Skip to main content

2050: Sustainable oceans in a changing climate

Which fish species will we be eating in 2050? What will the climate be like, and what will it mean for the productivity of the oceans? And how can we turn fisheries management around so that we harvest sustainably and ensure the livelihoods of fishing communities in the future?

These are three of the questions a diverse group of academics from the Cabot Institute tackled at the inaugural Cabot Writing Day in January. The concept for the event was that invitees from a range of disciplines (in this case marine biologists, lawyers, earth scientists, geographers and NGO representatives) gathered to address a central theme, and in a day produce a position paper:

2050: Sustainable oceans in a changing climate

As you can see we covered a huge amount of ground, gained valuable insights from each other's disciplines, share personal viewpoints and (deliberately) envisaged a very positive future for fisheries in 2050.

We are now using our discussions to fuel ideas for grant applications, initiate new contact and interaction with industry and policymakers, and potentially develop a TV series.

If you would like help organising a Cabot Writing Day on a subject you think needs attention and which suits the diverse Cabot Institute community, please contact Stephen.Simpson@bristol.ac.uk (Cabot KE Fellow) or Philippa.Bayley@bristol.ac.uk (Cabot Manager) to discuss your ideas...

Popular posts from this blog

Converting probabilities between time-intervals

This is the first in an irregular sequence of snippets about some of the slightly more technical aspects of uncertainty and risk assessment.  If you have a slightly more technical question, then please email me and I will try to answer it with a snippet. Suppose that an event has a probability of 0.015 (or 1.5%) of happening at least once in the next five years. Then the probability of the event happening at least once in the next year is 0.015 / 5 = 0.003 (or 0.3%), and the probability of it happening at least once in the next 20 years is 0.015 * 4 = 0.06 (or 6%). Here is the rule for scaling probabilities to different time intervals: if both probabilities (the original one and the new one) are no larger than 0.1 (or 10%), then simply multiply the original probability by the ratio of the new time-interval to the original time-interval, to find the new probability. This rule is an approximation which breaks down if either of the probabilities is greater than 0.1. For example

1-in-200 year events

You often read or hear references to the ‘1-in-200 year event’, or ‘200-year event’, or ‘event with a return period of 200 years’. Other popular horizons are 1-in-30 years and 1-in-10,000 years. This term applies to hazards which can occur over a range of magnitudes, like volcanic eruptions, earthquakes, tsunamis, space weather, and various hydro-meteorological hazards like floods, storms, hot or cold spells, and droughts. ‘1-in-200 years’ refers to a particular magnitude. In floods this might be represented as a contour on a map, showing an area that is inundated. If this contour is labelled as ‘1-in-200 years’ this means that the current rate of floods at least as large as this is 1/200 /yr, or 0.005 /yr. So if your house is inside the contour, there is currently a 0.005 (0.5%) chance of being flooded in the next year, and a 0.025 (2.5%) chance of being flooded in the next five years. The general definition is this: ‘1-in-200 year magnitude is x’ = ‘the current rate for eve

Coconuts and climate change

Before pursuing an MSc in Climate Change Science and Policy at the University of Bristol, I completed my undergraduate studies in Environmental Science at the University of Colombo, Sri Lanka. During my final year I carried out a research project that explored the impact of extreme weather events on coconut productivity across the three climatic zones of Sri Lanka. A few months ago, I managed to get a paper published and I thought it would be a good idea to share my findings on this platform. Climate change and crop productivity  There has been a growing concern about the impact of extreme weather events on crop production across the globe, Sri Lanka being no exception. Coconut is becoming a rare commodity in the country, due to several reasons including the changing climate. The price hike in coconuts over the last few years is a good indication of how climate change is affecting coconut productivity across the country. Most coconut trees are no longer bearing fruits and thos