Tag Archives: Science

April 7, 2011, WASHINGTON, (Coal Geology) – Concentrated waste plumes from fish farms could travel significant distances to reach coastlines, according to a study to be published in an upcoming issue of the journal Environmental Fluid Mechanics, available online now. Roz Naylor, Oliver Fringer and Jeffrey Koseff of the Woods Institute for the Environment at Stanford University found that relatively high concentrations of dissolved waste from fish pens do not consistently dilute immediately.

The paper is the first detailed look at how ‘real world’ variables, such as tides, currents, the earth’s rotation and the physical structure of the pens themselves, influence the flow of waste from fish farms. The research, which was funded by the Lenfest Ocean Program, can serve as an important tool for determining the impacts of aquaculture discharge on waterways and surrounding shorelines.

“This study suggests that we should not simply assume ‘dilution is the solution’ for aquaculture pollution,” said Koseff. “We discovered that the natural environment around fish pens can dramatically affect how far waste plumes travel from the source.”

Dissolved substances from feces, undigested food and other forms of discharge amass near fish pens. In multiple modeling scenarios in which these factors were varied to study how each one affected the behavior of such pollution, effluent was characterized by “plumes” of highly concentrated waste that held together for great distances from the source.

The findings suggest that regulators need to consider the full range of possible influences on the movement of pollution plumes — and accurately identify the dominant factors — when designing water quality regulations for and monitoring waste from aquaculture.

“Our approach to aquaculture is at an important juncture right now,” said Naylor, referring to the fact that the National Oceanic and Atmospheric Administration is inviting public comments through April 11 on its draft national aquaculture policy, and the state of California is implementing new aquaculture regulations.

“As the aquaculture industry grows, so will the number of pens that create pollution,” she added. “The models that we developed for this study can help regulators determine how waste from proposed fish farms might impact the waterways and coastlines both near and far from the pens.”

To read the full study from Environmental Fluid Mechanics, visit: http://tinyurl.com/6cv5s37.

An animated video of aquaculture pollution plumes can be found at http://tinyurl.com/6fhjoay.

A fact sheet on this study can be viewed at www.lenfestocean.org.

The Lenfest Ocean Program supports scientific research aimed at forging solutions to the challenges facing the global marine environment. The program was established in 2004 by the Lenfest Foundation and is managed by the Pew Environment Group.

Contact: Jo Knight, Lenfest Ocean Program
202.552.2070, jknight@pewtrusts.org

SOURCE Lenfest Ocean Program

Web Site: http://www.lenfestocean.org

February 28, 2011, KREMS, Austria, (Coal Geology): Nanotechnology is one of the key technologies of the 21st century. It is already of immense significance in medicine as well as industry. Together with the Vienna University of Technology and the University of Natural Resources and Applied Life Sciences Vienna, Danube University Krems has developed a postgraduate Master’s program in nanobiosciences and nanomedicine which imparts interdisciplinary and practice-oriented knowledge in this sub-speciality. The course will start in the autumn of 2011.

Three universities are contributing their specialised knowledge to the outstanding and modular organized part-time “MSc NanoBiosciences & NanoMedicine”. Danube University’s networking with the Vienna University of Technology and the University of Natural Resources and Applied Life Sciences Vienna has made it possible to develop a unique curriculum. The Master’s programme will address interdisciplinary requirements and opportunities in the field of nanotechnology. “Nanosciences possess an enormous potential as regards medicine, the economy and society at large. We want to prepare experts for their forthcoming tasks by providing an integrative concept of teaching and research, at the same time promoting the creation of innovative jobs,” says one of the co-founders, Univ.-Prof. Dr. Dieter Falkenhagen of Danube University Krems.

Curriculum and Target group

In addition to imparting basic knowledge in the fields of biophysics, biochemistry, genetics, microbiology and molecular biology, the course will encompass revolutionary approaches in tumour therapy, tissue and organ substitution, drug delivery systems, the biotolerability of materials, sensor technology and the use of nanoanalytical methods. Also the risks of nanotechnology will be discussed and reviewed critically. This six-semester Master’s program addresses executives, researchers, developers and decision-makers in the fields of natural and engineering sciences, particularly biology, the pharmaceutical industry, and medicine.

For more information click: http://www.nanobiomed.at

Contact:

Sabine Siebenhandl
Danube University Krems
Tel.:+43(0)2732/893-2635
sabine.siebenhandl@donau-uni.ac.at

http://www.donau-uni.ac.at

Source: Danube University Krems

Contact: Sabine Siebenhandl, Danube University Krems, Tel.:+43(0)2732/893-2635, sabine.siebenhandl@donau-uni.ac.at