Recent Stories
- Geography student sets up film company
- Eco-innovation businesses invited to attend pioneering project launch
- First Science and Technology Business Partnerships and Enterprise Annual Report 2011-2012 available to download now
- Lancaster University Coffeemat Challenge won by Science and Technology student Seb
- Competition finalists to present at the House of Commons
- Free talks from Lancaster University statisticians
- Doctoral Scholarships in Computer Science and Communication Systems
- Soil expert seeks effective management of revolutionary land use changes
- International Collaboration Prize for First Unified EU-Russia Flight Analysis Project
- 'Making Sense of Microposts' Workshop Accepted for WWW2013
Retreating Glaciers Reveal Hidden Life
Story supplied by LU Press Office
Ödenwinkelkees glacier in the Austrian Alps
Lancaster University ecologists investigating life on newly exposed land in front of a retreating glacier have made a strange discovery that turns existing understanding on its head.
Until now it was thought that the first life to inhabit the barren, newly exposed land would be algae, lichens, mosses and other plants which get their energy from sunlight. When these plants die, they provide energy for microbes like bacteria and fungi that decompose this dead plant material making nutrients available for further plant growth.
But new research, published in the Royal Society journal Biology Letters and featured in the New York Times, has discovered a rich diversity of microbes living on newly exposed land which appear to support themselves by feeding on 7000 year-old carbon, which pre-dates the glacier.
Professor Richard Bardgett and Dr Ian Hartley from the department of Biological Sciences were part of a team of international researchers that studied newly formed soils at the mouth of the Ödenwinkelkees glacier in the Austrian Alps, which has been retreating by an average of 35 feet per year since 1850.
Professor Bardgett said: "These initial microbial communities used ancient and recalcitrant carbon as an energy source, along with modern carbon. Only after more than 50 years of organic matter accumulation did the soil microbial community change to one supported primarily by modern carbon, most likely from recent plant production.
"This is surprising because it points to a stage of succession before plants colonise newly exposed land."
The work, which was funded by NERC, was part of a collaborative study with scientists from the University of Vienna, Austria, Germany and the UK.
Mon 03 September 2007
Associated Links
- Biological Sciences - Department of Biological Sciences home page
Latest News
Geography student sets up film company
It is well known that Geography graduates are highly employable and use their degrees in many different ways. One of the more unusual we have heard about recently is Lancaster geographer Greg Tomaszewicz who has set up his own Video Production Company - Lanor Productions.
Story supplied by LU Press Office
Fri 22 February 2013
Eco-innovation businesses invited to attend pioneering project launch
Ambitious North West SMEs keen to drive forward eco-innovative ideas and products are invited to a major event in Manchester on March 4.
Story supplied by LU Press Office
Thu 21 February 2013
First Science and Technology Business Partnerships and Enterprise Annual Report 2011-2012 available to download now
2011-2012 saw the development of a new theme-based strategy for Business Partnerships and Enterprise in Science and Technology. The seven interdisciplinary themes are: Advanced Manufacturing, Energy, Environment, Health and Human Development, Information and Communication Technologies, Quantum Technology and Security. Each theme has dedicated professional staff to work with businesses and source the expertise they need.
Tue 19 February 2013
Lancaster University Coffeemat Challenge won by Science and Technology student Seb
The concept of a new university website, complete with mobile application, to capture the campus social scene at a glance, earned an enterprising student an iPad.
Story supplied by LU Press Office
Tue 19 February 2013