-of-art sequencing equipment. This machine does not read the genetic code of a single gene, but enables the readout of all 20,000 genes in a single experiment. This enormous acceleration of analyzing the genome, which is referred to as 'Next Generation Sequencing', has caused a revolution in genetics. With this, personal genomics will become feasible, both from a financial aspect as well as from the time span needed to complete such an experiment. Our research is a nice example of this."

Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of ScienceDaily or its staff.

Story Source:

The above story is reprinted (with editorial adaptations by ScienceDaily staff) from materials provided by Radboud University Nijmegen Medical Centre, via AlphaGalileo.

Journal Reference:

Lisenka E L M Vissers, Joep de Ligt, Christian Gilissen, Irene Janssen, Marloes Steehouwer, Petra de Vries, Bart van Lier, Peer Arts, Nienke Wieskamp, Marisol del Rosario, Bregje W M van Bon, Alexander Hoischen, Bert B A de Vries, Han G Brunner, Joris A Veltman. A de novo paradigm for mental retardation. Nature Genetics, 2010; DOI: 10.1038/ng.712

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