Global chondrichthyan (sharks, skates, rays and chimaeras) populations are experiencing
alarming declines, driven by intense targeted and incidental extraction. Marine Protected
Areas (MPAs) represent one potential solution, which has gained traction in recent years.
When implemented effectively, MPAs demonstrate potential to rebuild populations and
enable ecosystem recovery. However, their value as an elasmobranch conservation tool
remains contested, particularly in temperate waters such as the UK. One essential
component of MPA efficacy is the implementation of robust ecological monitoring regimes
that allow species trajectories to be characterised and responded to, in real-time. However,
several challenges, inherent to both elasmobranchs and temperate marine environments,
currently impede adequate elasmobranch surveillance inside MPAs. This thesis addressed
these two interlinked components of elasmobranch conservation by 1) exploring the drivers
of temperate MPA success and 2) investigating opportunities for elasmobranch monitoring
advancements. A literature review was conducted to explore the determinants of MPA
success for temperate elasmobranch conservation. Meanwhile, novel monitoring
opportunities presented by technological developments were explored, in relation to
current method limitations. This was aided by an in-depth field study exploring the impact of
Lyme Bay MPA on the elasmobranch community, using a 12-year BRUV dataset. Finally, a
drifting pelagic BRUV was developed to address specific difficulties associated with surveying
pelagic sharks and their wider food webs. This thesis found that MPAs exhibit potential to
benefit temperate elasmobranchs, but their success varies vastly between contexts
depending on a variety of social and biophysical factors. Furthermore, studying Lyme Bay
MPA identified minimal robust evidence of benefits on the elasmobranch community, and
these were mainly afforded to a small-bodied, fast-growing shark (Scyliorhinus canicula).
Finally, the pelagic drifting BRUV failed to detect pelagic sharks, but demonstrated value for
characterising spatial variation in the wider pelagic food web. Overall, this work indicates
that temperate elasmobranch MPAs can represent an effective elasmobranch conservation
tool when the necessary guardrails are in place. Furthermore, to guarantee comprehensive
elasmobranch protection, MPA establishment should be supported by robust ecological
monitoring and a wider network of target and limit-based conservation strategies.
Date of Award | 2023 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Supervisor | Benjamin Ciotti (Other Supervisor) |
---|
- Elasmobranchs
- MPAs
- Sharks
- Skates
- Temperate
- Conservation
- Ecology
- Fishing
Assessing the effect of temperate MPAs on elasmobranch communities
Renn, C. (Author). 2023
Student thesis: ResM