Nate Peterson scite author profile

Spatial analyses of coral distributions at species level delineate the Coral Triangle and provide new insights into patterns of diversity and endemism around the globe. This study shows that the Coral Triangle, an area extending from the Philippines to the Solomon Islands, has 605 zooxanthellate corals including 15 regional endemics. This amounts to 76% of the world's total species complement, giving this province the world's highest conservation priority. Within the Coral Triangle, highest richness resides in the Bird's Head Peninsula of Indonesian Papua which hosts 574 species, with individual reefs supporting up to 280 species ha −1. Reasons for the exceptional richness of the Coral Triangle include the geological setting, physical environment and an array of ecological processes. These findings, supported by parallel distributions of reef fishes and other taxa, provide a clear scientific justification for the Coral Triangle Ini tiative, arguably one of the world's most significant reef conservation undertakings.

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Designing a resilient network of marine protected areas for Kimbe Bay, Papua New Guinea

Green

Smith

Lipsett‐Moore

et al. 2009

Oryx

138

153

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The Nature Conservancy takes a strategic and systematic approach to conservation planning. Ecoregional assessments are used to set goals and identify geographical priorities, and Conservation Action Planning is used to develop strategic plans for conservation areas. This study demonstrates how these planning processes were applied at the seascape scale based on a case study of Kimbe Bay, Papua New Guinea. Conservation Action Planning was used to identify key threats and strategies, and systematic conservation planning (similar to that used for ecoregional assessments) was used to design a network of marine protected areas to be resilient to the threat of climate change. The design was based on an assessment of biodiversity and socioeconomic values, and identified 14 Areas of Interest that meet specific conservation goals. A detailed community-based planning process is now underway with local communities that own and manage these areas to refine and implement the marine protected area network.

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The Coral Triangle

et al. 2010

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Incorporating climate change adaptation into national conservation assessments

Game

Lipsett-Moore

Saxon³

et al. 2011

Global Change Biology

115

103

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The Convention on Biological Diversity requires that member nations establish protected area networks that are representative of the country's biodiversity. The identification of priority sites to achieve outstanding representation targets is typically accomplished through formal conservation assessments. However, representation in conservation assessments or gap analyses has largely been interpreted based on a static view of biodiversity. In a rapidly changing climate, the speed of changes in biodiversity distribution and abundance is causing us to rethink the viability of this approach. Here we describe three explicit strategies for climate change adaptation as part of national conservation assessments: conserving the geophysical stage, identifying and protecting climate refugia, and promoting crossenvironment connectivity. We demonstrate how these three approaches were integrated into a national terrestrial conservation assessment for Papua New Guinea, one of the most biodiverse countries on earth. Protected areas identified based on representing geophysical diversity were able to capture over 90% of the diversity in vegetation communities, suggesting they could help protect representative biodiversity regardless of changes in the distribution of species and communities. By including climate change refugia as part of the national conservation assessment, it was possible to substantially reduce the amount of environmental change expected to be experienced within protected areas, without increasing the overall cost of the protected area network. Explicitly considering environmental heterogeneity between adjacent areas resulted in protected area networks with over 40% more internal environmental connectivity. These three climate change adaptation strategies represent defensible ways to guide national conservation priority given the uncertainty that currently exists in our ability to predict climate changes and their impacts. Importantly, they are also consistent with data and expertise typically available during national conservation assessments, including in developing nations. This means that in the vast majority of countries, these strategies could be implemented immediately.

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Informed opportunism for conservation planning in the Solomon Islands

Game

Lipsett-Moore

Hamilton

et al. 2010

Conservation Letters

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Human factors more than ecology dictate conservation opportunity and the subsequent success of implementation. This is particularly true in places such as the Solomon Islands where most terrestrial and coastal marine areas remain in community ownership. However, factors such as community support are not reliably predictable, nor easy to map, and therefore challenging to incorporate into systematic conservation plans. Here, we describe how the Lauru Land Conference of Tribal Communities and The Nature Conservancy have worked with the communities of Choiseul Province, Solomon Islands, to develop a conservation planning process that reconciles community-driven conservation opportunities, with a systematic and representation-based approach to prioritization. We suggest how sophisticated prioritization software can be used collaboratively in a community setting, to dynamically assess and guide conservation opportunities as they arise; a process of informed opportunism.

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Nate Peterson

Delineating the Coral Triangle

Designing a resilient network of marine protected areas for Kimbe Bay, Papua New Guinea

The Coral Triangle

Incorporating climate change adaptation into national conservation assessments

Informed opportunism for conservation planning in the Solomon Islands

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