Abstract
Coastal climate change impacts challenge policy and decision makers to adopt more effective adaptation measures. The ecosystem-based management approach can shift adaptation towards a more holistic, integrated and sustainable path. However, as countries work on strategies to adapt to climate change, the questions of if and how such agendas consider and operationalise ecosystem-based management remains. As one of the world’s largest coastal countries, Brazil can have a prominent role in advancing the implementation of ecosystem-based management to coastal zones. By analysing two national Brazilian climate change adaptation institutions, this article evaluates and discusses the country’s advances in promoting climate change adaptations based on ecosystem-based management principles. Our findings show that, although Brazil has incorporated many ecosystem-based management principles to climate change adaptation at the national level, greater attention should be given to operationalizing principles related to acknowledging uncertainties, sustainability, democracy and knowledge production and application. The challenges to implement these principles mirror historical challenges of Brazilian coastal management policies, such as balancing development and conservation, promoting social participation and implementing effective social-ecological assessments and monitoring programs. Policy makers, scientists and communities should be aware of the need to strengthen ecosystem-based management principles in the current adaptation agenda in order to enhance its capacity to foster adaptation and just coastal sustainability.
Highlights
From the iced Antarctic lands, through the tropical forests, and reaching the austral tundra, no environment on Earth is free from climate change (CC) impacts
The devastation is more evident in coastal zones, where diverse and fragile ecosystems and unique ecosystem services and resources are threatened by human activities and CC [1,2]
Our analysis considered 15 key Ecosystem-based management (EBM) principles identified by Long et al [15]
Summary
From the iced Antarctic lands, through the tropical forests, and reaching the austral tundra, no environment on Earth is free from climate change (CC) impacts. CC affects sea level, wind and wave regimes, increases the number of extreme rainfall and temperature events, changes ocean water properties and lowers river basins contributions for sedimentary balance [3]. As a result, it may increase erosion and social–environmental vulnerability, incur property, lives, habitats and biodiversity losses, impair water availability by groundwater salinisation and threaten traditional cultures [2,4]. Effective CC adaptation relies on the ability to promptly respond to changing social–ecological contexts, maintaining the ecosystem capacity to
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