Please follow the link below for more details about the London Freshwater Group meeting, March 18th 2016. A programme packed with fab freshwater talks, including one about Lake BESS by Ambroise Baker.
And a link to the Group’s website.
Lake BESS research on the importance of water connectivity for healthy shallow lakes in the Upper Lough Erne, Northern Ireland and in the Broads, England, was presented to the Broads stakeholders yesterday. The event hosted by the Broads Authority.
This was an opportunity to discuss how our research will be translated into actions in the Broads where multiple major restoration projects are happening.
Carl Sayer gave an inspirational talk comparing the lake ecology and aquatic vegetation of the Upper Lough Erne region and The Broads.
We are inviting any interested Broads stakeholder to take part to our workshop on Lake Connectivity, Biodiversity and Ecosystem Services in the Broads, England.
At this occasion, we would like to share the findings of our Lake BESS research project and we will have a special focus on the Broads. We are keen to share our work with local stakeholders working on and around lakes in the area so our research can be useful to anyone concerned.
Please get in touch for further details and to register – go to the bottom of this page and send us a message or ambroise.baker [at] ucl.ac.uk
We are organising two events in Northern Ireland to share our results with local stakeholders.
For both events there will be a presentation of our results and plenty of time for Q&As and discussion.
We would like to share our research findings with local stakeholders working on and around Upper Lough Erne’s satellite lakes so our research can be useful to those most concerned.
Please let us know if you would like to come by email: ambroise.baker [ at] ucl.ac.uk or with a message at the bottom of this page; and do not hesitate to forward this invitation to anyone you think could be interested.
The UK and Ireland Lakes Network meeting was taking place in Abergavenny, South Wales, yesterday and the day before. This was a great opportunity for Lake BESS to meet other people working with lakes, hear about their activities and introduce our research.
In addition to many inspirational talks, we got very insightful feedback regarding our research project, following Ambroise Baker’s presentation. Thank you to Catherine Duigan from Natural Resources Wales for sharing this picture tweeted during the conference.
The eutrophication (or excessive enrichment by nutrients as a result of human activities) of lowland lakes is a widespread problem globally but is particularly serious in densely populated areas of Europe and North America.
While the negative effects of nutrient enrichment are considerable in term of biodiversity loss and alterations in ecosystem functioning, one possible positive aspect is the increased rate of organic carbon burial. This means that regional carbon budgets may benefit from eutrophication, leading to a positive effect on climate regulation.
The possible climate regulating role of lakes as carbon sinks is only now being evaluated but to date there has been limited consideration of change in organic carbon burial rates in response to eutrophication.
A recently published study by Helen Bennion, one of the Lake BESS team, with John Anderson (Loughborough University) and Andy Lotter (Utrecht University) has revealed that the accumulation rates of organic carbon in many European lakes have increased by at least four to five fold over the last 100-150 years (Anderson et al., 2014).
This piece of research compiled data from about 90 European lakes and found background estimates of carbon burial ~ 5–10 g C m-2 yr–1 compared with an average rate of around 60 g C m-2 yr–1 for lakes subject to eutrophication in recent decades.
They show that the organic carbon burial rates for European eutrophic lakes reflect phosphorus availability – a pollutant coming for example from domestic waste waters and farming – and are considerably higher than previously thought. This has clear implications for our current estimates of regional carbon budgets and for the role lakes may play.
The authors suggest that enhanced organic carbon burial by lakes is one positive side-effect of the otherwise negative impact of the anthropogenic disruption of nutrient cycles: eutrophic lakes are sequestering more organic carbon than at any other time in their history.
Within the Lake BESS project, changes in organic carbon burial rates will be calculated for the study sites in the two lake regions to determine the role of these lakes as carbon sinks and hence in providing the important ecosystem service of climate regulation.
Reference: [include link]
Anderson N.J., Bennion H. & Lotter A.F. (2014) Lake eutrophication and its implications for organic carbon sequestration in Europe. Global Change Biology 20, 2741–2751. doi: 10.1111/gcb.12584
It has been a very busy summer and autumn for Lake BESS hence a reduction in post on this website. Lake BESS 2014 activities culminated in a meeting in UCL attended by most of us. We had a special guest, Geoff Philips, now honorary fellow at Stirling University, who is bringing exceptional expertise in water chemistry and in the functioning of the Broads system. He was also the only one of us remembering to take a picture! – thank you Geoff for coming and for sharing this picture:
We’re just back from our very successful field work around the Upper Lough Erne, Co. Fermanagh, Northern Ireland. We managed to survey nearly 20 satellite loughs for aquatic plants, water chemistry and bryozoans (see this previous post).
The help we received from volunteers and project partners was absolutely tremendous! Over the two week we have been a dozen of us actively involved in this research campaign. We’d particularly like to thank Hannah, Robert, Tim and Stephen for joining our team at this occasion and also all the land owners who were kind enough to grant us access to the lakes we had targeted.
Battling through reed beds to get onto some of the lough with our boats was one of the striking aspects of this field work! But it was worth the effort and the diversity of aquatic plant observed over the two week is very impressive. For instance we have sightings for at least ten different Potamogeton species (see this previous post), an extremely good score!
We’ll post more picture and reports from this field work in the coming weeks.