Abstract

In this contribution, the study of the Bay of Brest ecosystem changes over the past 50 years is used to explore the construction of interdisciplinary knowledge and raise key questions that now need to be tackled at the science-policy-communities interface. The Bay of Brest is subject to a combination of several aspects of global change, including excessive nutrient inputs from watersheds and the proliferation of invasive species. These perturbations strongly interact, affecting positively or negatively the ecosystem functioning, with important impacts on human activities. We first relate a cascade of events over these five decades, linking farming activities, nitrogen and silicon biogeochemical cycles, hydrodynamics of the Bay, the proliferation of an exotic benthic suspension feeder, the development of the Great scallop fisheries and the high biodiversity in maerl beds. The cascade leads to today’s situation where toxic phytoplankton blooms become recurrent in the Bay, preventing the fishery of the great scallop and forcing the fishermen community to switch pray and alter the maerl habitat and the benthic biodiversity it hosts, despite the many scientific alerts and the protection of this habitat. In the second section, we relate the construction of the interdisciplinary knowledge without which scientists would never have been able to describe these changes in the Bay. Interdisciplinarity, first among natural sciences (NS) and then, between natural sciences and human and social sciences (HSS). We finally ask key questions at the science-policy interface regarding this unsustainable trend of the Bay: How is this possible, despite decades of joint work between scientists and fishermen? Is adaptive co-management a sufficient condition for a sustainable management of an ecosystem? How do the different groups (i.e. farmers, fishermen, scientists, environmentalists), with their diverse interests, take charge of this situation? What is the role of power in this difficult transformation to sustainability? Combining natural sciences with political science, anthropology and the political sociology of science, we hope to improve the contribution of HSS to integrated studies of social-ecological systems, creating the conditions to address these key questions at the science-policy interface to facilitate the transformation of the Bay of Brest ecosystem towards sustainability.

Highlights

  • From the first Earth Day in 1970 to the adoption of “sustainable development goals” in September 2015 at the UN Assembly, through the Brundtland Report (Brundtland, 1987) defining it, sustainable development has become a dominant paradigm of environmental public action, from the international level to national and more local scales

  • Combining the importance of Si recycling at the sediment-water interface in the maintenance of diatom blooms with the major role being played by C. fornicata in the recycling of nutrients in the bay, Chauvaud et al (2000) formulated a working hypothesis (Figure 2) about the possible effects of this combination on the ecosystem: when the silicate pump is active, filtration and biodeposition by benthic suspension feeders would lead to Si retention as Si-enriched sediment deposits

  • Before that (II), we examine how the interdisciplinary knowledge necessary to understand the ecosystem changes and present the cascade of events (Figure 4) was built, first in natural sciences studies of ecosystem complexity; we show how social scientists have entered into collaborative research programs with Natural Sciences (NS) during the last 10 years to start addressing questions raised concerning the sustainability of the social-ecological system of the Bay of Brest

Read more

Summary

Frontiers in Marine Science

Olivier Ragueneau 1*, Mélanie Raimonet 2, Camille Mazé 1, Jennifer Coston-Guarini 1, Laurent Chauvaud 1, Anatole Danto 1, Jacques Grall 1, Frédéric Jean 1, Yves-Marie Paulet 1 and Gérard Thouzeau 1 In this contribution, the study of the Bay of Brest ecosystem changes over the past 50 years is used to explore the construction of interdisciplinary knowledge and raise key questions that need to be tackled at the science-policy-communities interface. The Bay of Brest is subject to a combination of several aspects of global change, including excessive nutrient inputs from watersheds and the proliferation of invasive species These perturbations strongly interact, affecting positively or negatively the ecosystem functioning, with important impacts on human activities.

INTRODUCTION
Agriculture and Phytoplankton Dynamics
Proliferation of Invasive Species and Environmental Impacts on the Ecosystem
Pump Hypothesis
What Is the Present State of the Bay of
When Pelagic and Benthic Scientists First
The Humanities Enter the Game
Interdisciplinarity at IUEM
Condition for Sustainability?
Findings
What Form of Governance Between Land and Ocean?
Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call