Sediment cores being incubated under increased temperature and CO2.
- A group of UK scientists, co-ordinated by the University of Southampton, has published extensive research into how industry and environmental change are affecting our seafloors, but say more work is needed to help safeguard these complex ecosystems and the benefits they provide to people for the future.
- Source: University of Southampton
- Summary: Extensive research has been released into how industry and environmental change are affecting our seafloors. Researchers say more work is needed to help safeguard these complex ecosystems and the benefits they provide to people for the future. Read more at: https://danelite.blogspot.com/
Researchers from eight institutions and organisations have worked
together to examine areas of sea or ocean located on the UK continental
shelf to understand the sensitivity of these systems to human
activities. The societal importance of these ecosystems extends beyond
food production to include biodiversity, carbon cycling and storage,
waste disposal, nutrient cycling, recreation and renewable energy.
Martin Solan, lead principal investigator and Professor in Marine
Ecology at the University of Southampton, comments: "Our seafloors are
teaming with life, from microscopic organisms to larger creatures such
as fish and crabs. All interact as part of a complex system which plays a
vital role in maintaining the health of the seabed and the rest of food
web. Read
more at: https://danelite.blogspot.com/
"Human intervention, such as fishing, pollution and activities
causing climate change are all affecting these finely balanced
ecosystems. Collectively, our research provides us with a new
perspective on how the seafloor is being modified, for better or for
worse -- but more research is now needed to understand the longer-term
consequences of such change for the wider environment and for society at
large."
The research team has analysed the biodiversity, nutrient, metal and
carbon cycling in areas of the seafloor around the UK subject to
different environmental conditions and human use. University of
Southampton scientists focused on four main areas: the effects of
climate change1, assessing the impact of bottom fishing2, understanding
the importance of iron cycling across the seafloor4, and optimising
areas for study3. In relation to climate and fishing, the researchers
conducted two experiments. One took sediment communities from different
areas in the Irish Sea experiencing low, medium and high levels of
trawling activity and compared each sample. Another took different types
of sediment (mud, sand, sandy mud etc) from the Celtic Sea and
simulated, in a laboratory, how future climatic conditions will affect
important seabed processes. Read
more at: https://danelite.blogspot.com/
The researchers found that, in a variety of complex ways, communities
adjusted to their new environments, with some species thriving and some
taking up new roles. However, some species failed to adjust to the new
conditions and could not survive. In particular, the scientists found
that some species were able to withstand fishing pressure, but struggled
with warmer climate conditions and raised CO2 levels.
Dr Phil Williamson, from the University of East Anglia, who helped
coordinate this research programme, commented: "Much of what happens in
the sea is out of sight and out of mind. This study has provided a
wealth of insights into the natural recycling processes that are
literally at the base of marine ecosystems, underpinning the many
benefits that we obtain from the sea." Read
more at: https://danelite.blogspot.com/
The research is part of a special issue of the scientific journal Biogeochemistry
and includes contributions from the University of Southampton, the
Centre for Environment, Fisheries and Aquaculture Science (CEFAS), the
National Oceanography Centre (NOC), University of Portsmouth, University
of Oxford, Bangor University, Plymouth Marine Laboratory and The
Scottish Association for Marine Science (SAMS). The variety of projects
which the Biogeochemistry special issue brings together, were conducted
on three dedicated research cruises and other expeditions around the UK. Read
more at: https://danelite.blogspot.com/
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