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Immense concern for the sustainability and wastage of fish maw byproducts were expressed by interviewees. They reported that fish are becoming harder to catch and that sizes of fish caught are declining.

Understanding perceived equity is key, equity subjective, context-dependent and has implications for legitimacy, cooperation and wellbeing. Since gender in combination with other social characteristics, influence how people benefit or participate in management, examining perceived fairness from an intersectional perspective is crucial.

This project - Disaster Risk Reductino and Climate Change Impact Survey if Cultural Sites in the Republic of Palau: Reconnaissance Survey is the first phase of a longer-term initiative to examine archaeologically and culturally significant sites across the archipelago and assess their vulnerability to climate change, including but not limited to modelled projections of rising sea levels and sedimentation and erosion of sites vis-a-vis tidal inundation and rainfall.

In 2018, the Parties to the Convention on Biological Diversity (CBD) adopted a decision on protected areas and other effective area-based conservation measures (OECMs). It contains the definition of an OECM and related scientific and technical advice that has broadened the scope of governance authorities and areas that can be engaged and recognised in global conservation efforts. The voluntary guidance on OECMs and protected areas, also included in the decision, promotes the use of diverse, effective and equitable governance models, the integration of protected areas and OECMs into wider landscapes and seascapes, and mainstreaming of biodiversity conservation across sectors.

Work on the poet-2020 global biodiversity framework is now well advanced and will outline a vision, goals and targets for the next decade of biodiversity conservation and beyond. For the effectiveness of Protected areas and other effective area-based conservation measures, an indicator has been proposed for areas meeting their documented ecological objectives.

There is a growing recognition that conservation strategies should be designed accounting for cross-realm connections, such as freshwater connections to land and sea, to ensure effectiveness of marine spatial protection and minimize perverse outcomes of changing land-use. Yet, examples of integration across realms are relatively scarce, with most targeting priorities in a single realm, such as marine or freshwater, while minimizing threats originating in terrestrial ecosystems. To date, no study has optimized priorities across multiple realms to produce a spatially explicit integrated conservation plan that simultaneously accounts for multiple human activities at a national scale. This represents a major gap in the application of existing cross-realm planning theory. We present a national scale conservation framework for selecting protected areas using a case study of Papua New Guinea (PNG) that integrates multiple systems and ecological connectivity to account for cross-realm benefits and minimize threats of land-use and climate change. The relative importance of both the forests and inshore reef environments to PNG subsistence and commercial livelihoods emphasizes the importance of considering the connections between the land and sea. The plan was commissioned by the PNG Conservation and Environment Protection Authority and identifies a comprehensive set of priorities that meet conservation targets in both the land and sea. Our national-scale prioritization framework is useful for agencies and managers looking to implement actions given multiple objectives, including watershed management and biodiversity protection, and ensures actions are efficient and effective across the land and sea.

We report three major and confronting environmental issues that have received little attention and require urgent action. First, we review the evidence that future environmental conditions will be far more dangerous than currently believed. The scale of the threats to the biosphere and all its lifeform including humanity is in fact so great that it is difficult to grasp for even well-informed experts. Second we ask what political or economic system, or leadership, is prepared ti handle the predicted disasters, or even capable of such actions. Third, this dire situation places as extraordinary responsibility on scientists to speak out candidly and accurately when engaging with government, business and the public.

This policy analysis identifies threats to coral reefs, evaluates the effectiveness of the existing legal framework to address these threats and formulates recommendations to strengthen community-based natural resource management in Solomon Islands coral reefs of crucial importance for food security and rural livelihoods in the archipelago. Logging is a major yet often overlooked threat to coral reefs in the country. Large-scale logging operations cause massive erosion, which has a detrimental effect on water quality. The shipping accidents oil pollution and uncontrolled construction of log pond associated with the logging industry also have a significant impact on coastal ecosystems.

Increasingly frequent severe coral bleaching is among the greatest threats to coral reefs posed by climate change. Global climate models (GCMs) project great spatial variation in the timing of annual severe bleaching (ASB) conditions, a point at which reefs are certain to change and recovery will be limited.

ABSTRACT: Coastal fish populations are typically threatened by multiple human activities, including fishing pressure and run-off of terrestrial pollution. Linking multiple threats to their impacts on fish populations is challenging because the threats may influence a species directly, or indirectly, via its habitats and its interactions with other species. Here we examine spatial variation in abundance of coral reef fish across gradients of fishing pressure and turbidity in Fiji. We explicitly account for multiple pathways of influence to test the alternative hypotheses that (1) habitat moderates predation by providing shelter, so habitat loss only affects prey fish populations if there are abundant predators, (2) habitat change co-drives biomass of both prey and predator functional groups. We examined responses of 7 fish functional groups and found that habitat change co-drives both predator and prey responses to turbidity. Abundances of all functional groups were associated with changes in habitat cover; however, the responses of their habitats to turbidity were mixed. Planktivore and piscivore abundance were lower in areas of high turbidity, because cover of their preferred habitats was lower. Invertivore, browser and grazer abundance did not change strongly over the turbidity gradient, because different components of their habitats exhibited both increases and decreases with turbidity. The effects of turbidity on fish populations were minor in areas where fish populations were already depleted by fishing. These findings suggest that terrestrial run-off modifies the composition of reef fish communities indirectly by affecting the benthic habitats that reef fish use.